Combination thymosin alpha 1 and
lymphoblastoid interferon treatment in chronic
hepatitis C
Rasi G; DiVirgilio D; Mutchnick MG; Colella F;
Sinibaldi-Vallebona P; Pierimarchi P; Valli B;
Garaci E
Istituto di Medicina Sperimentale, CNR-Roma,
Italy.
Gut (England) Nov 1996, 39 (5) p679-83
BACKGROUND: Monotherapy for chronic hepatitis C
using interferon (IFN) results in a very small
proportion of patients exhibiting a sustained
response. Clinical trials assessing the benefit of
combination drug therapy may provide evidence of
improved treatment response over that seen with
single drug treatment. AIM: To assess the response
in patients with chronic hepatitis C to one year
of combination treatment: thymosin alpha 1 (T
alpha 1), 1 mg twice weekly, and lymphoblastoid
(L)-IFN, 3 MU thrice weekly.
PATIENTS AND METHODS: Fifteen patients with
serum HCV RNA positive chronic hepatitis C were
studied. Eleven patients were treatment naive and
four had failed previous standard IFN therapy.
Thirteen patients were HCV RNA serotype 1b. All
patients were given combination T alpha 1 and
L-IFN therapy for one year with a six month follow
up period.
RESULTS: Six months after initiation of
treatment seven patients (47%) were sera HCV RNA
negative and at completion of the one year
treatment 11 (73%), including two who had failed
previous standard IFN treatment, had negative
serum HCV RNA. Six months after treatment, six
patients (40%), including five with HCV type 1b,
showed a sustained response characterized by a
negative serum HCV RNA.
CONCLUSIONS: The results of this open label
trial suggest that there may be a potential
benefit to combining an immune modulator (T alpha
1) with an antiviral (IFN) in the treatment of
chronic hepatitis C. Verification of the
observations in this study require completion of a
randomised controlled study.
Effective immunization against
neuroblastoma using double-transduced tumor cells
secreting GM-CSF and
interferon-gamma.
Bausero MA; Panoskaltsis-Mortari A; Blazar BR;
Katsanis E
Department of Pediatrics, University of
Minnesota, Minneapolis 55455, USA.
J Immunother Emphasis Tumor Immunol (United
States) Mar 1996, 19 (2) p113-24
Murine neuroblastoma, neuro-2a, was transduced
with the retroviral vector
MFG-granulocyte-macrophage colony-stimulating
factor (GM-CSF), to examine immune stimulation
conferred by localized GM-CSF production.
Expression of murine GM-CSF by neuro-2a (N-2a/GM)
significantly reduced its tumorigenicity.
Moreover, immunization of mice with irradiated
N-2a/GM cells resulted in a significant protective
effect against live tumor challenge 14 days later.
Approximately 41% of mice immunized with
irradiated N-2a/GM versus 0% of those vaccinated
with irradiated parental tumor survived. Surviving
mice were rechallenged after 50 days with
wild-type neuro-2a or with the Sa1 syngeneic
sarcoma to discern whether the generated immunity
was durable and tumor specific. All mice survived
wild-type neuro-2a challenge, whereas none
survived inoculation with Sa1. Because both CD4+
and CD8+ T cells were necessary during priming to
this MHC class Ilo, II-tumor, these data indicate
that major histocompatibility complex (MHC) class
I+, II+ antigen-presenting cells (APCs) were
required for the T-cell antitumor response.
Co-expression of GM-CSF and IFN-gamma, both of
which have immunostimulatory activities on
antigen-presenting cells, abrogated the
tumorigenic potential of this tumor and increased
immunogenicity over N-2a/IFN but not N-2a/GM.
Vaccination of mice with preexisting
retroperitoneal tumors with irradiated N-2a/GM and
irradiated N-2a/IFN/GM improved survival. There
was a trend for nonirradiated transduced cells to
be more immunogenic than their irradiated
counterparts. Immunohistochemistry of tissues from
the vaccination site revealed a pronounced
macrophage infiltration associated with
nonirradiated N-2a/GM and N-2a/IFN/GM. These data
suggest that vaccination involving nonirradiated
neuroblastoma cells transduced with genes that
stimulate APCs may be a useful approach in
stimulating antitumor T-cell responses.
Improved sustained response following
treatment of chronic hepatitis C by gradual
reduction in the interferon dose.
Shiffman ML; Hofmann CM; Luketic VA; Sanyal AJ;
Contos MJ; Mills AS
Hepatology Section, Medical College of Virginia,
Richmond, Va 23298, USA.
Hepatology (United States) Jul 1996, 24 (1)
p21-6
Interferon (IFN) treatment of chronic hepatitis
C virus (HCV) is associated with a high rate of
relapse. IFN is thought to exert its effect
against HCV via direct viral inhibition and immune
stimulation. We have hypothesized that relapse
following termination of therapy results from the
sudden withdrawal of this immune modulatory effect
and that gradual reduction in the IFN dose may
decrease the incidence of relapse. One hundred six
patients with chronic HCV were enrolled into this
24-month controlled, randomized prospective trial.
All were treated with 5 mU of interferon-alpha-2b
three times a week for 6 months. Patients who
achieved biochemical response were randomized to
either stop or taper IFN gradually at monthly
intervals as follows; 3 mu, 2 mU, 1 mU, and 0.5 mU
(all three times a week). 0.5 mU twice weekly and
then once weekly. Liver histology was assessed by
Knodell index and HCV RNA was measured by a
quantitative polymerase chain reaction (PCR)
assay. Of the 92 patients who completed the
initial 6 months of IFN treatment, 47 (51%)
achieved biochemical response. Twenty-one of these
patients were randomized to stop IFN treatment and
25 to taper (1 drop-out). At randomization
patients were well matched with respect to age,
sex, race, serum alanine transaminase (ALT), and
liver histology. Biochemical relapse was observed
in 19 of 21 (91%) patients who stopped IFN
treatment compared with only 60% who tapered IFN
(P= .04). Virological relapse occurred in 90% of
patients who stopped and only 48% of persons who
tapered IFN therapy. At completion of the 24-month
study patients who achieved long-term sustained
biochemical response had a significantly lower
mean Knodell score (3.5 vs. 6.5) and a
significantly greater number were HCV RNA negative
in serum (85% vs. 18%) compared with relapsers. We
conclude that gradual reduction in IFN dose is
associated with a significant higher rate of
sustained response and clearance of HCV RNA from
serum compared with abruptly stopping treatment.
This in turn is associated with a significant
improvement in hepatic histology supporting the
premise that response to IFN therapy can prevent
progression to cirrhosis.
Improved immunotherapy of a
recombinant carcinoembryonic antigen vaccinia
vaccine when given in combination with
interleukin-2.
McLaughlin JP; Schlom J; Kantor JA; Greiner
JW
Laboratory of Tumor Immunology and Biology,
National Cancer Institute, NIH, Bethesda, Maryland
20892, USA.
Cancer Res (United States) May 15 1996, 56 (10)
p2361-7
Interleukin-2 (IL-2) has been an effective
immune modulator in several active-specific
immunotherapy experimental protocols using either
viral or oncolysate-based vaccines. In this
report, data indicate that IL-2 administration can
appreciably augment the therapeutic effect of a
single immunization of a recombinant vaccinia
virus-carcinoembryonic antigen (rV-CEA) vaccine
using a CEA-expressing syngeneic experimental
murine model system. A single rV-CEA immunization
of C57BL/6 mice bearing palpable CEA-positive
colon adenocarcinoma tumors results in complete
tumor regression in approximately 20% of the mice.
The addition of a course of low-dose IL-2 results
in complete tumor regression in 60-70% of the
mice. Moreover, the combination of rV-CEA and IL-2
induces systemic immunity, which protects those
tumor-free mice from subsequent rechallenge with
the CEA-expressing tumor cells. No such tumor
regression or protection was observed in those
mice immunized with the wild-type vaccinia vaccine
(V-Wyeth) alone or with IL-2 administration alone.
Cellular immune assays revealed that the addition
of IL-2 to rV-CEA immunization significantly
increased the CEA-specific T-cell proliferative
responses as well as the cytolytic T-cell
responses when compared with rV-CEA immunization
alone. The enhanced CEA-specific immune response,
coupled with the improved experimental therapeutic
outcome following IL-2 administration, suggests
that treatment with that cytokine may effectively
substitute for multiple rV-CEA immunizations in
active-specific immunotherapy clinical protocols
directed at CEA-expressing tumors.
Vitamins and immunity: II.
Influenceof L-carnitine on the immune
system.
De Simone C; Ferrari M; Lozzi A; Meli D; Ricca
D; Sorice F
Acta Vitaminol Enzymol (Italy) 1982, 4 (1-2)
Vitamin A affects the antibody responses and
may affect phagocytic function and properdin
levels. Pyridoxine deficiency impairs nucleic acid
synthesis and depresses antibody formation,
delayed hypersensitivity reactions and the ability
of phagocytes to kill bacteria. Pantothenic acid
deficiency impairs antibody formation. Vitamin-C
deficiency increases the incidence of infection,
primary by a negative influence on reparative
processes. Deficiencies of other vitamins either
have not been sufficiently studied or have a
variable effect. Moreover, even substances which
for their biosynthesis require an adequate vitamin
supplementation may exert immunomodulatory
influences. With this respect the authors report
their results on the influence of L-carnitine on
the immune system. L-carnitine increases the
proliferative responses of both murine and human
lymphocyte following mitogenic stimulation and
increase polymorphonuclear chemotaxis.
Furthermore, L-carnitine, even at minimal
concentrations, neutralizes the lipid induced
immunosuppression.
Suppression of tumor growth and
enhancement of immune status with high levels of
dietary vitamin B6 in BALB/c mice.
Gridley DS; Stickney DR; Nutter RL; Slater JM;
Shultz TD
J Natl Cancer Inst 1987 May;78(5):951-9
Effects of dietary vitamin B6 at levels ranging
from deficiency to megadoses on the development of
herpes simplex virus type 2-transformed (H238)
cell-induced tumors and on in vitro responses
relating to cell-mediated immunity were examined.
Male BALB/cByJ mice (n = 260), 5 weeks of age,
were fed 20% casein diets containing pyridoxine
(PN) at 0.2, 1.2 for the control diet, 7.7, or
74.3 mg/kg diet for 4-11 weeks. After 4 weeks of
dietary treatment, 120 of the mice received an
injection of H238 cells; mice without H238
injection served as controls. At 4, 8, and 11
weeks, animals from each group were euthanized and
blood and spleen samples obtained. Mice fed 0.2 mg
PN developed mild deficiency symptoms and gained
significantly less weight than those fed 1.2-,
7.7-, and 74.3-mg PN diets. Thirteen to 16 days
after tumor cell injection, primary tumor
incidence was lowest in mice fed 74.3 mg PN;
later, incidence among groups was similar. Mice
fed 1.2 mg PN had the largest primary tumor
volume, the highest incidence of lung metastases,
and the greatest number of metastatic nodules per
animal at 7 weeks post injection. Overall, lower
tumor volumes were found in animals fed 7.7 and
74.3 mg PN (14 and 32% less than the tumor volume
for those fed 1.2 mg PN, respectively); mice fed
0.2 mg PN had the lowest tumor volume. Blood and
spleen lymphoproliferative response to stimulation
by phytohemagglutinin or concanavalin A generally
tended to be higher in mice fed 7.7 and 74.3 mg PN
as compared to that in animals fed either 0.2 or
1.2 mg PN. However, decreased mitogen-stimulated
responsiveness was observed in all animals with
progressive tumor growth. Tumor growth also
resulted in splenomegaly and increased thymic
atrophy. Significant negative relationships
between tumor volume and tumor pyridoxal
5-phosphate (PLP) concentrations were observed for
1.2-, 7.7-, and 74.3-mg PN diet groups. These data
suggest that high dietary intake of vitamin B6 may
have suppressed tumor development by either immune
enhancement or PLP growth regulation of this
tumor.
The
activities of coenzyme Q10 and vitamin B6 for
immune responses.
Folkers K, Morita M, McRee J Jr
Institute for Biomedical Research, University of
Texas, Austin 78712.
Biochem Biophys Res Commun 1993 May
28;193(1):88-92
Coenzyme Q10 (CoQ10) and vitamin B6
(pyridoxine) have been administered together and
separately to three groups of human subjects. The
blood levels of CoQ10 increased (p < 0.001)
when CoQ10 and pyridoxine were administered
together and when CoQ10 was given alone. The blood
levels of IgG increased when CoQ10 and pyridoxine
were administered together (p < 0.01) and when
CoQ10 was administered alone (p < 0.05). The
blood levels of T4-lymphocytes increased when
CoQ10 and pyridoxine were administered together (p
< 0.01) and separately (p < 0.001). The
ratio of T4/T8 lymphocytes increased when CoQ10
and pyridoxine were administered together (p <
0.001) and separately (p < 0.05). These
increases in IgG and T4-lymphocytes with CoQ10 and
vitamin B6 are clinically important for trials on
AIDS, other infectious diseases, and on
cancer.
Research on coenzyme Q10 in clinical
medicine and in immunomodulation.
Folkers K; Wolaniuk A
Drugs Exp Clin Res (Switzerland) 1985, 11 (8)
p539-45
Coenzyme Q10 (CoQ10) is a redox component in
the respiratory chain. CoQ10 is necessary for
human life to exist; and a deficiency can be
contributory to ill health and disease. A
deficiency of CoQ10 in myocardial disease has been
found and controlled therapeutic trials have
established CoQ10 as a major advance in the
therapy of resistant myocardial failure. The
cardiotoxicity of adriamycin, used in treatment
modalities of cancer, is significantly reduced by
CoQ10, apparently because the side-effects of
adriamycin include inhibition of mitochondrial
CoQ10 enzymes. Models of the immune system
including phagocytic rate, circulating antibody
level, neoplasia, viral and parasitic infections
were used to demonstrate that CoQ10 is an
immunomodulating agent. It was concluded that
CoQ10, at the mitochondrial level, is essential
for the optimal function of the immune system.
Immunoenhancing effect of flavonoid
compounds on lymphocyte proliferation and
immunoglobulin synthesis.
Brattig NW; Diao GJ; Berg PA
Int J Immunopharmacol (England) 1984, 6 (3)
p205-15
Flavonoid compounds are lipophilic agents which
can interact with membrane lipids and may affect
responsiveness of immune cells. We therefore
studied whether cianidanol ((+)-catechin), the
O-methyl-derivative
(+)-3-methoxy-5,7,3',4'-tetrahydroxyflavan and
palmitoyl-derivative
(+)-3-palmitoyl-5,7,3',4'-tetrahydroxyflavan
influence T and B cell functions. In addition,
immunomodulatory property of ubiquinone 50 was
also investigated. As controls were used
cyclosporin A and inosine which are known to
inhibit or enhance immune responses, respectively.
The in vitro spontaneous, antigen and mitogen
induced proliferation as well as immunoglobulin
synthesis of peripheral blood mononuclear cells
from healthy individuals was determined in the
presence of different concentrations of the
agents. All flavonoid compounds and ubiquinone 50
significantly increased (p less than 0.05 - less
than 0.01) the spontaneous lymphocyte
transformation but hardly affected antigen,
alloantigen and mitogen induced proliferative
response. Only cianidanol and O-methyl-derivative
enhanced significantly (p less than 0.05 - less
than 0.01) spontaneous, pokeweedmitogen and
Staphylococcus aureus Cowan I induced
immunoglobulin synthesis while the
palmitoyl-derivative and ubiquinone 50 had only
minor influence on B cell function. In contrast,
Staphylococcus aureus induced immunoglobulin
production was neither increased by inosine nor
suppressed by cyclosporin A. These studies show
that especially cianidanol and the
O-methyl-derivative can exert an immunoenhancing
effect on T and B cell functions.
Immunological senescence in mice and
its reversal by coenzyme Q10.
Bliznakov EG
Mech Ageing Dev 1978 Mar;7(3):189-97
A pronounced suppression of the humoral,
hemolytic, primary immune response in old (22
months) mice was demonstrated as compared with
this response in young (10 weeks) mice. The
suppression is associated with a lower thymus
weight:body weight ratio. In contrast, the ratios
spleen weight:body weight and liver weight:body
weight in 10 weeks and 22 months old mice remain
almost constant. A single administration of
coenzyme Q10--a non-toxic, non-specific stimulant
of the host defense system--partly compensates the
age-determined suppression of the humoral, immune
response. This suppression probably results from
an age-dependent imbalance of T cells: B cells
ratio and a decline of their immunological
responsiveness which is compensated by the
administration of coenzyme Q10.
Immune
effects of preoperative immunotherapy with
high-dose subcutaneous interleukin-2 versus
neuroimmunotherapy with low-dose interleukin-2
plus the neurohormone melatonin in
gastrointestinal tract tumor
patients.
Lissoni P; Brivio F; Brivio O; Fumagalli L;
Gramazio F; Rossi M
J Biol Regul Homeost Agents (Italy) Jan-Mar 1995,
9 (1) p31-3
Surgery-induced immunosuppression could
influence tumor/host interactions in surgically
treated cancer patients. Previous studies have
shown that high-dose IL-2 preoperative therapy may
neutralize surgery-induced lymphocytopenia.
Moreover, experimental studies have demonstrated
that the immunomodulating neurohormone melatonin
(MLT) may amplify IL-2 activity and reduce its
dose required to activate the immune system. On
this basis, we have compared the immune effects of
presurgical therapy with high-dose IL-2 with
respect to those obtained with preoperative
neuroimmunotherapy consisting of low-dose IL-2
plus MLT. The study included 30 patients with
gastrointestinal tract tumors, who were randomized
to undergo surgery alone, or surgery plus a
preoperative biotherapy with high-dose IL-2 (18
million IU/day subcutaneously for 3 days) or
low-dose IL-2 (6 million IU/day subcutaneously for
5 days) plus MLT (40 mg/day orally). Patients
underwent surgery within 36 hours from IL-2
interruption. Both IL-2 plus MLT were able to
prevent surgery-induced lymphocytopenia. However,
mean number of lymphocytes, T lymphocytes and T
helper lymphocytes observed on day 1 of
postoperative period was significantly higher in
patients treated with IL-2 plus MLT than in those
receiving IL-2 alone. Moreover, toxicity was less
in patients treated with IL-2 and MLT. This
biological study shows that both immunotherapy
with high-dose IL-2 or neuroimmunotherapy with
low-dose IL-2 plus MLT preoperatively are
tolerated biotherapies, capable of neutralizing
surgery-induced lymphocytopenia in cancer
patients. Moreover, the study would suggest that
the neuroimmunotherapy may induce a more rapid
effect on postoperative immune changes with
respect to IL-2 alone.
Pineal-opioid system interactions in
the control of immunoinflammatory
responses.
Lissoni P, Barni S, Tancini G, Fossati V,
Frigerio F
Division of Radiation Oncology, San Gerardo
Hospital, Monza, Milan, Italy.
Ann N Y Acad Sci 1994 Nov 25;741:191-6
Several studies have demonstrated involvement
of the pineal gland in the regulation of
neuropeptide secretion and activity. In
particular, the existence of links between the
pineal gland and the brain opioid system has been
documented. Both opioid peptides and melatonin
(MLT), the most investigated pineal hormone, play
an important role in neuromodulation of the
immunity. Moreover, the immune effects of MLT are
mediated by endogenous opioid peptides, which may
be produced by both the endocrine system and the
immune cells. In addition, the immune dysfunctions
that characterize some human diseases, such as
cancer, depend not only on the immune system per
se, but also at least in part, on altered
secretion of immunomodulating neurohormones,
including MLT and opioid peptides. Therefore, the
exogenous administration of neurohormones could
potentially improve the immune status in humans.
The present study evaluates the effects of MLT on
changes in the number of T lymphocytes, natural
killer cells, and eosinophils induced by exogenous
administration of interleukin-2 (IL-2). Macrophage
activity was also evaluated by determining serum
levels of its specific marker, neopterin. The
study was performed in 90 patients with advanced
solid neoplasms, who received IL-2 at a dose of 3
million IU/day subcutaneously for 6 days a week
for 4 weeks plus MLT at a daily dose of 40 mg.
Both drugs were given in the evening. The results
were compared to those in 40 cancer patients
treated with IL-2 alone. The mean increase in T
lymphocytes, natural killer cells, and eosinophils
was significantly higher in patients treated with
IL-2 plus MLT than in those who received IL-2
alone.
Evidence for a direct action of
melatoninon the immune system.
Poon AM, Liu ZM, Pang CS, Brown GM, Pang SF
Department of Physiology, University of Hong
Kong.
Biol Signals 1994 Mar-Apr;3(2):107-17
Pineal melatonin modulates the mammalian immune
system. In vivo studies showed that melatonin
enhanced the natural and acquired immunity while
in vitro studies demonstrated its inhibitory
influence. The mechanism of melatonin action on
the immune system remains unknown. Actions through
lymphokines or opioid release or via other
endocrine changes have been proposed. In this
paper, a direct action of melatonin on the
lymphoid tissue is hypothesized.
2-[125I]Iodomelatonin binding sites have been
identified in the membrane homogenates of thymus,
bursa of Fabricius and spleens of a number of
birds and mammals. The bindings were stable,
saturable, reversible, specific and of high
affinity. The Bmax ranged from 0.6 to 3.9 fmol/mg
protein. The Kd was in the physiological range of
circulating melatonin levels, about 30-70 pmol/l.
The binding sites in the primary lymphoid organs
demonstrated diurnal variation in density, with
higher levels found at the middle of the light
period. However, those in the spleen did not vary
with the time of the day.An age-dependent decrease
in the density was also found in the chicken bursa
of Fabricius. In addition, when the nocturnal
melatonin secretion was suppressed by constant
light exposure, the density of the binding sites
increased in the guinea pig spleen.
Immunosuppression with cortisol injection in young
ducks decreased the density of the melatonin
binding sites in the thymus. The regulation of the
binding characteristics by physiological variation
in melatonin levels and/or immunological status of
the animals provide evidence that these
2-[125I]iodomelatonin binding sites in the
lymphoid tissues may be physiologically
significant and represent true melatonin
receptors. The melatonin receptors in the lymphoid
organs may be coupled to a G protein as Guanosine
5'-0-(3-thiotriphosphate inhibited
2-[125I]iodomelatonin binding in the spleen by
increasing the Kd and decreasing the Bmax.
The
immuno-reconstituting effect of melatonin or
pineal grafting and its relation to zinc pool in
aging mice.
Mocchegiani E, Bulian D, Santarelli L, Tibaldi
A, Muzzioli M, Pierpaoli W, Fabris N
Gerontology Research Department, Italian National
Institute for Research on Aging (INRCA),
Ancona.
J Neuroimmunol 1994 Sep;53(2):189-201
It has been demonstrated that melatonin, the
main neuro-hormone of the pineal gland, affects
thymic functions and the regulation of the immune
system. In addition, experimental evidences
indicate that melatonin can modulate zinc
turnover. The knowledge that with advancing age
both melatonin and zinc plasma levels decline, and
that zinc supplementation in old mice is able to
restore the reduced immunological functions, has
prompted investigations on the effect of chronic
melatonin treatment or pineal graft in old mice on
the age-related decline of thymic endocrine
activity, peripheral immune functions and zinc
turnover. Both melatonin treatment in old mice and
pineal graft into the thymus of old mice correct
the reduced thymic endocrine activity and increase
the weight of the thymus and its cellularity. A
restoration of cortical thymic volume, as detected
by the percentage of tissue in active
proliferation, is also observed in old mice after
both treatments. Thymocyte CD phenotype expression
is also restored to young values. At peripheral
level, recovery of peripheral blood lymphocyte
number and of spleen cell subsets, with increased
mitogen responsiveness also occurs. Melatonin
treatment or pineal graft induce also a
restoration of the altered zinc turnover in aged
mice with an increment of the crude zinc balance
from negative (-1.6 microgram/day/mouse) to
positive value (+1.2 microgram/day/mouse), similar
to that one of young mice (+1.4
microgram/day/mouse). The reduced zinc plasma
level is restored to normal values. These findings
support the idea that the effect of melatonin on
thymic endocrine activity and peripheral immune
functions may be mediated by the zinc pool.
The
immunoneuroendocrine role of
melatonin.
Maestroni GJ
J Pineal Res (Denmark) Jan 1993, 14 (1) p1-10
A tight, physiological link between the pineal
gland and the immune system is emerging from a
series of experimental studies. This link might
reflect the evolutionary connection between
self-recognition and reproduction. Pinealectomy or
other experimental methods which inhibit melatonin
synthesis and secretion induce a state of
immunodepression which is counteracted by
melatonin. In general, melatonin seems to have an
immunoenhancing effect that is particularly
apparent in immunodepressive states. The negative
effect of acute stress or immunosuppressive
pharmacological treatments on various immune
parameters are counteracted by melatonin. It seems
important to note that one of the main targets of
melatonin is the thymus, i.e., the central organ
of the immune system. The clinical use of
melatonin as an immunotherapeutic agent seems
promising in primary and secondary
immunodeficiencies as well as in cancer
immunotherapy. The immunoenhancing action of
melatonin seems to be mediated by T-helper
cell-derived opioid peptides as well as by
lymphokines and, perhaps, by pituitary hormones.
Melatonin-induced-immuno-opioids (MIIO) and
lymphokines imply the presence of specific binding
sites or melatonin receptors on cells of the
immune system. On the other hand, lymphokines such
as gamma-interferon and interleukin-2 as well as
thymic hormones can modulate the synthesis of
melatonin in the pineal gland. The pineal gland
might thus be viewed as the crux of a
sophisticated immunoneuroendocrine network which
functions as an unconscious, diffuse sensory
organ.
The
pineal neurohormone melatonin stimulates activated
CD4+, Thy-1+ cells to release opioid agonist(s)
with immunoenhancing and anti-stress
properties.
Maestroni GJ, Conti A
Laboratory for Experimental Pathology, Istituto
Cantonale di Patologia, Locarno, Switzerland.
J Neuroimmunol 1990 Jul;28(2):167-76
In previous studies we showed that in mice the
pineal gland modulates the immune response via the
circadian synthesis and release of melatonin.
Exogenous melatonin proved also to exert
immunoenhancing effects and to counteract
completely the immunologic effect of acute stress.
Melatonin was active only in vivo, in mice primed
with T-dependent antigens and its effects on the
primary antibody response and thymus weight were
abolished by the specific opioid antagonist
naltrexone. Here we demonstrate that physiologic
concentrations of melatonin stimulate, in vitro,
activated L3T4+ (CD4+) cells to release opioid
agonist(s) that can reproduce in vivo the
immunoenhancing and anti-stress effects on thymus
cellularity and antibody production of melatonin
and compete with specific binding of [3H]naloxone
to mouse brain membranes. Similar results were
obtained when mitogen-activated human
immunocompetent cells were incubated with
melatonin. In the human model the results were,
however, less consistent than those obtained with
murine cells, in that only four out of ten blood
donors provided cells that were responsive to
melatonin. This finding elucidates the mechanism
of a novel immuno-neuroendocrine connection with
relevant implications for our understanding of the
neuroendocrine factors that may influence the
immune response in vivo in normal and stressful
situations. In addition, it opens new perspectives
in a wide range of research fields.
Endocrine and immune effects of
melatonin therapy in metastatic cancer
patients.
Lissoni P, Barni S, Crispino S, Tancini G,
Fraschini F
Divisione di Radioterapia Oncologica, Ospedale
San Gerardo, Milano, Italy.
Eur J Cancer Clin Oncol 1989 May;25(5):789-95
Melatonin, the most important indole hormone
produced by the pineal gland, appears to inhibit
tumor growth; moreover, altered melatonin
secretion has been reported in cancer patients.
Despite these data, the possible use of melatonin
in human neoplasms remains to be established. The
aim of this clinical trial was to evaluate the
therapeutic, immunological and endocrine effects
of melatonin in patients with metastatic solid
tumor, who did not respond to standard therapies.
The study was carried out on 14 cancer patients
(colon, six; lung, three; pancreas, two; liver,
two; stomach, one). Melatonin was given
intramuscularly at a daily dose of 20 mg at 3.00
p.m., followed by a maintenance period in an oral
dose of 10 mg daily in patients who had a
remission, stable disease or an improvement in PS.
Before and after the first 2 months of therapy,
GH, somatomedin-C, beta-endorphin, melatonin blood
levels and lymphocyte subpopulations were
evaluated. A partial response was achieved in one
case with cancer of the pancreas, with a duration
of 18+ months; moreover, six patients had stable
disease, while the other eight progressed. An
evident improvement in PS was obtained in 8/14
patients. In patients who did not progress, T4/T8
mean ratio was significantly higher after than
before melatonin therapy, while it decreased in
patients who progressed. On the contrary, hormonal
levels were not affected by melatonin
administration. This study would suggest that
melatonin may be of value in untreatable
metastatic cancer patients, particularly in
improving their PS and quality of life; moreover,
based on its effects on the immune system,
melatonin could be tested in association with
other antitumor treatments.
Dehydroepiandrosterone (DHEA)
treatment reverses the impaired immune response of
old mice to influenza vaccination and protects
from influenza infection.
Danenberg HD; Ben-Yehuda A; Zakay-Rones Z;
Friedman G
Vaccine (England) 1995, 13 (15) p1445-8
Dehydroepiandrosterone (DHEA) is a native
steroid with an immunomodulating activity.
Recently it was suggested that its age-associated
decline is related with immunosenescence. To
examine whether DHEA administration could
effectively reverse the age-associated decline of
immunity against influenza vaccine, aged mice were
simultaneously vaccinated and treated with DHEA.
Reversal of the age-associated decline and a
significant constant increase of humoral response
was observed in treated mice. Increased resistance
to post-vaccination intranasal challenge with live
influenza virus was observed in DHEA-treated aged
mice. Thus, DHEA treatment overcame the
age-related defect in the immunity of old mice
against influenza.
Dehydroepiandrosterone modulationof
lipopolysaccharide-stimulated monocyte
cytotoxicity.
McLachlan JA, Serkin CD, Bakouche O
Department of Molecular Pharmacology and Biologic
Chemistry, Northwestern University Medical School,
Chicago, IL 60611, USA.
J Immunol 1996 Jan 1;156(1):328-35
Dehydroepiandrosterone (DHEA), the predominant
androgen secreted by the adrenal cortex, can be
converted to both potent androgens and estrogens.
In addition to its role as a precursor for other
steroid hormones, DHEA has been proposed to play
an important role in immunity. This study has
investigated DHEA modulation of LPS-induced
monocyte cytotoxicity. Cytotoxicity markers
assessed include tumor cell killing, IL-1
secretion, reactive oxygen intermediate release,
nitric oxide synthetase activity as measured by
the release of reactive nitrogen intermediates,
complement receptor-1 cell surface protein, and
TNF-alpha protein presence. Monocytes stimulated
with LPS concentrations of 1.0 micrograms/ml
displayed the above cytotoxic markers, whereas
monocytes stimulated with DHEA alone or with LPS
at a lower concentration of 0.2 ng/ml did not.
However, when used simultaneously, DHEA and LPS
0.2 ng/ml displayed a synergistic effect on
monocyte cytotoxicity protein, and TNF-alpha
cancerous cell lines, IL-1 secretion, reactive
nitrogen intermediate release, complement
receptor-1 cell-surface protein, and TNF-alpha
protein to levels comparable with levels obtained
using LPS 1.0 microgram/ml. Finally, Scatchard
plot analysis demonstrated the presence of a DHEA
receptor in monocytes, suggesting that DHEA
effects on LPS-stimulated monocytes are mediated
through a receptor-dependent process.
Administration of
dehydroepiandrosterone reverses the immune
suppression induced by high dose antigen in
mice.
Kim HR, Ryu SY, Kim HS, Choi BM, Lee EJ, Kim
HM, Chung HT
Department of Microbiology/Immunology, School of
Medicine, College of Oriental Medicine, Wonkwang
University, Iri, Chonbuk, Korea.
Immunol Invest 1995 May;24(4):583-93
Several factors including antigen
concentration, the route of antigen
administration, hormones and cytokines have shown
to affect T cells to produce the distinct patterns
of lymphokines which exert regulatory and effector
functions of immune response. In this study, we
asked whether administration of
dehydroepiandrosterone (DHEA) to mice which were
tolerized by high dose of antigen could modulate T
cell functions to restore the suppressed cellular
immune response and to produce the distinct
lymphokines. An intravenous injection of high dose
of sheep red blood cells induced suppression of
delayed type hypersensitivity (DTH) and a single
subcutaneous injection of the tolerant mice with
DHEA restored the suppressed DTH response.
Furthermore, in vitro treatment of spleen cells
from tolerant mice with DHEA abolished the
transfer of tolerance to naive recipients.
Lymphocytes from the DHEA-treated tolerant mice
produced more IFN-gamma and less IL-4 and IL-6
than the cells from tolerant animals without DHEA
treatment. These findings indicate that DHEA could
recover antigen-specific immune suppression by
differentially affecting T cells to produce the
distinct lymphokines.
Pregnenolone and
dehydroepiandrosterone as precursors of native
7-hydroxylated metabolites which increase the
immune response in mice.
Morfin R, Courchay G
Bio-industries, Laboratoire de Biologie,
Conservatoire National des Arts et Metiers, Paris,
France.
J Steroid Biochem Mol Biol 1994
Jul;50(1-2):91-100
Dehydroepiandrosterone (DHEA) and pregnenolone
(PREG) were both metabolized by homogenates of
brain, spleen, thymus, perianal skin, ventral
skin, intestine, colon, coecum and muscle tissues
from mice. The use of 2H-labeled substrates and of
the twin ion technique of gas chromatography-mass
spectrometry permitted identification of 7
alpha-hydroxy-DHEA and of 5-androstene-3 beta, 17
beta-diol as DHEA metabolites in digests of all
tissues. The extent of PREG metabolism was much
lower than for DHEA with all tissues but amounts
of the main transformation product were sufficient
in brain, spleen and ventral skin digests for
identification with 7 alpha-hydroxy-PREG.
Dimethylsulfoxide (DMSO) solutions of DHEA, PREG
and of their 7-hydroxylated metabolites were
injected at different doses and time intervals
prior to proximal subcutaneous administration of a
lysozyme antigen. Quantities of anti-lysozyme IgG
were measured in the serum of treated mice and
compared with that from sham-treated animals.
Increase of anti-lysozyme IgG was obtained with
DHEA and PREG (1 g/kg) when injected 2 h prior to
lysozyme. Much lower doses (160 times less) of 7
alpha-hydroxy-DHEA and -PREG were also found to be
significantly active when administered at the
moment of lysozyme injection. A larger dose of 7
beta-hydroxy-DHEA (50 mg/kg) was necessary for a
similar effect. These results suggest that in
tissues where immune response takes place, the
locally-produced 7-hydroxy metabolites of PREG and
DHEA are involved in a process which may
participate in the physiological regulation of the
body's immune response.
The
relationship of serum DHEA-S and cortisol levels
to measures of immune function in human
immunodeficiency virus-related
illness.
Wisniewski TL, Hilton CW, Morse EV, Svec F
Department of Medicine, Louisiana State
University Medical Center, New Orleans.
Am J Med Sci 1993 Feb;305(2):79-83
Human immunodeficiency virus (HIV) is a major
cause of immunoincompetence. Whether the virus,
itself, accounts for all the deficiency remains in
question. Steroids can also influence immune
function; glucocorticoids cause immunoincompetence
while dehydroepiandrosterone (DHEA) enhances
immune function. Changes in the levels of such
hormones during the course of HIV illness might
result in significant changes in immune
competence. The purpose of this study is to
investigate whether
dehydroepiandrosterone-sulphate (DHEA-S) or
cortisol levels correlate with absolute CD4
lymphocyte levels. Plasma for cortisol and DHEA-S
was drawn from 98 adults with HIV. Of these, 67
had simultaneous CD4 levels. Cortisol levels were
12.4 +/- 4.6 micrograms/dl, DHEA-S 262 +/- 142
micrograms/dl, and CD4 levels were 308 +/- 217/mm3
(mean +/- SD). Correlational analysis revealed a
significant relationship between DHEA-S and CD4
levels (r = 0.30; p = 0.01) but not between CD4
levels and cortisol (r = 0.11; p = 0.36) or
cortisol/DHEA-S ratios (r = 0.17; p = 0.16). When
analyzed by clinical subgroups, significant
differences were also found with a decrease in
DHEA-S levels seen in persons with more advanced
illness. The data exhibit a positive relationship
between the immune status of patients with
HIV-related illness and DHEA, leading to the
hypothesis that DHEA deficiency may worsen immune
status.
Dehydroepiandrosterone enhances IL2
production and cytotoxic effector function of
human T cells.
Suzuki T, Suzuki N, Daynes RA, Engleman EG
Department of Pathology, Stanford University
School of Medicine, California 94305.
Clin Immunol Immunopathol 1991 Nov;61(2 Pt
1):202-11
Dehydroepiandrosterone (DHEA) is the most
abundant adrenal steroid hormone in humans.
Although it is well established that DHEA serves
as an intermediate in sex steroid synthesis,
recent studies in mice suggest that DHEA may also
be a physiologic regulator of IL2 secretion. To
explore the effect of DHEA on the human immune
system, T lymphocytes from healthy adults were
exposed to DHEA followed by stimulation with
mitogens or antigen. Upon activation with a
variety of stimuli, T cells pretreated with 10(-8)
to 10(-11) M DHEA produced significantly greater
amounts of IL2 and mediated more potent
cytotoxicity than T cells activated in the absence
of this steroid hormone. The peak effect of DHEA
was observed at 10(-9) M, the concentration of
hormone present in the blood of normal adults. In
contrast to its effect on murine T cells, the IL2
enhancing effect of DHEA on human lymphocytes was
limited to fresh CD4+ T cells and CD4+ clones;
neither fresh CD8+ cells nor CD8+ clones were
directly affected by DHEA treatment, although CD8+
cells stimulated in the presence of CD4+ cells and
DHEA demonstrated enhanced cytotoxicity. The
enhancing effect of DHEA was also detected at the
level of IL2 mRNA, suggesting that DHEA may act as
a transcriptional enhancer of the IL2 gene in CD4+
T cells. These results corroborate and extend
earlier studies in mice and suggest a physiologic
role for DHEA in regulating the human immune
response.
Protection from glucocorticoid
induced thymic involution by
dehydroepiandrosterone.
May M, Holmes E, Rogers W, Poth M
Walter Reed Army Medical Center, Washington, D.C.
20307-5001.
Life Sci 1990;46(22):1627-31
Dehydroepiandrosterone (DHEA), the most
abundantly secreted human adrenal steroid, has no
known specific function. In spite of this fact
there is an abundance of data associating DHEA
with "health" in both man and experimental
animals. Research in our laboratory has
demonstrated evidence for an antagonistic
interaction between DHEA and glucocorticoids (GC)
in liver and brown adipose tissue. We hypothesized
that DHEA also antagonized effects of GC on the
immune system and that this "immune protective
effect" might explain the diffuse positive effects
of DHEA reported in the literature. Effects of GC
on the immune system include involution of the
thymus when given in animals in vivo and death of
thymic lymphocytes in vivo with exposure to these
steroids. We hypothesized that DHEA would block
this GC mediated thymocyte destruction in vivo and
in vitro. Pretreatment with DHEA for three days
blocked approximately 50% of the thymic involution
seen with dexamethasone. Results of in vitro
experiments confirmed protective effects of DHEA
in pretreated animals. (less than 50% of cell
death in lymphocytes from pretreated mice compared
with lymphocytes from control mice.) We conclude
from these studies that DHEA protects against at
least one GC anti-immune effect, thymic lymphocyte
lysis.
Immune
development in young-adult C.RF-hyt mice is
affected by congenital and maternal
hypothyroidism.
Erf GF
Department of Biological Sciences, Smith College,
Northampton, Massachusetts 01063.
Proc Soc Exp Biol Med 1993 Oct;204(1):40-8
C.RF-hyt mice carry a mutation (hyt) that
results in the phenotypic expression of congenital
hypothyroidism in hyt/hyt mice due to a
nonresponsiveness of the thyroid gland to
thyroid-stimulating hormone. Heterozygotes of this
strain are euthyroid. To further define
thyroid-immune interactions, the effect of
congenital hypothyroidism and maternal
hypothyroidism on immune development were examined
in 3- to 4-month-old hyt/+ and hyt/hyt progeny
from hyt/+ and hyt/hyt dams. The state of immune
development in these mice was compared on the
basis of immune organ weights and the
proliferation response of splenocytes stimulated
with the T cell mitogens concanavalin A (Con A)
and phytohemagglutinin and the B cell mitogen
lipopolysaccharide. In addition, analysis of T
cell subpopulations in thymus and spleen was
conducted using direct and indirect
immunofluorescence and flow cytometry. Data
analyses for the main effects of congenital
hypothyroidism on immune development revealed a
significantly lower absolute thymus weight (P <
0.001), a lower (P = 0.022) percentage of
thymocytes expressing CD8 (CD8+), a higher (P =
0.010) ratio between CD4+ and CD8+ thymocytes, a
lower (P < 0.001) absolute and adjusted spleen
weight, a lower (P = 0.001) Con A to
phytohemagglutinin response ratio, a higher (P =
0.003) percentage of CD4+ splenocytes, and a
marginally significant (P = 0.055) increase in the
ratio between CD4+ and CD8+ splenocytes in
hypothyroid compared with euthyroid mice. Data
analyses for the main effects of maternal
hypothyroidism revealed a significantly higher
absolute (P = 0.025) and adjusted (P = 0.001)
thymus weight, a higher (P = 0.006) ratio between
CD4+ and CD8+ thymocytes, a lower Con A (P =
0.018) and lipopolysaccharides (P < 0.001)
response, a marginally (P = 0.069) lower Con A to
phytohemagglutinin response ratio, a lower (P =
0.001) percentage of CD4+ splenocytes, and a lower
(P = 0.003) ratio between CD4+ and CD8+
splenocytes in progeny of hypothyroid compared
with progeny of euthyroid mothers. These data
provide further evidence for the importance of
normal thyroid function in the development,
maintenance, and function of the immune system. It
was concluded that not only congenital
hypothyroidism results in altered immune
development in young-adult mice, but also
long-term effects on immune development occur in
progeny of hypothyroid mothers.
Binding
and functional effects of thyroid stimulating
hormone on human immune cells.
Coutelier JP, Kehrl JH, Bellur SS, Kohn LD,
Notkins AL, Prabhakar BS
Laboratory of Oral Medicine, National Institute
of Dental Research, National Institutes of Health,
Bethesda, Maryland 20892.
J Clin Immunol 1990 Jul;10(4):204-10
The expression and functional relevance of
thyroid stimulating hormone (TSH) receptors on
human immune cells were studied. Flow cytometric
analysis was used to study the binding of
biotinylated TSH to human peripheral blood
mononuclear cells (PBMC) and various purified
lymphoid populations. Our results indicate that
the hormone binds well to monocytes and natural
killer (NK) cells and marginally to purified
tonsillar T and B lymphocytes. There was a
significant increase in the binding of TSH to
purified B cells that were activated in vitro with
Staphylococcus aureaus Cowan. In contrast, the
binding of TSH to T cells was unaltered when they
were stimulated with phytohemagglutinin (PHA).
While TSH increases DNA synthesis and
intracellular cAMP levels of FRTL-5 rat thyroid
cells, it did not have such stimulatory effects on
lymphocytes. However, there was a moderate
increase in Ig production by activated B
lymphocytes when they were cultured in the
presence of the hormone. A possible function for
TSH as a link between the immune system and the
thyroid is discussed.
Immunorestoration in children with
recurrent respiratory infections treated with
isoprinosine.
Wiedermann D, Wiedermannova D, Lokaj J
Department of Pathological Physiology, Medical
Faculty, J.E. Purkyne University, Brno,
Czechoslovakia.
Int J Immunopharmacol 1987;9(8):947-9
In 27 children, 4-8 years old, with recurrent
respiratory infections of the upper and lower
respiratory tracts Isoprinosine (ISO) tablets were
administered for 7-10 days at daily doses of
50-100 mg/kg. Clinical signs of acute respiratory
disease, including temperature abnormalities and
subjective complaints, subsided in a short time
and the children showed no symptoms for periods
ranging from several weeks to several months
following the therapy. The children were selected
for immunotherapy with ISO on the basis of their
low levels of E-rosette forming cells in
peripheral blood. Several immune function
parameters assessed immediately after treatment
with ISO and compared with those obtained before
illness and ISO administration. Low levels of
T-lymphocytes returned to normal after ISO
therapy, B-lymphocyte relative and absolute
numbers, however, were not affected by the
treatment. Nor were any changes due to ISO found
in immunoglobulins, complement components, beta
2-microglobulin and C-reactive protein. Moreover,
ISO had no stimulative effect on spontaneous
tetrazolium reductase activity of granulocytes but
it showed a slight inhibition of their
phagocytosis-associated metabolic activity.
Isoprinosine abolishes the blocking
factor-mediated inhibition of lymphocyte responses
to Epstein-Barr virus antigens and
phytohemagglutinin.
Sundar SK; Menezes J
Int J Immunopharmacol 1986;8(1):101-6
Acute infectious mononucleosis (IM) is
accompanied by measurable abnormalities of immune
function, including a transient immunosuppression.
The sera of patients with acute IM contain an IgG
blocking factor which binds to T-lymphocytes and
decreases their responses to antigens and
mitogens. The experiments reported herein indicate
that isoprinosine, an immunopotentiating agent,
can reverse this inhibition of T cells by
IM-associated IgG blocking factor. Isoprinosine
may be a useful tool in understanding the
interactions between blocking factors and
lymphocytes; moreover, isoprinosine may be of
value in patients with abnormal clinical responses
to Epstein-Barr virus (EBV) such as chronic IM or
persistent active EBV infections.
Isoprinosine as an immunopotentiator
in an animal model of human
osteosarcoma.
Tsang KY; Fudenberg HH
Int J Immunopharmacol 1981;3(4):383-9
The effects of isoprinosine (ISO) on the immune
responses (Con A-induced lymphocyte proliferation,
monocyte chemotactic responsiveness, and "natural
killer" cytotoxicity) of normal hamsters and
hamsters with human osteosarcoma (OS) were
investigated. Human osteosarcoma was induced in
newborn inbred hamsters (LHX/SsLAK) after
induction of tolerance in utero. In vitro, ISO
increased Con A-induced proliferation of
peripheral blood lymphocytes (PBL) from normal
hamsters by 23.4-48.9% and from OS-bearing
hamsters by 58.1-107.4% over controls (Con A
alone). When ISO was administered in vivo by
intraperitoneal injection. Con A-induced
proliferation of PBL from both normal and
OS-bearing recipients in vitro was increased by
50-55% at 1, 3 and 5 days after injection. The
chemotactic responsiveness of monocytes from
OS-bearing hamsters was also significantly
increased (59.1-97.4%) at 1, 3 and 5 days after
injection of ISO. Natural killer cytotoxicity was
augmented at 1, 3 and 5 days after injection of
ISO by 31.7-83.6% in normal hamsters and 54.6-184%
in OS-bearing hamsters. These results indicate
that ISO can produce a generalized enhancement of
immune function in hamsters with OS.
The
effect of Biostim (RU-41740) onthe expression of
cytokine mRNAs in murine peritoneal macrophages in
vitro.
Meredith C, Scott MP, Pekelharing H, Miller
K
Immunotoxicology Department, British Industrial
Biological Research Association, Carshalton,
Surrey, U.K.
Toxicol Lett 1990 Oct;53(3):327-37
The immunomodulatory agent Biostim (RU-41740)
was investigated for its ability to induce the
expression of cytokine mRNAs in murine peritoneal
macrophages in vitro. Northern blot analysis
showed that in quiescent macrophage populations,
both IL-1 alpha and IL-1 beta mRNA levels were
dramatically increased in response to 1
microgram/ml Biostim. Dot-blot analysis showed
that in quiescent macrophage populations the
expression of mRNAs for IL-1 alpha, IL-1 beta,
IL-6 and TNF-alpha could be elevated by
concentrations of Biostim as low as 1-10 pg/ml,
detectable after 3 h exposure. In parallel
experiments LPS was effective only at the higher
concentration of 10 ng/ml. Time-course analysis
showed that the expression of these cytokine mRNAs
was transient, peaking after 1-3 h; only
transcripts of IL-1 beta were detectable after 23
h exposure. No effects were seen on the expression
of actin, a high-turnover housekeeping gene. We
propose that this type of analysis represents a
sensitive, specific and reproducible method for
assessing the ability of drugs and chemicals to
modulate the expression of cytokines that play a
pivotal role in the induction of the immune
response.
Isoprinosine (inosine pranobex BAN,
INPX) in the treatment of AIDS and other acquired
immunodeficiencies of clinical
importance.
Glasky AJ; Gordon JF
Cancer Detect Prev Suppl 1987;1:597-609
The immunopharmacologic effects of Isoprinosine
(INPX) have been associated with clinical benefit
to the patient in a number of conditions
characterized by immunodeficiency of diverse
etiology. Immunodepressed homosexuals at risk of
developing acquired immunodeficiency syndrome
(AIDS) treated with placebo or INPX experienced an
increase in the function and number of
immunocompetent cells associated with clinical
improvement. A multicenter trial designed to
confirm these results has demonstrated that INPX
produced an increase in natural killer (NK)-cell
activity, total T cells, and T-helper cells, with
certain effects persisting for months after
completion of the 28-day treatment period.
INPX-treated patients also experienced clinical
improvement and decreased incidence of progression
to AIDS. The administration of INPX for longer
periods to patients with frank AIDS under a
compassionate-use protocol has also proved useful.
Clinical benefit associated with INPX treatment
has been demonstrated in other patients with a
depressed immune response, such as aged patients,
cancer patients, severely burned patients, ill
patients, and surgery patients. This program of
clinical trials supports the therapeutic use of
INPX in the treatment of AIDS and other acquired
immunodeficiencies of clinical importance.
Immunological effests of Isoprinosine
as a pulse immunotherapy in melanoma and ARC
patients in melanoma and ARC patients
Pompidou A; Soubrane C; Cour V; Telvi L;
Meunier C; Jacquillat C
Cancer Detect Prev Suppl; 1:457-62 1987
Immunomodulatory effect of Isoprinosine are
presented in melanoma and HTLV-III/LAV infected
patients. Isoprinosine (50 mg/kg) was used as a
pulse immunotherapy according to two different
schedules: A) 5 days every 15 days and B) 5 days
every 15 days for 2 months, then 5 days every 2
months. The patients' immunological profiles were
tested before and during the treatment in terms of
T-cell subsets, cell number requirement for
PHA-induced proliferation, and delayed
hypersensitivity reaction to recall antigens.
Primary malignant melanoma patients are randomized
between surgery alone or associated to isotherapy
(schedule A or B). Schedule A,after an initial
improvement of surgery-induced immune deficiency,
is responsible for an immunodepression, whereas
schedule B determines a prolonged restoration in
immune responses in melanoma and AIDS related
complex or Kaposi sarcoma patients as well. In
vitro effects of Isoprinosine on HTLV-III/LAV
infection are presented. These data exhibit 1) the
need of an immunological follow-up during
isotherapy and 2) the immunological benefit of a
pulse immunotherapy during acquired
immunodeficiencies related to cancer surgery or to
HTLV-III/LAV infection in man.
A
modified determination of coenzyme Q10 in human
blood and CoQ10 blood levels in diverse patients
with allergies.
Ye CQ, Folkers K, Tamagawa H, Pfeiffer C
Institute for Biomedical Research, University of
Texas, Austin.
Biofactors 1988 Dec;1(4):303-6
Two situations required a modified
determination of coenzyme Q10 (CoQ10) in human
blood and organ tissue. Blood from patients with
AIDS and cancer raised apprehensions about safety
to an analyst, and the number of specimens for
analysis is increasing enormously. A modified
determination replaces silica gel-TLC with
disposable Florisil columns, and steps were
simplified to allow more analyses per unit time.
Data from the modified determination are
quantitatively compatible with data from older and
tedious procedures. This determination was used
for blood from 36 diverse patients with allergies.
The mean CoQ10 blood level of these patients is
not different from the mean level of so-called
normal individuals, but approximately 40% (14/36)
of these allergic patients had levels up to 0.65
micrograms/ml, which is the level of dying class
IV cardiac patients. The biosynthesis of CoQ10 in
human tissues is a complex process that requires
several vitamins and micronutrients, so that
countless vitamin-unsupplemented Americans may be
deficient in CoQ10. The relationship of allergies
to autoimmune mechanisms and immunity, and the
established relationship of CoQ10 to immune
states, may be a rationale for therapeutic trials
of administering CoQ10 to patients with allergies
who have low CoQ10 blood levels and are very
likely deficient.
Carnitine in human immunodeficiency
virus type 1 infection/acquired immune deficiency
syndrome.
Mintz M
University of Medicine and Dentistry of New
Jersey-Robert Wood Johnson Medical School at
Camden 08103, USA.
J Child Neurol 1995 Nov;10 Suppl 2:S40-4
There is an increasing body of evidence that
subgroups of patients infected with human
immunodeficiency virus type 1 possess carnitine
deficiency. Secondary carnitine deficiencies in
these individuals may result from nutritional
deficiencies, gastrointestinal disturbances, renal
losses, or shifts in metabolic pathways. However,
tissue depletion precipitated by drug toxicities,
particularly zidovudine, is a major etiology and
concern. Carnitine deficiency may impact on energy
and lipid metabolism, causing mitochondrial and
immune dysfunction. There are convincing
laboratory data showing the in vitro ameliorative
effects of L-carnitine supplementation of
zidovudine-induced myopathies and lymphocyte
function. Studies measuring the impact of
L-carnitine supplementation on clinical
characteristics are ongoing.
Oxidative damage and mitochondrial
decay in aging.
Shigenaga MK, Hagen TM, Ames BN
Division of Biochemistry and Molecular Biology,
University of California, Berkeley 94720
Proc Natl Acad Sci U S A 1994 Nov
8;91(23):10771-8
We argue for the critical role of oxidative
damage in causing the mitochondrial dysfunction of
aging. Oxidants generated by mitochondria appear
to be the major source of the oxidative lesions
that accumulate with age. Several mitochondrial
functions decline with age. The contributing
factors include the intrinsic rate of proton
leakage across the inner mitochondrial membrane (a
correlate of oxidant formation), decreased
membrane fluidity, and decreased levels and
function of cardiolipin, which supports the
function of many of the proteins of the inner
mitochondrial membrane. Acetyl-L-carnitine, a
high-energy mitochondrial substrate, appears to
reverse many age-associated deficits in cellular
function, in part by increasing cellular ATP
production. Such evidence supports the suggestion
that age-associated accumulation of mitochondrial
deficits due to oxidative damage is likely to be a
major contributor to cellular, tissue, and
organismal aging.
Carnitine depletion in peripheral
blood mononuclear cells from patients with AIDS:
effect of oral L-carnitine.
De Simone C; Famularo G; Tzantzoglou S;
Trinchieri V; Moretti S; Sorice F
AIDS (United States) May 1994, 8 (5) p655-60
OBJECTIVE: Reduced levels of serum carnitines
(3-hydroxy-4-N-trimethyl-am monio-butanoate) are
found in most patients treated with zidovudine.
However, since serum carnitines do not strictly
reflect cellular concentrations we examined
whether a carnitine depletion could be found in
peripheral blood mononuclear cells (PBMC) from
AIDS patients with normal serum carnitine levels.
In addition, we explored whether it was possible
to relate the host's immunoreactivity to the
content of carnitine in PBMC and whether carnitine
levels can be corrected by oral supplementation of
L-carnitine.
DESIGN: Immunopharmacologic study.
METHODS: Twenty male patients with advanced
AIDS (Centers for Disease Control and Prevention
stage IVCI) and normal serum levels of carnitines
were enrolled. Patients were randomly assigned to
receive either L-carnitine (6 g/day) or placebo
for 2 weeks. At baseline and at the end of the
trial, we measured carnitines in both sera and
PBMC, serum triglycerides, CD4 cell counts, and
the frequency of cells entering the S and G2-M
phases of cell cycle following mitogen
stimulation.
RESULTS: Concentrations of total carnitine in
PBMC from AIDS patients was lower than in healthy
controls. A significant trend towards the
restoration of appropriate intracellular carnitine
levels was found in patients treated with
high-dose L-carnitine and was associated with an
increased frequency of S and G2-M cells following
mitogen stimulation. Furthermore, at the end of
the trial we found a strong reduction in serum
triglycerides in the L-carnitine group compared
with baseline levels.
CONCLUSIONS: Our data indicate that carnitine
deficiency occurs in PBMC from patients with
advanced AIDS, despite normal serum
concentrations. The increase in cellular carnitine
content strongly improved lymphocyte proliferative
responsiveness to mitogens. Because carnitine
status is an important contributing factor to
immune function in patients with advanced AIDS, we
therefore believe that L-carnitine supplementation
could have a role as a complementary therapy for
HIV-infected individuals.
Immunological parameters in aging:
studies on natural immunomodulatory and
immunoprotective substances.
Franceschi C, Cossarizza A, Troiano L, Salati
R, Monti D
Institute of General Pathology, University of
Modena, Italy.
Int J Clin Pharmacol Res 1990;10(1-2):53-7
Several immune parameters--particularly T-cell
dependent immune responses--are altered in aged
subjects. To test the hypothesis that they may be
the consequence of more general age-related
lymphocyte biochemical alterations, and
particularly of the energy producing system, the
effect of L-carnitine and acetyl-L-carnitine on
cell proliferation was studied in peripheral blood
lymphocytes from donors of different ages. The
results showed that phytohaemagglutinin-induced
peripheral blood lymphocyte proliferation was
markedly increased in L-carnitine- or
acetyl-L-carnitine-preloaded lymphocytes from
young and especially from old subjects. Cells from
aged subjects considerably improved their
defective proliferative capability. Preliminary
observations suggest that L-carnitine-preloading
also protected peripheral blood lymphocytes from
old donors when such cells were exposed to an
oxidative stress.
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