Life Extension Magazine

Life Extension Magazine June 2004

Recharge With Pregnenolone

By Dave Tuttle

By Dave Tuttle

LE Magazine June 2004
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Recharge With Pregnenolone
This little-known hormone fights fatigue, boosts memory, and more.
By Dave Tuttle

One of the most frustrating aspects of aging is memory loss. Whether as benign as forgetting where you left the car keys or as debilitating as Alzheimer’s disease, this reduction in mental function challenges us and makes us long for the mental vigor of our youth.

Traditionally, scientists have thought that little could be done about deteriorating brain function. New research has shown, however, that this kind of mental decline is not inevitable. Scientists have found that a naturally occurring hormone called pregnenolone not only improves memory and concentration, but also fights fatigue, relieves arthritis, speeds injury recovery, and enhances mood.

An Essential Hormone
Testosterone, estrogen, cortisol, DHEA, and pregnenolone are members of a family of natural hormones that are essential for human survival. All of these hormones contain four carbon-ring structures attached to each other, and appear very similar.1Small differences in structure, however, produce dramatic changes in function. Testosterone, the “male” hormone, is only slightly different chemically from estrogen, the “female” hormone. Yet this minor dissimilarity causes men to grow facial hair and women to develop breasts.

Another thing these hormones have in common is that they are made from cholesterol. While often vilified, cholesterol is an indispensable raw material that the body uses for several essential biological reactions. It is required for the production of vitamin D, the absorption of calcium, and the production of bile. Cholesterol also is needed to make myelin, the fatty coating that surrounds the nerves in the brain and spinal cord.

Each of the body’s cells contains mitochondria. Primarily involved with energy production, these organelles also contain an enzyme that breaks off a few side chains from the cholesterol molecule to turn it into pregnenolone. This enzyme is more active in some tissues and organs than in others, and as a result some parts of the body produce more pregnenolone than others. The primary sources of this hormone are the adrenal glands, liver, and gonads (testicles and ovaries). Scientists have discovered that pregnenolone also can be manufactured in the brain from cholesterol instead of being transported through the blood-brain barrier from other parts of the body. This supports recent findings showing that pregnenolone is involved in a variety of brain-related functions such as memory, concentration, and mood.

Pregnenolone also can be converted into the other hormones, which is why it is sometimes referred to as the mother of those hormones. Hormones released by the pituitary gland regulate these conversions. The body can change pregnenolone into DHEA or progesterone, depending on its needs at a given moment. In turn, both of these hormones can be chemically manipulated to produce androstenedione, the direct precursor to the sex hormones, which include testosterone and other androgens as well as estradiol and the other estrogens. The progesterone molecule also can be altered to make cortisol (the so-called “stress hormone”) and aldosterone (involved in blood pressure regulation). None of this would be possible if the body did not contain pregnenolone.

Clearly, pregnenolone is an essential hormone in people of all ages. The average young adult produces about 14 mg per day. As with other hormones, however, pregnenolone production declines with age. At age 75, the body produces about 60% less pregnenolone than it did at age 35.2 As the body’s supply of pregnenolone diminishes, so does the availability of its other related hormones. This has led scientists to consider pregnenolone supplementation as a way to turn back the clock on aging and counter the consequences of this dramatic drop in hormone levels.

Less Fatigue, More Endurance
Because pregnenolone concentrations in the brain are much higher than those found in blood plasma,3 it is not surprising that this hormone has a number of mental benefits. Several classic studies have found that oral administration of pregnenolone reduces fatigue while providing more endurance.4 In one experiment, five college students trained at a constant pace on a machine that produced exhaustion. At different times, they were given oral pregnenolone, an oral adrenal cortical hormone, or injected progesterone. Only the pregnenolone had a significant influence on their scores during a three-hour run.

A study of aviators found that pregnenolone improved their functioning and perception of their work. Fourteen subjects took 50 mg of pregnenolone daily and performed tests with an automatic scoring device that operated like the joystick for a video game. Researchers found that the improvements the aviators experienced during the two weeks of administration had a cumulative effect that continued for several days afterward.

In another experiment, 25-75 mg of pregnenolone were given daily to 8 leather cutters, 12 lathe operators, and 77 optical workers. While there was little benefit compared to placebo when the workers were not “under pressure,” productivity rose when the level of work-related stress was higher. Once again, the effect outlasted the length of the study. The subjects also felt that they tired less easily and were better able to cope with the demands of their jobs. No side effects were reported in any of these studies.

Potent Memory Enhancer
When older people are asked about the negative consequences of aging, memory loss is usually at the top of their list. The inability to recall a lifetime’s most memorable moments (or even where you left an important document) is frustrating at best and debilitating at worst. Several factors are responsible for this decline in memory.5 As we age, the functioning of the brain’s neurotransmission system deteriorates. This leads to negative changes in the release of a key neurotransmitter known as acetylcholine, ranging from a minor decline to severe alterations (as in the case of Alzheimer’s disease). The creation of brain cells also is diminished, at least in the hippocampus. Scientists have found that pregnenolone effectively combats both these factors.

Pregnenolone and its sulfated form, pregnenolone sulfate, are able to work their magic on memory and mental function in surprisingly small doses. This is because they work simultaneously on two receptor complexes. Pregnenolone sulfate is able to reduce the activity of a receptor complex known as GABAa. GABA is a neurotransmitter that literally cools the brain, protecting the nerve cells from burning out from all their activity.6 Too much GABA, however, can depress brain function, making the brain sluggish. By altering the extent of GABA-induced changes in membrane permeability, pregnenolone is able to reduce the increase in GABA transmission that occurs normally in older individuals.7 This counteracts the aging brain’s decline in mental sharpness.

Pregnenolone also works the other side of the equation by increasing the activity of the NMDA (N-methyl-D-aspartate) subtype of glutamate receptors. Glutamate is a major excitatory neurotransmitter whose enhanced action recharges the brain and makes it more capable of handling the day’s activities. These dual changes induce increased acetylcholine release in the parts of the brain most involved with cognitive processes.8

Pregnenolone also promotes greater growth of brain cells. A recent study revealed that pregnenolone sulfate counteracted the usual age-related decline in neurogenesis in the hippocampuses of rats.5 The researchers found a 55% increase in cell proliferation in the dentate gyrus, where newborn cells differentiate into neurons. This effect continued for several weeks after a single infusion, suggesting that long-lasting benefits could be achieved from ongoing supplementation. Of course, the more brain cells you have, the more memories you are likely to retain.

Various animal studies have demonstrated pregnenolone’s effectiveness in enhancing learning and memory. A French study of young and aged rats found the older rats had significantly lower levels of pregnenolone sulfate.9 This was associated with poor performance in two mazes that measured various aspects of spatial memory. Seven hours after the older rats were injected with pregnenolone sulfate, they performed significantly better in both mazes. There were also dramatic relative increases in the amounts of the hormone in the plasma and hippocampuses of the older rats, indicating that at least some of the pregnenolone sulfate was able to cross the blood-brain barrier. The researchers noted that the seven-hour time delay in improvement was such that a mechanism involving any of pregnenolone’s metabolites could have been responsible for the memory enhancements.

Other scientists have explored pregnenolone’s benefits for conditioned learning tasks. These involve passive or active avoidance exercises that measure memory of a negative experience, as well as reinforcement experiments in which animals learn to operate a lever to gain access to a stimulus such as water or food. In one experiment, 3- and 16-month-old mice performed a passive-avoidance task that involved learning to not step down a device.10 Before receiving pregnenolone sulfate injections, the older mice showed a substantial deficit in memory retention. After a pretraining injection of pregnenolone sulfate, however, the retention performance of the older mice after a 24-hour delay improved in a dose-dependent fashion.

Subsequent comparison of the results showed a positive correlation between the rats’ learning performance and concentrations of pregnenolone sulfate in their hippocampuses. Interestingly, no such correlation was found between levels of the hormone and changes in other brain areas such as the cortex or amygdala, suggesting that the hippocampus is primarily where pregnenolone plays its role in memory enhancement.

Several other studies have confirmed these results. One performed at the Universite de Lille in France infused pregnenolone sulfate into rat brains.11 The scientists found that the infusion not only improved recognition memory of a familiar environment, but also boosted acetylcholine release by more then 50%. This underscores the link between pregnenolone and the vital neurotransmitter acetylcholine.

Another French study examined the relationship between pregnenolone and cognitive performance.12 Rats with memory impairment exhibited low pregnenolone sulfate concentrations compared to animals with normal memory performance. An intracerebral infusion of pregnenolone sulfate reversed these memory deficits. The researchers also found that the injections dramatically increased neurogenesis (the creation of new brain cells). These findings indicate the extent to which pregnenolone sulfate can influence cognitive processes, particularly in older subjects.