10-12-2014, 02:59 AM
Testosterone released (24 hours)
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Targets of testosterone
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Targets of testosterone
Quote:The main androgen secreted by the testes is of course testosterone. However, in most of the body, the androgenic signal is not carried through by testosterone. In these tissues, which include the brain (CNS), skin, genitals – practically everything but muscle – the active androgen is actually DHT.
Testosterone in this case simply acts as a prohormone that is converted to the active androgen DHT by the action of the enzyme 5-AR. 5-AR is concentrated heavily in practically every androgen dependent area of the body except for skeletal muscle which results in very little testosterone actually getting through to these parts of the body to bind to androgen receptors. Instead, it is quickly transformed into DHT, which then interacts with receptors.This transformation serves a very important biological function in these tissues.
DHT is a much stronger androgen than testosterone – it binds about 3-5 times more strongly to the androgen receptor. If you took away 5-AR from these tissues and blocked the formation of DHT, then you would see some dramatic changes in physiology. DHT can also be used as an anti-estrogen. It works to do this through three different methods.
First, DHT directly inhibits estrogens activity on tissues. It either does this by acting as a competitive antagonist to the estrogen receptor or by decreasing estrogen-induced RNA transcription at a point subsequent to estrogen receptor binding. Second of all, DHT and its metabolites have been shown to directly block the production of estrogens from androgens by inhibiting the activity of the aromatase enzyme.
The studies done in breast tissue showed that DHT, androsterone, and 5alpha-androstandione are potent inhibitors of the formation of estrone from androstenedione. 5alpha-androstandione was shown to be the most potent, while androsterone was the least. Third, DHT acts on the hypothalamus / pituitary to decrease the secretion of gonadotropins.
By decreasing the secretion of gonadotropins you decrease the production of the raw materials for estrogen production – testosterone and androstenedione (DHT itself cannot aromatize into estrogens)
Source: Pat Arnold,
Patrick Arnold is an American organic chemist known for introducing androstenedione, 1-Androstenediol, and methylhexanamine into the dietary supplement market. Arnold, who is also an amateur bodybuilder, initially gained notoriety as "the Father of Prohormones." But listed here is the part he played in balco scandal http://en.m.wikipedia.org/wiki/Patrick_Arnold (excellent info regardless).
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Quote:If you took away 5-AR from these tissues and blocked the formation of DHT, then you would see some dramatic changes in physiology.
(10-03-2014, 04:13 AM)Lotus Wrote: Testosterone is responsible for sex drive, for Testosterone to promote youthful sexual interest it must be freely available to cell receptors. As we age T becomes bound to serum (blood) globulin. The component that renders free testosterone inactive is called sex hormone binding globulin (SHBG). This means your getting a double whammy of interference with sex drives in aging males,
1) Testosterone being bound to serum globulin (blood)
2) SHBG rendering it inactive
So that means estrogen takes it place!
Imagine if we knew more about Testosterone, we would find out that a reduction of free T also causes depression. High serum levels of estrogen also trick the brain into thinking that enough testosterone is being produced, further slowing the natural production of testosterone. This also stops the body's own natural estrogen from entering cells for binding.
High estrogen can shut down the normal testicular production of testosterone. Aging men sometimes convert testosterone to estrogen. For testosterone to produce long-lasting libido enhancing effects, it must be kept in the "free" form in the bloodstream. It does not matter how much serum free testosterone is available if excess estrogen is competing for the same cellular receptor sites.