Difference between revisions of "Sex Hormones"
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| − | Testosterone inhibits the secretion of GnRH from the hypothalamus and therefore secretion of LH from the pituitary gland. | + | Testosterone inhibits the secretion of GnRH from the hypothalamus and therefore secretion of LH from the pituitary gland. if the testes are removed via castration, blood concentrations of LH and FSH will increase as there is only limited negative feedback. |
===Effects of Male Sex Hormones=== | ===Effects of Male Sex Hormones=== | ||
Revision as of 16:49, 13 July 2011
Introduction
Male Sex Hormones
The male sex hormone is called Testosterone and this hormone is required for spermatogenesis. A relatively high concentration of testosterone is maintained within the testicular tissue and testosterone is circulated around the body by diffusion of the hormone from the spermatic cord into the testicular veins and arteries.
Hormone Production
Male sex hormones are regulated by negative feedback systems that operate at various levels within the male sex hormone system. The starting point for the production of testosterone (and therefore the production of spermatozoa)is the hypothalamus. The hypothalamus contains neuroendocrine cells that are capable of secreting a substance called Gonadotropin-releasing hormone or GnRH. GnRH stimulates cells in the anterior pituitary, via the "portal system" to secrete two intermediate hormones within the male sex hormone cycle; Luteinizing hormone (LH) and Follicle-Stimulating Hormone (FSH).
The secretion of GnRH is pulsatile and can vary greatly throughout the day and/or year, and therefore the secretion of LH and FSH are also pulsatile (although the plasma concentration of FSH does not fluctuate as much as LH due to the effect of Inhibin, see below). The activity of GnRH neuroendocrine cells is determined by spontaneous rhythms and by sensory impulses. Cycles such as seasonal sexual activity are controlled by this pulsatile system. In male animals there are generally 4 to 12 GnRH pulses per day.
FSH causes Sertoli cells to produce estradiol and the peptide hormone Inhibin. LH acts on Leydig cells causing them to produce testosterone. Testosterone and estradiol form part of the negative feedback loop on GnRH secretion by the hypothalamus. Inhibin is part of a further negative feedback system, acting on the anterior pituitary to inhibit the secretion of FSH.
Leydig cells produce testosterone using cholesterol as a base molecule. Leydig cells contain various enzymes such as 18-hydroxylase that facilitate the production of steroid hormones. In some species such as pigs, the testes also produce androstenone which acts as a pheromone and is secreted via the saliva, often producing a copulatory position from sows in oestrous. Androstenone is also responsible for bore taint.
Regulation of Male Sex Hormones
When LH binds to the Leydig cells, it stimulates the cellular messenger cAMP to activate protein kinase A. Protein kinase A undergoes a series of phosphorylations that in turn activate a series of enzymes that synthesis testosterone from the cholesterol base molecule. A portion of the testosterone produced in the Leydig cells diffuses into the Sertoli cells that are positioned adjacent to the Leydig cells in the testes but seperated by a basal lamina. This secreted testosterone is converted to to the female sex hormone estradiol in the Sertoli cell and as with the testosterone, a proportion diffuses into the blood, becoming part of the negative feedback system for LH.
Testosterone inhibits the secretion of GnRH from the hypothalamus and therefore secretion of LH from the pituitary gland. if the testes are removed via castration, blood concentrations of LH and FSH will increase as there is only limited negative feedback.