Gonadal hormone
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Transcript of Gonadal hormone
What is Gonad?
The gonad is the organ that makes gametes.
The gonads in males are the testes and the
gonads in females are the ovaries.
The product, gametes, are haploid germ
cells. For example, spermatozoon and egg
cells are gametes.
The presence of the SRY (Sex-determining
region Y) gene, located on the Y chromosome
and encoding the testeis determining factor,
determines male sexual differentiation.
Reproduction – hormones of the
reproductive system
Brain-hypothalamic hormones
Gonadotropin-releasing hormone
(GnRH or LHRH).
Gonadotropin release-inhibitory
factors (GnRIF; such as dopamine)
Pituitary hormones: Gonadotropins
Follicle-stimulating Hormone (FSH):
controls gonadal growth
Luteinizing Hormone (LH): controls
gamete maturation and release
Gonadal hormones (steroids)
11-ketotestosterone (androgen):
important for spermatogenesis
17-estradiol (estrogen): important for
oogenesis
Progesterone or its derivatives
(progestins): induce gamete
maturation in males and females and
ovulation in females
Gonads & Hormones
GonadalHormone in Male Gonadal Hormone in Female
Ovulation and Corpus Luteum formation Luteinizing hormone (LH)
In males, where LH had also been called
interstitial cell-stimulating hormone (ICSH), it
stimulates Leydig cell production of
testosterone.
Hormone produced by the anterior pituitary
gland
In females, an acute rise of LH ("LH surge")
triggers ovulation and development of the
corpus luteum
It acts synergistically with FSH.
Structure of LH
LH is a heterodimeric glycoprotein.
Each monomeric unit is a glycoprotein molecule
One alpha and one beta subunit make the full, functional protein.
The alpha subunits of LH contain 92 amino acids in human but 96 amino acids in almost all other
vertebrate species. The carbohydrate moiety is linked to the asparagine at positions 52 and 78.
LH beta subunit have 120 amino acids (LHβ) that confers its specific biologic action and is
responsible for the specificity of the interaction with the LH receptor.
The biologic half-life of LH is 20 minutes, shorter than that of FSH (3–4 hours) and hCG (24
hours).
Genes
The gene for the alpha subunit is located on
chromosome 6q12.21.
The LH beta subunit gene is localized in the
LHB/CGB gene cluster on chromosome
19q13.32.
In contrast to the alpha gene activity, beta LH
subunit gene activity is restricted to the pituitary
gonadotropic cells. It is regulated by the
gonadotropin-releasing hormone from the
hypothalamus.
Activity
In both males and females, LH is essential for
reproduction.
In the male, LH acts upon the Leydig cells of the
testis and is responsible for the production of
testosterone, an androgen that exerts both
endocrine activity and intratesticular activity on
spermatogenesis.
LH is necessary to maintain luteal function for the first two weeks of the menstrual cycle. If pregnancy occurs, LH levels
will decrease, and luteal function will instead be maintained by the action of hCG (a hormone very similar to LH but
secreted from the new placenta).
In females, LH supports theca cells in the ovary that provide androgens and hormonal precursors for estradiolproduction.
At the time of menstruation, FSH initiates follicular growth, specifically affecting granulosa cells.
With the rise in estrogens, LH receptors are also expressed on the maturing follicle, which causes it to produce more estradiol.
When the follicle has fully matured, a spike in estrogen production by the follicle stimulates a positive feedback loop in the hypothalamus that stimulates the release of LH from the anterior pituitary.
This increase in LH production only lasts for 24 to 48 hours.
This "LH surge" triggers ovulation, thereby not only releasing the egg from the follicle, but also initiating the
conversion of the residual follicle into a corpus luteum that, in turn, produces progesterone to prepare the endometrium for a possible implantation.
Secretion
pattern of LH
Follicle-stimulating hormone (FSH)
FSH and luteinizing hormone (LH) act
synergistically in reproduction. Specifically, an
increase in FSH secretion by the anterior
pituitary causes ovulation.
It is synthesized and secreted by
gonadotrophs of the anterior pituitary gland.
FSH regulates the development, growth,
pubertal maturation, and reproductive
processes of the body.
FSH is a glycoprotein. Each monomeric unit is a
protein molecule with a sugar attached to it; two of
these make the full, functional protein.
Its structure is similar to those of LH, TSH, and
hCG.
The protein dimer contains 2 polypeptide units,
labeled alpha and beta subunits. The alpha
subunits of LH, FSH, TSH, and hCG are identical,
and contain 92 amino acids. The beta subunits
vary. FSH has a beta subunit of 111amino acids
(FSH β), which confers its specific biologic action
and is responsible for interaction with the FSH-
receptor.
The half-life of FSH is 3–4 hours.
Structure
Activity
FSH regulates the development, growth, pubertal maturation, and reproductive processes of the
human body.
FSH enhances the production of androgen-binding protein by the Sertoli cells of the testes
by binding to FSH receptors on their basolateral membranes, and is critical for the initiation of
spermatogenesis.
Effects in males
FSH stimulates primary spermatocytes to undergo the first division of meiosis, to form
secondary spermatocytes.
Effects in females
FSH stimulates the growth
and recruitment of immature
ovarian follicles in the ovary.
In early (small) antral
follicles, FSH is the major
survival factor that rescues the
small antral follicles (2–5 mm
in diameter for humans) from
apoptosis (programmed death
of the somatic cells of the
follicle and oocyte).
Gonadotropin-releasing hormone (GnRH),
Also known as Luteinizing-hormone-releasing hormone (LHRH) and luliberin, is a trophic peptide
hormone responsible for the release of follicle-stimulating hormone (FSH) and luteinizing hormone (LH)
from the anterior pituitary.
GnRH is synthesized and released from neurons within the hypothalamus.
GnRH is considered a neurohormone, a hormone produced in a specific neural cell and released
at its neural terminal.
At the pituitary, GnRH stimulates the synthesis and secretion of the gonadotropins, follicle-
stimulating hormone (FSH), and luteinizing hormone (LH).
Low-frequency GnRH pulses lead to FSH release, whereas high-frequency GnRH pulses stimulate
LH release.
Gonadal
Steroid
hormones:
Testosterone
Testosterone is a steroid hormone from the androgen group and is found in mammals, reptiles,
birds, and other vertebrates.
In mammals, testosterone is primarily secreted in the testicles of males and the ovaries of
females, although small amounts are also secreted by the adrenal glands.
It is the principal male sex hormone and an anabolic steroid.
In men, testosterone plays a key role in the development of male reproductive tissues such as the
testis and prostate as well as promoting secondary sexual characteristics such as increased muscle,
bone mass, and the growth of body hair.
Testosterone
Biosynthesis of testosterone
The largest amounts of testosterone (>95%) are produced by the testes in men.
It is also synthesized in far smaller quantities in women by the thecal cells of the ovaries, and by the
placenta,
The zona reticularis of the adrenal cortex and skin in both sexes also produces in small quantities.
In the testes, testosterone is produced by the Leydig cells. The male generative glands also contain
Sertoli cells which require testosterone for spermatogenesis.
Testosterone is primarily synthesized in Leydig cells.
The number of Leydig cells in turn is regulated by luteinizing
hormone (LH) and follicle stimulating hormone (FSH).
The amount of testosterone produced by existing Leydig cells is
under the control of LH which regulates the expression of 17-β
hydroxysteroid dehydrogenase (HSD).
When testosterone levels are low, gonadotropin-releasing
hormone (GnRH) is released by the hypothalamus which in turn
stimulates the pituitary gland to release FSH and LH. These later
two hormones stimulate the testis to synthesize testosterone.
Finally increasing levels of testosterone through a negative
feedback loop act on the hypothalamus and pituitary to inhibit the
release of GnRH and FSH/LH respectively.
Regulation of Testosterone Biosynthesis
Biosynthesis of Estrogen:
Estrogens, in females, are produced primarily by the ovaries, and during pregnancy, the placenta.
Follicle-stimulating hormone (FSH) stimulates the ovarian production of estrogens by the
granulosa cells of the ovarian follicles and corpora lutea.
Some estrogens are also produced in smaller amounts by other tissues such as the liver,
adrenal glands, and the breasts.
In females, synthesis of estrogens starts in theca interna cells in the ovary, by the synthesis
of androstenedione from cholesterol.
Estrogen
Estriol
Estradiol
Estrone
They are the primary female sex hormones.
Like all steroid hormones, estrogens readily diffuse across the cell membrane. Once inside
the cell, they bind to and activate estrogen receptors which in turn modulate the expression
of many genes. Additionally, estrogens have been shown to activate a G protein-coupled
receptor, GPR30.
Estradiol is the predominant estrogen during reproductive years
During menopause, estrone is the predominant circulating estrogen
during pregnancy estriol is the predominant circulating estrogen
Function of Estrogen
Promote formation of female secondary sex characteristics
Accelerate metabolism
Increase fat stores
Stimulate endometrial growth
Increase uterine growth
Increase vaginal lubrication
Thicken the vaginal wall
Maintenance of vessel and skin
Reduce bone resorption, increase bone formation
Reduce muscle mass
Progesterone
Progesterone also known as P4 (pregn-4-ene-3,20-dione) is a C-21 steroid hormone involved in
the female menstrual cycle, pregnancy and embryogenesis of humans and other species.
Progesterone belongs to a class of hormones called progestogens, and is the major naturally
occurring human progestogen.
Progesterone is produced in the ovaries (by the corpus
luteum), the adrenal glands and, during pregnancy, in the
placenta.
Progesterone is also stored in adipose (fat) tissue.
Progesterone
Level of Progesterone
In women, progesterone
levels are relatively low during
the preovulatory phase of the
menstrual cycle, rise after
ovulation, and are elevated
during the luteal phase, as
shown in diagram below.
Progesterone levels tend to
be < 2 ng/ml prior to ovulation,
and > 5 ng/ml after ovulation.
If pregnancy occurs, human
chorionic gonadotropin is
released maintaining the
corpus leuteum allowing it to
maintain levels of
progesterone.
HYPOTHALAMUS RELEASES GONADOTROPIN-RELEASING HORMONE (GnRH). This stimulates the
anterior pituitary to release FSH and LH.
FSH STIMULATES MATURATION OF PRIMARY OOCYTE IN AN IMMATURE FOLLICLE.
FOLLICLE PRODUCES ESTROGEN. Estrogen: (A) builds the uterine wall (the endometrium); (B) inhibits
secretion of FSH.
HIGH LEVELS OF ESTROGEN FURTHER STIMULATE SECRETION OF LH BY ANTERIOR PITUITARY.
This plus FSH also causes ovulation of the secondary oocyte – leaving follicle without egg (the corpus
luteum).
CORPUS LUTEUM SECRETES ESTROGEN AND PROGESTERONE. This maintains the endometrium
for 15-16 days and inhibits LH.
(If oocyte is not fertilized and implanted in the uterine wall) CORPUS DEGENERATES (TO CORPUS
ALBICANS) AND STOPS PRODUCING ESTROGEN AND PROGESTERONE.
WITHOUT ESTROGEN AND PROGESTERONE, ENDOMETRIUM BREAKS DOWN – MENSTRUATION
OCCURS. Menstruation is the sloughing off of the enlarged endometrial wall along with blood and mucous.
DECREASE IN PROGESTERONE AND LH. Low LH causes secretion of FSH by pituitary again. The
cycle repeats.
HORMONAL REGULATION IN NONPREGNANT FEMALE
(UTERINE CYCLE)