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hypothalamicpituitarygonadal

The hypothalamic-pituitary-gonadal axis (HPG axis) is the hormonal system that regulates reproduction and sexual development in humans and many other vertebrates. It involves the hypothalamus releasing gonadotropin-releasing hormone (GnRH) in pulsatile bursts, which stimulates the anterior pituitary to secrete the gonadotropins, luteinizing hormone (LH) and follicle-stimulating hormone (FSH). LH and FSH act on the gonads to drive gonadal steroid production and gametogenesis.

In males, LH stimulates Leydig cells to produce testosterone, while FSH acts on Sertoli cells to support

During puberty, increasing GnRH pulsatility initiates maturation of the axis, leading to gonadal function and the

spermatogenesis;
inhibin
B
provides
negative
feedback
on
FSH.
In
females,
FSH
promotes
ovarian
follicle
development,
and
LH
triggers
ovulation
and
luteinization;
the
ovaries
produce
estrogen
and
progesterone
with
the
corpus
luteum.
The
axis
is
regulated
by
feedback
loops:
sex
steroids
feed
back
to
the
hypothalamus
and
pituitary,
and
GnRH
pulse
frequency
can
influence
the
relative
secretion
of
LH
and
FSH;
higher
GnRH
pulse
frequencies
favor
LH
release,
and
estrogen
can
exert
positive
feedback
during
the
mid-cycle.
development
of
secondary
sexual
characteristics.
Clinically,
disruption
of
the
axis
can
cause
hypogonadism
or
infertility,
due
to
hypothalamic,
pituitary,
or
gonadal
pathology.
Genetic
conditions
such
as
Kallmann
syndrome
involve
GnRH
deficiencies
and
often
anosmia.
Treatments
may
include
hormone
replacement
therapy
or
assisted
reproductive
technologies,
depending
on
the
underlying
cause.