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Transcript
Hypothalamus & Pituitary Gland
The Pituitary Gland and
Hypothalamus
• The pituitary gland
(hypophysis) is located at the
base of the brain, immediately
below the hypothalamus. It is
connected to the hypothalamus
by a pituitary stalk
Dr. M. Alzaharna (2014)
Pituitary-Hypothalamic
relationships
•
The pituitary gland comprises 2 lobes: posterior (neurohypophysis)
and anterior (adenohypophysis)
•
The posterior pituitary is an extension of the
hypothalamus, and consists of neural tissue
– The hormones are synthesised in the
hypothalamus neurons.
– They are transported down the axons
and stored in vesicles in the axon ending
located in the posterior pituitary
– Nerve impulses travel down axons into
the posterior pituitary.
– This causes the release of the vesicles of
hormones into the blood stream at the posterior pituitary
Dr. M. Alzaharna (2014)
Pituitary-Hypothalamic
relationships
• The anterior pituitary has no
direct neural connection to
the brain.
⟶ Blood from the
hypothalamus drains into
capillaries of the anterior
pituitary
⟶ releasing and releaseinhibiting hormones are
carried in the blood to the
anterior pituitary to
regulate hormone release
Dr. M. Alzaharna (2014)
Hormone
Secretion
Morphology
• The pituitary gland (hypophysis) is located in a
small depression in the sphenoid bone, the
sella turcica, just beneath the hypothalamus
• It is connected to the hypothalamus by a thin
stalk called the infundibulum
Sella turcica
Dr. M. Alzaharna (2014)
6
Histology of the Anterior Lobe
• Most of the cells in the anterior lobe
(adenohypophysis) contain secretory granules,
although some are only sparsely granulated
• Based on their characteristic staining with
standard histochemical dyes and
immunofluorescent stains, it is possible to
identify the cells that secrete each of the
pituitary hormones
Dr. M. Alzaharna (2014)
7
Histology of the Posterior Lobe
• The posterior lobe (neurohypophysis) consists of two
major portions:
– the infundibulum, or stalk,
– and the infundibular process, or neural lobe
• The posterior lobe is richly endowed with fibers
• The cell bodies from which these fibers arise are
located in the hypothalamus
• Secretory material synthesized in cell bodies in the
hypothalamus is transported down the axons and
stored in in the posterior lobe
Dr. M. Alzaharna (2014)
8
Physiology of the Posterior Pituitary
• The posterior pituitary gland secretes two
hormones which are:
– oxytocin ,
• increase uterine contractions during parturition
• Contraction of mammary glands to secret milk
– and vasopressin or arginine vasopressin (AVP) (or
Antidiuretic Hormone ‘ADH’)
• contract vascular smooth muscle and thus raise blood
pressure
• promote reabsorption of water by renal tubules
Dr. M. Alzaharna (2014)
9
Physiology of the Posterior Pituitary
• Oxytocin and AVP are stored in and secreted
by the posterior pituitary gland, but are
synthesized by the hypothalamus
Dr. M. Alzaharna (2014)
10
Regulation of Posterior Pituitary
Function
Regulation of oxytocin secretion showing a
positive feedback arrangement.
Dr. M. Alzaharna (2014)
Increased blood osmolality or decreased blood
volume are sensed in the brain or thorax,
respectively, and increase vasopressin secretion.
11
Posterior Pituitary hormones
• The posterior pituitary secretes
two peptide hormones:
⟶ oxytocin (OT)
⟶ antidiuretic hormone (ADH);
also known as vasopressin
Oxytocin
• Stimulates uterine contractions
during childbirth by mobilizing Ca2+
through a second-messenger
system
• Also triggers milk ejection
(“letdown” reflex) in women
producing milk
• Plays a role in sexual function in
males and females
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Antidiuretic Hormone (ADH)
• Osmoreceptors in the hypothalamus
respond to changes in the solute
concentration of the blood plasma
• If solute concentration is high
⟶ Osmoreceptors depolarize and
transmit impulses to hypothalamic
neurons
⟶ ADH is synthesized and released,
inhibiting urine formation by the
kidneys
Physiology of the Anterior Pituitary Gland
• There are six anterior pituitary hormones
whose physiological importance is clearly
established
• They include the hormones that govern the
function of the:
– thyroid and adrenal glands,
– the gonads,
– the mammary glands,
– and bodily growth
Dr. M. Alzaharna (2014)
15
Hormones of the Anterior Pituitary Gland
• All the anterior pituitary hormones are
proteins or glycoproteins
• They are divided into 3 categories according to
structure similarity:
– Glycoprotein Hormones
– Growth hormone and prolactin
– Adrenocorticotropin family
Dr. M. Alzaharna (2014)
16
Glycoprotein Hormones
Hormone
Thyroid-stimulating
hormone (TSH), also
called thyrotropin
Follicle-stimulating
hormone (FSH)
Target
Major actions in humans
Thyroid gland • Stimulates synthesis and secretion of
thyroid hormones
Ovary
Testis
Luteinizing hormone (LH)
Ovary
Testis
Dr. M. Alzaharna (2014)
• Stimulates growth of follicles and estrogen
secretion
• Acts on Sertoli cells to promote maturation
of sperm
• Stimulates ovulation of ripe follicle
• and formation of corpus luteum;
• stimulates estrogen and progesterone
synthesis by corpus luteum
• Stimulates interstitial cells of Leydig to
synthesize and secrete testosterone
17
Growth Hormone and Prolactin
• Somatotropes (GH producing cells) are by far the most
abundant anterior pituitary cells, and account for at
least half the cells
• Structurally, prolactin (PRL) is closely related to GH
Hormone
Target
Growth hormone (GH), also
called somatotropic
hormone (STH)
Most tissues
Major actions in humans




Prolactin
Dr. M. Alzaharna (2014)
Promotes growth in stature and
mass;
stimulates production of insulin-like
growth factor (IGF-I);
stimulates protein synthesis;
usually inhibits glucose utilization
and promotes fat utilization
Mammary glands • Promotes milk secretion and
mammary growth
18
Adrenocorticotropin Family
• The ACTH related peptides constitute a family because:
• they contain regions of homologous amino acid sequences,
which may have arisen through exon duplication,
• and because they all are encoded in the same gene
Hormone
Adrenocorticotropic
Target
Adrenal cortex
hormone (ACTH), also
Major actions in humans
• Promotes synthesis and secretion of
adrenal cortical hormones
known as adrenocorticotropin or corticotropin
β-Lipotropin
Adipose
• Physiological role not established
Tissue
Dr. M. Alzaharna (2014)
19
Regulation of Anterior Pituitary
Function
• Secretion of the anterior pituitary hormones is regulated by:
– the central nervous system
• provides the primary drive for secretion
– and hormones produced in peripheral target glands
• and peripheral input plays a secondary, though vital, role in
modulating secretory rates
• Secretion of all the anterior pituitary hormones except PRL
declines severely in the absence of stimulation from the
hypothalamus as can be produced
• when the pituitary gland is removed surgically from its natural location
and reimplanted at a site remote from the hypothalamus
– PRL secretion is normally under tonic inhibitory control by the
hypothalamus
Dr. M. Alzaharna (2014)
20
Feedback Control of Anterior Pituitary
Function
• Environmental factors may
increase or decrease pituitary
activity by increasing or decreasing
hormone secretions from
hypothalamus
• Pituitary secretions increase the
secretion of target gland
hormones, which may inhibit
further secretion by acting at
either the hypothalamus or the
pituitary
• Pituitary hormones may also
inhibit their own secretion by a
short feedback loop
21
•
Anterior Pituitary
hormones
All are proteins
• All except GH activate cyclic AMP
second-messenger systems at their
targets
• TSH, ACTH, FSH, and LH are all tropic
hormones (regulate the secretory
action of other endocrine glands)
Growth Hormone (GH)
• Stimulates cell division targets bone and skeletal
muscle
• Promotes protein synthesis
and encourages use of fats
for fuel
• Most effects are mediated
indirectly by insulin-like
growth factors (IGFs)
Dr. M. Alzaharna (2014)
http://www.youtube.com/watch?v=hLeBNyB1qKU
Thyroid-Stimulating Hormone
• Produced by the anterior pituitary
• Stimulates the normal
development and secretory
activity of the thyroid
• Regulation of TSH release
⟶ Stimulated by thyrotropin-releasing
hormone (TRH)
⟶ Inhibited by rising blood levels of thyroid
hormones that act on the pituitary and
hypothalamus
Dr. M. Alzaharna (2014)
Adrenocorticotropic Hormone
(ACTH)
• Secreted by the anterior
pituitary
• Stimulates the adrenal cortex to
release cortisol and aldosterone
(to a lesser extent)
• Regulation of ACTH release
⟶ triggered by hypothalamic
corticotropin-releasing hormone
(CRH) in a daily rhythm
⟶ internal and external factors such
as fever, hypoglycaemia, and
stressors can alter the release of CRH
Dr. M. Alzaharna (2014)
Gonadotropins
• Follicle-stimulating
hormone (FSH) and
luteinizing hormone (LH)
secreted by the anterior
pituitary
⟶ FSH stimulates gamete (egg
or sperm) production
⟶ LH promotes production of
gonadal hormones
Dr. M. Alzaharna (2014)
Prolactin (PRL)
• Secreted by the anterior pituitary
• Stimulates milk production
• Regulation of PRL release
– Primarily controlled by prolactininhibiting hormone (PIH)
(dopamine)
• Blood levels rise toward the end of
pregnancy
• Suckling stimulates PRH release and
promotes continued milk production
Dr. M. Alzaharna (2014)
Hypophysiotropic hormones
Hormone
Dr. M. Alzaharna (2014)
Physiological actions of
the pituitary
28
Pituitary & Hypothalamic Disorders
• Hypothalamic-pituitary lesions present with a
variety of signs, including pituitary hormone:
– hypersecretion and hyposecretion,
– sellar enlargement,
– and visual loss
Dr. M. Alzaharna (2014)
29
Pituitary & Hypothalamic Disorders
• In adults, the most common cause of hypothalamicpituitary dysfunction is a pituitary adenoma, of
which the great majority are hypersecreting
• Thus, the earliest symptoms of such tumors are due
to endocrinologic abnormalities and include:
– Early manifestation
• Hypogonadism, the most frequent
– diminished functional activity of the gonads
– Late manifestation in patients with larger tumors or
suprasellar extension
• sellar enlargement
• headache
• and visual loss,
Dr. M. Alzaharna (2014)
30
Gonadotrophins Disorders
• Hyposecretion
– leads to amenorrhoea,
– sterility
– and loss of sexual potency.
– In the young, the sex organs and secondary sexual
characteristics fail to develop (delayed puberty)
• Hypersecretion
– extremely rare,
– in children it could lead to sexual precocity
(excessive premature development)
Dr. M. Alzaharna (2014)
31
Thyrotrophin Disorders
• Hyposecretion
– produces a clinical picture similar to primary
thyroid deficiency
• Hypersecretion
– gives the symptoms of hyperthyroidism similar
to Graves’ disease
Dr. M. Alzaharna (2014)
32
Corticotrophin Disorders
• Hyposecretion
– rare
– causes failure of cortisol secretion,
– a general lack of health and well being,
– a reduced response to stress and skin
depigmentation
• Hypersecretion
– due to a pituitary microadenoma,
– will result in Cushing’s syndrome
Dr. M. Alzaharna (2014)
33
Prolactin Disorders
• Hyposecretion
– leads to failure of lactation in women
• Hypersecretion
– may result from a pituitary tumour
– principal symptoms are infertility and menstrual
complaints
– in men, decreased libido,
– inadequate sperm production and impotence,
whereas in women, there may be a complete lack
of menstruation
– inappropriate (non-pregnant) milk production
Dr. M. Alzaharna (2014)
34
GHRH Disorders
• Hyposecretion
– caused by hypothalamic or pituitary dysfunction
– In childhood this leads to impairment of
growth (dwarfism)
• Hypersecretion
– This usually results from a benign pituitary tumour
– In young patients, this leads to gigantism
– In adults, leads to acromegaly
Dr. M. Alzaharna (2014)
35
Vasopressin Disorders
• Hyposecretion
– caused by damage or dysfunction of the
hypothalamus,
– can lead to diabetes insipidus,
• excessively large amounts of dilute urine (10–15
liters/day) are produced by the kidneys
• Hypersecretion
– rare condition of inappropriate AVP production is
known as syndrome of inappropriate ADH (SIADH)
Dr. M. Alzaharna (2014)
36
Hypopituitarism
• Hypopituitarism is manifested by diminished
or absent secretion of one or more pituitary
hormones
• Hypopituitarism is either:
– a primary event
• caused by destruction of the anterior pituitary gland
– or a secondary phenomenon
• resulting from deficiency of hypothalamic stimulatory
factors normally acting on the pituitary
Dr. M. Alzaharna (2014)
37
Assessment of Target
Gland Function
• If endocrine hypofunction is
suspected, pituitary hormone
deficiencies must be distinguished
from primary failure of the thyroid,
adrenals, or gonads
• Baseline laboratory studies should
include:
– thyroid function tests (free T4)
– and determination of serum
testosterone levels
• Testosterone is a sensitive indicator
of hypopituitarism in women as well
as in men
Dr. M. Alzaharna (2014)
38
• In primary target gland hypofunction, such as
autoimmune polyglandular syndromes types 1
and 2 (APS 1 and 2), TSH, LH, FSH, or ACTH will
be elevated
• Low or normal values for these pituitary
hormones suggest hypothalamic-pituitary
dysfunction
Dr. M. Alzaharna (2014)
39