dr. eman el eter the pituitary gland: anterior pituitary hormones. posterior pituitary hormones
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Dr. Eman El EterDr. Eman El Eter
The pituitary Gland:Anterior pituitary hormones.Posterior pituitary hormones
Hypothalamic Hypophyseal Control
Anterior pituitary Anterior pituitary hormoneshormones
Pituitary glandsPituitary glands
Anterior pituitary hormones◦GH◦Prolactin
Posterior pituitary hormones◦ADH◦Oxytocine
Growth hormoneGrowth hormone(Somatotropin)
Growth Hormone Growth Hormone (Somatotropin) (Somatotropin)
Structure and Source of Growth Hormone:
GH is a large peptide hormone, with 191 amino acids
GH is produced by somatotroph cells of the anterior pituitary
Transport of GH in the BloodTransport of GH in the Blood
About 50% of GH is found in the blood bound to a Growth Hormone-Binding Protein (GHBP).
GHBP increases the half-life of GH, but decreases biological activity (bound GH is not biologically available).
The GHBP is identical to the ligand binding domain of the GH receptor, and may be derived from alternative splicing of the GH receptor RNA.
Growth HormoneGrowth Hormone (GH; Somatotropin (GH; Somatotropin))
The major hormone regulating growth in the body.
Actions of Growth Hormone:- increases skeletal growth- increases muscular growth- increases amino acid uptake and protein synthesis by the cells.- increased use of lipids for energy- decrease glucose re-uptake by the cells & increases blood sugar level.- decreased storage of carbohydrates
GrowthGrowthGrowth Hormone actions
Role of Somatomedins in GH Role of Somatomedins in GH Actions – Actions – the the GH/IGF AxisGH/IGF Axis
The effects of GH on skeletal and muscular growth appear to be due to the activity of somatomedins, or insulin-like growth factors (IGF-1 and IGF-2) – processed in the liver.
GH acts on the liver, and some other tissues, to increase the production of IGFs.
IGFs then enter the circulation and act on target tissues to enhance growth.
They increase protein synthesis in skeletal muscles.
Regulation of GH Expression in Regulation of GH Expression in SomatotrophsSomatotrophs
GHRH
ACGs
cAMP
PKA
PIT-1 GH synthesis
Gi
(-)
somatostatin
A txn factor in the Pit
Control of GH secretion:Control of GH secretion:
1. The hypothalamus: a. GHRH GH secretion. b. GHIH (somatostatin) GH secretion2. Hypoglycemia (fasting) GH
secretion. (N.B. glucose intake GH secretion).3. Muscular exercise GH secretion.4. Intake of protein or amino acids
GH secretion (after meals).
Control of GH secretion:Control of GH secretion:
5. During sleep more in children.
6. Stress conditions, e.g. trauma or emotions GH secretion.
7. FFAs GH secretion
Regulation of GH LevelsRegulation of GH LevelsGH is released from the pituitary in a pulsatile
manner:
hormonelevel
time
• GH levels are low during the day, but increase during sleep.• There is an overall increase in GH levels during puberty.
Abnormalities of GH Abnormalities of GH secretion secretion GH secretion: GH secretion:
Signs & symptoms ‘in childhood’:
Gigantism, all body tissues grow
rapidly, including bones. Height as it occurs
before epiphyseal fusion of long bones w their shafts.
Hyperglycemia (diabetes).
Abnormalities of GH Abnormalities of GH secretion secretion GH secretion: GH secretion: Signs & symptoms ‘in adults’: Acromegally, person can’t grow taller,
soft tissue continue to grow in thickness (skin, tongue, liver, kidney, …)= organomegally
- Enlargement of bones of hands & feet.
- Enlargement of membranous bones including cranium, nose, forehead bones, supraorbital ridges.
- Protrusion of lower jaw (Proganthism).
- Hunched back (kyphosis) (enlargement of vertebrae).
GH = pituitary dwarfismGH = pituitary dwarfism
Manifestations:
-Short stature.
-Proportionate growth
-No mental retardation.
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HypopituitarismHypopituitarism
It is hypofunction of the pituitary gland. It results from disease of the pituitary gland itself
(destruction of the anterior lobe) or of the hypothalamus. Panhypopituitarism is total absence of all pituitary
secretions and is rare. Postpartum pituitary necrosis is more likely to occur in women with severe blood loss, hypovolemia, and hypotension at the time of delivery.
It can be a complication of radiation therapy. The total destruction of the pituitary gland results in extreme weight loss, emaciation, atrophy of all endocrine glands and organs, hair loss, impotence, amenorrhea, hypometabolism, and hypoglycemia. Coma and death may occur.
Panhypopituitarism/Panhypopituitarism/HypopituitarismHypopituitarism
Manifestations are due to deficiency of hormones secreted by pituitary gland:
Gonadotropin deficiency:◦ Women: Amenorrhea, Infertility
◦ Men: Decreased libido, Decreased beard and body hair.
Corticotropin deficiency:◦ Fatigue, Decreased appetite, Weight loss, Decreased
pigmentation, Abnormal response to stress, Hypotension, Hyponatremia, Fever.
Thyroxin deficiency: ◦ Fatigue, Cold intolerance.
Deficiency of ADH:◦ Polyuria & Polydipsia
Prolactin Prolactin Prolactin (PRL), known as luteotropin.A Protein hormone that in humans is best known for its milk production effect.
Prolactin is secreted from the pituitary gland in response to mating, estrogen treatment, ovulation, and nursing.
Prolactin is secreted in a pulsatile fashion in between these events. Prolactin also plays an essential role in metabolism, regulation of the and immune system.
Functions of prolactin Functions of prolactin
◦ The major function of prolactin is milk production (synthesis)
• release is inhibited by PIH (dopamine) secreted by the hypothalamus.
• suckling response inhibits PIH release and stimulates prolactin secretion.
Target cellsTarget cells
Prolactin
Oxytocin
HyperprolactenemiaHyperprolactenemia
Manifestation:
Galactorrehea : Milk secretion in non-lactating female.
Infertility (in males& females): as it competes with FSH at receptor site : ovaries/testis.
Gynecomastia (males)
Cause: Prolactenoma
Treatment: Medical: bromocreptinSurgical.
The posterior pituitary glandThe posterior pituitary gland
Composed mainly of cells called ‘Pituicytes’, which act as packing & supporting cells.
Stores & releases hormones into the close capillaries.
These hormones are produced in hypothalamus.
Secretion of Posterior Pituitary Secretion of Posterior Pituitary HormonesHormones
The posterior pituitary gland hormonesThe posterior pituitary gland hormones
Posterior pituitary gland releases 2 hormones:
1. Antidiuretic hormone (ADH), or arginine vasopressin (AVP). 2. Oxytocin
Both hormones are produced in hypothalamic nuclei: - Supraoptic nucleus (ADH + 1/6 oxytocin) - Paraventricular nucleus (Oxytocin + 1/6 ADH)
The posterior pituitary gland hormones … cont.The posterior pituitary gland hormones … cont.
Both hormones are polypeptides, each contains 9 amino acids.
• Both are transported slowly along the ‘hypothalamo-hypophyseal tract’ in combination with carrier protein called ‘neurophysin’, to the nerve endings in the posterior pituitary gland where they are stored.
Actions of ADHActions of ADH
ADH has 2 main effects:
1. water re-absorption (retention) by distal tubules & collecting ducts of the kidneys decrease osmotic pressure of the blood.
* This effect is regulated by V2 receptors, through the
action of cAMP.2. Contraction of vascular smooth muscles generalized vasoconstriction.
* This effect is regulated by V1 receptors, through the action
of IP3/Ca2+.
Actions of ADH Actions of ADH (vasopressin)(vasopressin)
Control of ADH releaseControl of ADH release
1. in osmotic pressure of the ECF ( in plasma osmolality), as in dehydration which will stimulate osmoreceptors in the hypothalamus ADH. Hyperosmolarity of
ECF
Receptors in hypothalam
us
More ADH release
Thirst
Collecting ducts of kidneys
Reabsorption of water
Water intake
Dilution of ECF
-ve feedback
Control of ADH release …cont.Control of ADH release …cont.
3. arterial blood pressure, due to blood volume ADH.
4. Age: ADH secretion water retention & hyponatremia.
5. Pain, emotional stress & physical trauma ADH secretion.
6. Drugs, e.g. morphine, barbiturates, & nicotine ADH
secretion.7. Alcohol ADH secretion.
Inputs reflexly controlling thirst. Inputs reflexly controlling thirst.
Control of ADH ReleaseControl of ADH Release
Osmotic stimuli:◦Osmoreceptor mediated◦osmolality ADH secretion◦osmolality ADH secretion
Non-osmotic stimuli (Volume effects)◦Baroreceptor mediated (vagus nerve)◦blood pressure ADH secretion◦blood pressure ADH secretion
Oxytocin Oxytocin
Functions of oxytocin Functions of oxytocin
Breast-feeding◦contracts the myoepithelial cells of the alveoli(classic neuroendocrine reflex): milk let down
reflex.
Childbirth (parturition)◦ in late pregnancy, uterine smooth muscle
(myometrium) becomes sensitive to oxytocin due to the synergistic effect of estrogen. During labor stretch of cervix enhances oxytocin release in a positive feedback manner.
Milk Letdown reflexMilk Letdown reflex
Example of positive feedback mechanism
Summary of posterior pituitary Summary of posterior pituitary hormones actionshormones actions