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Glucocorticoids

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CRH VP. Functions : In males: little effect compared to testosterone. In females: ... 3- Weakness, hypertension, tetany, polyurea. 4-Hypokalaemic alkalosis. ... – PowerPoint PPT presentation

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Title: Glucocorticoids


1
Glucocorticoids androgens
  • 2008
  • BIOM 463
  • Dr. Nasser Rizk

2
Zona Fasciculate andCorticosteroids
  • Secretion
  • The human adrenal cortex secretes two main
    glucocorticoids
  • 1- Cortisol
  • 2- Corticosterone
  • Transport
  • 75 of Cortisol, bound to Globulin (transcortin),
    and Corticosterone.
  • 15 bound to albumin
  • 10 is free (active)

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Synthesis of glucocorticoids
  • As shown before.
  • 1- Uptake of cholesterol
  • 2- side-chain- cleavage of cholesterol
  • 3- Pregnenolone common precursor.
  • 4- Hydroxylation reactions
  • 5- 17-?-hydroxyprogestrone 17-?-hydroxypregenlone
    ,
  • Give rise to 11-deoxycortisol..
    Glucocorticoid pathway.

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Metabolism of glucocorticoids
  • A- general inactivation of corticosteroids by
    1- Enzymatic reduction to
  • 2- Conjugation reaction, excreted by kidney.
  • Major urinary metabolite of Cortisol is
  • Tetrahydrocortisol glucuronide
  • B- Liver is the main extra-adrenal site of
    metabolism. Cortisol is converted into Cortisone
  • which is conjugated and reduced to be excreted.

Dihydrocortisol
Tetrahydrocortisol
8
  • Steroids with 17-? hydroxyl groups appear in
    urine in the form of
  • 17- Ketosteroids (marker of corticosteroid
    secretion in humans)
  • 3- Conversion in other extra-adrenal tissues
  • Like muscles, skin, fibroblasts, intestine by
    oxidation-reduction reactions.

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Actions of glucocorticoids
  • Cortisol

Immune response
Metabolic
Excretion of water
Stress response
Mineralocorticoid activity
CVS role
Pharmacological effects Immunosuppressive
actions Anti-allergic effect Anti-inflammatory
effect
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  • Metabolic effects
  • 1- Carbohydrate Hyperglycemic ?
  • A- Gluconeogensis especially Sk.M, and
  • B- Hepatic glycogenolysis, and
  • C- Anti-insulin effect, decreasing glucose
    transport in Sk.M and adipose tissue by
    inhibiting GLUT14 activity.

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  • 2- Protein Metabolism
  • A- Enhance protein breakdown and release of A.A.
    in extrahepatic tissue esp. Sk.M Fat.
  • B- Liver deals mobilized A.A by deamination,
    gluconeogensis, Ptn synthesis and Plasma protein
    formation
  • It is catabolic hormone.

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  • 3- Fat metabolism
  • It is lipolytic hormone
  • Increased mobilization of fatty acids.
  • This effect is due to potenetiation by other
    lipolytic hormones as catecholamines and
    Somatotrophins.
  • When large amounts of Cortisol are secreted,
    could lead to
  • Centripetal Distribution of fat
  • ( Increased deposition of fat in trunk, face
    and neck regions), as in Cushing's syndrome.

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2- Mineralocorticoid activity
  • 1- Cortisol has a weak mineralocorticoid
    activity. It helps Na reabsorption and enhances
    excretion of K in urine.
  • 2- This weak effect is due to presence of enzyme
    11-? hydroxysteroid dehydrogenase ( 11 ? HSD),
    which catalyses conversion of active Cortisol
    into inactive Cortisol.
  • This enzyme is present in Aldosterone-sensitive
    tissues.

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  • 3- Water metabolism
  • Depends on the water content of the body
  • 1- Dehydration Cortisol has antidiuretic effect
    secondary to increased Na reabsorption.
  • 2- Hydration Cortisol has a diuretic effect by
  • a- Increased renal blood flow and GFR
  • b- Inhibit action of ADH on collecting tubules.
  • 4- CVS effects Increase vascular tone by
    potenetiation the effects of catecholamines on
    blood vessels.

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  • 5- Response to stress
  • Stressors as trauma., hemorrhage, acute
    hypoglycemia, febrile stimuli, emotions.
  • All these conditions characterized by marked
    increase in ACTH and glucocorticoid
    concentrations.
  • This effect is due to
  • 1- Increase vascular reactivity,
  • 2- Mobilization of F.F.A. from adipose tissue,
    and its use as source of energy

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Pharmacological actions of glucocorticoids
  • Inflammation is characterized by increased
    capillary permeability, edema, WBC infiltration
    release of proteolytic enzymes by WBCs, and
    increase collagen activity.
  • 1-Anti-inflammatory actions
  • 1- Decrease capillary permeability
  • 2- Stabilize lysosomal membrane of WBCs, inhibit
    proteolytic enzymes
  • 3- Decreased infiltration of WBCs into the
    inflamed area
  • 4-Inhbited fibroblastic activity and collagen
    deposition

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  • 2- Anti-allergic actions
  • Allergy is characterized by histamine release
    from basophil and mast cell which produces
  • edema, inflammation, V.D in capillaries, decrease
    B.P, bronchospasm and could lead to anaphylactic
    shock, also stimulates salivary, gastric
    secretions.
  • Anti-allergic effects
  • Cortisol inhibits the release of histamine.

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  • 3- Immunosuppressive effects
  • Therapeutic effect of large amounts of
    glucocorticoids, inhibit the normal immune
    response by
  • 1- Gradual destruction of lymphoid tissues
    Decrease antibody production, Lymphocytes,
    Basophiles, and Esinophiles.
  • This effect is used in tissue transplant , but
    decrease the ability of the body defense against
    infections.

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  • Physiologically
  • It has a role in regulating the immune response
    and prevent damage to body. How?
  • Via interaction between the hypothalamo-hypophysea
    l- adrenal axis and the immune system as shown in
    the next fig.
  • e.g., TNF-? released by macrophages is under
    control by increased production of Cortisol which
    in turn inhibits macrophages

21
Hypothalamus
VE
Interactions between Hypothalamo-hypophyseal Adre
nocortical axis And immune system
CRH VP
VE
Ant. pit. gland
Interleukins (e.g. IL-1)
ACTH
Adrenal cortex
Cortisol
ACTH
- Ve
Macrophages
TNF-? ( and other toxic substances)
Immune challenge
22
  • 4- Effect on blood cells
  • Decrease number of Eosinophils, Basophils, and
    lymphocytes.
  • Increase total count of RBCs, WBCs, platelets,
    Monocytes and PMNs.

Cell Normal Cortisol-effect
WBCs Total PMNs Lymphocytes Eosinophils Basophils Monocytes RBCs 9000 5760 2370 270 60 450 5 million 10.000 8300 1080 20 30 540 5.2 million
23
  • 5- Effect on calcium and bone
  • large amounts of glucocorticoids,
  • 1- Antagonizes the effect of Vit D metabolites on
    calcium absorption of the gut
  • 2- Increase excretion of Ca in urine via
    increase in GFR.
  • 3- May inhibit the secretion of growth hormone
    from ant. Pituitary gland.
  • All these effects lead to increase incidence of
  • Osteoporosis

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  • 6- Other effects
  • Gastric secretion increases, increase incidence
    of gastric peptic ulcers.
  • Nervous system change in personality.
  • ACTH secretion inhibited

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Mechanism of action
  • 1- Like other steroids affects gene
    transcription and translation
  • 2- Rapid action via Lipocortin1 which causes
    rapid inhibition of ACTH secretion.
  • The following Fig. show such mechanisms.

27
Actions ?
Autocrine effect Via Lipocortin receptor ?
Cortisol
Phospholipase A
Lipocortin 1
Cortisol receptor
New protein synthesis
Arachidonic acid
mRNA
Prostaglandins Leukotriens synthesis
Actions
Mechanism of action of Cortisol
28
Control of Cortisol release
  • Synthesis and secretion of glucocorticoids is
    under control of ACTH released from ant.pit.gland
    (act via cyclic AMP).
  • ACTH is under control of CRF (CRH) by the
    hypothalamus.
  • ACTH is secreted in pulsatile manner.
  • Pulses are more frequent early in morning, least
    in evening (circadian rhythm).
  • Only Cortisol has a negative feedback effect on
    ACTH and CRH.

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  • Hypothalamo-hypophyseal-adrenocortical axis are
    stimulated by a wide range of stress conditions
    including
  • Trauma, infections, hypoglycemia
  • Acute anxiety, exercise, pain,
  • Surgery, shock, inflammation,
  • Cold exposure and
  • Psychological stress.

33
Stress
Indirect -Ve
Hypothalamus
CRH VP
Hypothalamo- Hypophyseal Portal system
Direct - ve
Adenohypophesis
Corticotrophin, ACTH
Adrenal Cortex
Control of secretion of Cortisol
Cortisol
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Adrenal androgens
  • Functions
  • In males little effect compared to testosterone.
  • In females
  • 1- Appearance and maintenance of pubic and
    Axillary hair growth of clitoris.
  • 2- Protein anabolism which promotes physical
    growth esp. in prepuberatl stage.
  • 3- Increased secretion of sebaceous glands of the
    skin and acne formation.

36
Disorders of adrenal cortex
  • Excess secretion
  • 1- Excess androgen adrogenital syndrome and
    masculinization in females.
  • 2- Excess glucocorticoids
  • Cushings syndrome
  • moon face, plethoric appearance,
  • trunk obesity, purple abdominal striae,
  • hypertension, osteoporosis,

37
  • protein depletion, mental abnormalities, frequent
    diabetes mellitus.
  • 3- Excess mineralcorticosteroids lead to
  • 1- K depletion, Na retention
  • 2- No edema
  • 3- Weakness, hypertension, tetany, polyurea
  • 4-Hypokalaemic alkalosis.

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Adrenal insufficiency
  • Addison disease destruction of adrenal cortex by
    autoimmune diseases/T.B.
  • C/P
  • 1- weight loss, tired, hypotensive, hypoglycemia
  • 2- response to stress leads to shock and collapse
    addisonian crisis
  • 3- increase ACTH level which has MSH activity
    leads to tanning of the skin, pigmentation
  • 4- Menstrual abnormalities.

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Decrease aldosterone
  • C/p
  • Hyperkalemia
  • Salt wasting
  • Hypotension
  • Metabolic acidosis

43
  • End of this gland
  • Dr. Nasser Rizk
  • 2008
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