Adrenocortical Steroids and Antagonists PDF

Summary

This document discusses adrenocortical steroids and antagonists, focusing on their mechanisms, metabolic effects, and clinical uses. It covers topics like cortisol, mineralocorticoids, and their various functions in the body's response to stress and inflammation.

Full Transcript

Adrenocortical steroids and
antagonists
Glucocorticoids
Cortisol
Metabolism, especially glucose regulation
Immune function
Mineralocorticoids
Primary mineralocorticoid is aldosterone
Salt and water retention
Weak androgens and estrogen
DHEA, androstenedione, and androstenediol (potent estrogen)
Androstenedione can be converted to testosterone and then estradiol in tissues
Major source of estrogen in post-menopausal females
 Cortisol (hydrocortisone)
Metabolic effects
Growth, cardiovascular function, immunity
Regulation : axis very sensitive to negative feedback by
cortisol levels ( also synthetic glucocorticoids)
Secretion follows a circadian pattern
ACTH rises in early morning and following meals
Sensitivity also varies diurnally
Lower in am, higher at night
Bound in plasma to Corticosteroid binding globulin (CBG)
CBG increases in pregnancy, estrogen administration and
hyperthyroidism
 Mechanism
Mediated by glucocorticoid receptors
Nuclear receptors
Intracellular
GR are predominantly cytoplasmic
Dimerize upon ligand binding and enter nucleus
Ligand activated transcription factors
Also bind mineralocorticoid receptors and exert effects
Metabolic effects
CHO protein and fat metabolism
Stress hormone
Produced in fasting state
To provide glucose for brain and heart
Gluconeogenesis, glycogen synthesis
Release of amino acids (muscle breakdown) to provide for gluconeogennesis
Stimulate lipolysis
Catabolic action in lymphoid and connective tissue, muscle, fat , and skin
High doses result in muscle loss and weakness
Elevate blood glucose
Inhibit glucose uptake by muscle
However
Stimulate insulin release
Muscle glucose uptake disallowed
But… insulin Stimulates lipogenesis and inhibits lipolysis to a degree

Net effect on adipose tissue
Increase in fat deposition with increased free fatty acids in blood
 Important in stress responses
Elevate blood glucose to maintain adequate supply to brain
and heart
Maintains energy levels
Vasoconstriction

Also important for surfactant production in near term
babies
 Immune system
Powerful anti-inflammatory effects
Due primarily to reduction in levels and function of leukocytes
Greatly reduced macrophage function and cell mediated immunity
Reduce prostaglandin and leukotriene production due to reduction of arachidonic acid synthesis by inhibition of
phospholipase A2
Reduce cyclooxygenase 2 expression
Reduced thromboxane, and prostaglandins
Antihistamine effects
Inhibits histamine release from basophils and decreases capillary permeability
Very useful therapeutically but also responsible for side effects
Nervous system
Insomnia, euphoria, depression
Chronic administration
Suppresses ACTH, GH, TSH and LH
High doses
PUD
? Due to reduction in H. Pylori suppression
Abnormal fat distribution
Antagonize Vitamin D mediated calcium absorption
Increase platelets and RBCs
 Natural glucocorticoid
Cortisol/hydrocortisone (Cortef, A-hydrocort)
Highly bound to plasma proteins
75-90% to CBG (corticosteroid-binding globulin) 5% to albumin
, 5-20% free
Pharmacokinetics
Good oral bioavailability Topically absorbed
Metabolized by the liver, eliminated by the kidneys
Half-life of 60-90 min
Exhibits mineralocorticoid activity
Synthetic Corticosteroids
Medium to short acting
Hydrocortisone(Cortef), Cortisone(Cortone) are not synthetic,
Prednisone(Deltasone), Prednisolone(Delta-Cortef),
Methylprednisone(Medrol)
Have mineralocorticoid activity
Intermediate acting
Triamcinolone(Aristocort, Nasacort, Kenalog)
Topically active, great lipid penetration
Excellent anti-inflammatory properties
Mineralocorticoid activity absent

Fludricortisone (Florinef)
mineralocorticoid
 Long acting
Betamethasone (Diprosone), Dexamethasone(Maxidex) ( long-
acting forms)
Most Potent systemic agents
No mineralocorticoid activity
Topical forms have increased activity and duration over
triamcinolone
Locally acting agents
Beclomethasone (Qvar, Beconase AQ, Qnasl)
Budesonide (Pulmicort)
Ciclesonide (Alvesco, Omnaris, Zetonna)
Flunisolide (Aerospan, Aerobid)
Fluticasone (Flovent HFA, Flovent Diskus, Arnuity, Ellipta, Flonase,
Veramyst)
Mometasone (Asmanex, Nasonex)

Nasal or inhalation
Used for allergies and asthma maintenance primarily ( inhaled corticosteroids
first line)
Rapidly metabolized
Systemic side effects greatly reduced
 Uses and Indications of adrenocortical agents
Diagnosis and treatment of disturbed adrenal function
Chronic addisons disease
Weakness, fatigue, weight loss, hypotension, skin darkening, inability to maintain fasting blood
glucose levels
Hydrocortisone
Doses increased during stress ( trauma , infection, etc)
Mineralocorticoid may also be added
Minor trauma or infection may produce acute adrenal insufficiency which can be fatal
Due to circulatory shock
Requires immediate treatment
High hydrocortisone doses and fluid and electrolyte correction
Congenital adrenal hyperplasia
Associated with defects in cortisol and aldosterone synthesis
Cushings syndrome
Usually adrenal hyperplasia secondary to ACTH secreting tumor
Excessive glucocorticoid levels
Surgical removal of tumor
Treatment required after surgery
large doses of cortisol during and after surgery, then tapered to maintenance doses
 Glucocorticoid resistance
GR mutation
Lung maturation in fetus
Premature delivery if anticipated
Corticosteroids to mom will stimulate fetal surfactant production
Bone and joint inflammatory conditions
Bursitis, tendonitis, arthritis
GI
IBS, Crohns disease, ulcerative colitis
Eye
Optic Neuritis, Uveitis, conjunctivitis
Leukemias and lymphomas
MS
Many other conditions
Asthma, transplants, autoimmune disorders ( RA, lupus) , dermatitis,
allergic reactions including bee stings, hives, and as adjunctive therapy
in anaphylaxis
 Dosage forms
Oral, topical ( ointments, inhalation, nasal sprays)
i.v., i.m.
Well distributed and absorbed
Highly bound to CBGs
Metabolized in liver
Glucuronidated
Excreted by kidneys into urine
 Drugs used in asthma
Beclomethasone
Budesonide (Pulmicort)
Budesonide/Formoterol (Symbicort)
Combination steroid and LABA
Ciclesonide (Alvesco)
Flunisolide (Aerospan)
Fluticasone (Flovent HFA, Flovent Diskus)
Fluticasone/Salmeterol (Advair Diskus, Advair HFA)
Combination steroid and LABA
Mometasone (Asmanex)
Mometasone/Formoterol (Dulera)
Combination steroid and LABA
 Allergies
Beclomethasone (Beconase AQ, Qnasl)
Budesonide (Rhinocort Aqua)
Ciclesonide (Omnaris, Zetonna)
Flunisolide
Fluticasone (Flonase)
Mometasone (Nasonex)
Triamcinolone (Nasacort)
 Adverse effects
Numerous
Increase with long-term use
Cushing like syndrome
Elevated blood glucose, blood pressure, muscle wasting, weakness,
abnormal fat distribution, bruising, striae due to skin thinning, puffiness in
face, insomnia, psychosis, osteoporosis, impaired wound healing, infection
susceptibility, ulcers, sodium and fluid retention , potassium loss due to
aldosterone like effects
Adrenal suppression if given > 2 weeks
Increased doses during stress
Doses MUST be tapered slowly
Even when switching from oral to inhaled form
Topical administration reduces adverse effects
q.o.d. dosing can be tried
Shortest possible course
 Contraindications
PUD, HTN , heart failure , infections, psychosis, diabetes ,
osteoporosis, or glaucoma
Mineralocorticoids
Aldosterone, Deoxycorticosterone, Fludricortisone
Promote absorption of sodium and water from the distal
nephron
Promote potassium/H+ excretion
Act via mineralocorticoid receptors
Receptor mechanism similar to glucocorticoid receptors
Fludricortisone (Florinef)
Most widely used
Has both glucocorticoid and mineralocorticoid activity
 Fludricortisone
Exhibits mineralocorticoid and glucocorticoid activity
Mineralocorticoid activity greater
Salt and water retention at doses that do not shown glucocorticoid
effects
Uses
Corticosteroid replacement when mineralocorticoid
replacement required
Addisons disease
Congenital adrenal hyperplasia
Adrenalectomy
Adverse effects
Salt and water retention
Hypokalemia/alkalosis
Edema and HTN
Corticosteroid receptor Antagonists
Spironolactone(Aldactone) and Eplerenone(Inspra)
Antagonizes the aldosterone receptor
Cause sodium and water excretion
Potassium retention
Diuresis (potassium sparing)
Uses
Primary aldosteronism (Conns disease)
Hypokalemia
Commonly employed with loop and thiazides to offset potassium losses
HTN, edema
Heart failure in conjunction with other agents
Spironolactone has benefits above diuretic effects
Reduction in cardiac remodeling
Adverse effects
Hyperkalemia
Cardiac rhythm disturbances
Gynecomastia and menstrual irregularities in women
 Mifeprestone (Korlym, RU-486)
GR antagonist
Has partial agonist action at GR and Progesterone receptor
Binds weakly, drug receptor complex dissociates too quickly to allow
efficient nuclear translocation
Uses
Hyperglycemia reduction in Cushings syndrome
ABSOLUTELY contraindicated in pregnancy
Progesterone blockade will terminate pregnancy
Also teratogenic
Adrenocortical synthesis inhibitors
Aminoglutethimide (Cytadren)
Blocks conversion of cholesterol to pregnenolone
Reduces synthesis of all adrenocortical steroids
Ketoconazole
Antifungal agent
Inhibits adrenal steroid synthesis
Used in cushings syndrome
Abiraterone (Zytiga)
Steroid synthesis inhibitor (17 alpha hydroxylase inhibitor)
Reduces cortisol synthesis and adrenal and gonadal steroid
Targets adrenal androgens
Approved for hormone refractory prostate cancer