Adrenal gland physiology

Question 1

What is the adrenal gland- where is it located, function - ie what hormones does it produce?

Answer 1

• located in the posterior abdomen - between the kidneys and diaphragm
• it is a small endocrine gland that produces** steroid hormones adrenaline and noradenaline** that function to control heart rate, blood pressure & other important body functions
• also produces aldosterone,
• produces cortisol

Question 2

Describe the structure of the adrenal gland

Answer 2

• consists of an outer connective tissue capsule - cortex and medulla

Question 3

what are the 3 zones of the cortex?

Answer 3

1. zona glomerulosa
2. zona fasciculata
3. zona reticularis

Question 4

what hormone is associated with the zona glomerulosa?

Answer 4

• mineralocorticoids - eg aldosterone

Question 5

what is the primary target of aldosterone?

Answer 5

the kidneys

Question 6

what is the hormonal effect of aldosterone?

Answer 6

aldosterone increases renal absorption of Na+ and water, especially in the presence of ADH

Question 7

Describe the hormones that are associated with the zona fasciculata ?

Answer 7

glucocorticoids - steroid hormones that effect glucose metabolism
* CORTISOL
* corticosterone

Question 8

what is the target of the glucocorticoids released by the zona fasciculata?

Answer 8

the majority of cells

Question 9

what are the hormonal effects of the glucocorticoids?

Answer 9

• glucocorticoids **increases the rates of glucose & glycogen formation **by the liver
• they stimulate the** release of amino acids** from skeletal muscle & lipids from adipose tissue
• cortisol also reduces inflammation - ie an antiinflammatory effect

Question 10

what hormone is associated with the zona reticularis ?

Answer 10

• small quantities of androgens (male sex hormones) are released from this zone
• these may be converted to estrogens in the blood stream

Question 11

what are the targets of the androgens released by the zona reticularis?

Answer 11

• skin
• bones
• other tissues

minimal effects in normal adults

Question 12

what are the hormonal effects of the adrenal androgens?

Answer 12

they stimulate the development of pubic hair in both males and females

Question 13

what hormones does the adrenal medulla produce?

Answer 13

• adrenaline
• noradrenaline

Question 14

what are the effects of noradrenaline and adrenaline released by the medulla of the adrenal gland?

Answer 14

they increase cardiac activity, blood pressure, glycogen breakdown, and blood glucose levels

Question 15

what is the adrenarche?

Answer 15

the maturation of the zona reticularis in late childhood associated with increased adrenal androgen DHEA secretion

Question 16

what is the adrenopause?

Answer 16

the decline in DHEA production with age

Question 17

where are the adrenocorticoids synthesised?

Answer 17

in the adrenal cortex - all 3 zones

Question 18

Describe the zona glomerulosa

Answer 18

• subcapsular
• 10-15% of the adrenal cortex
• mineralocorticoid synthesis - aldosterone
• actions are mediated through mineralocorticoid receptor

Question 19

Describe the functions of aldosterone

Answer 19

• maintains electrolyte balance and ECF/plasma volume
• regulates** Na+absorption and K+ excretion** in the renal distal tubule and collecting ducts
• also has a secondary role in acid base balance - H+ excretion and HCO3- absorption

Question 20

Describe the action of aldosterone on the principal cells

Answer 20

• aldosterone** increases the expression of Na+ channels and Na+/K+ ATPase pumps** in the cell membrane on the luminal membrane
• it also increases expression of K+ channels on the apical membrane allowing the excretion into urine

Question 21

Describe the action of aldosterone in intercalated cells

Answer 21

• aldosterone increases the expression of H+ATPase pumps to stimulate the secretion of H+ into the urine
• aldosterone also increases the activity of the apical Cl-HCO3- exchangers - which reabsorb Cl- from the lumen into the cell and excrete bicarbonate from the cell into the lumen

Question 22

Describe the renin-angiotensin - aldosterone system (RAAS)

Answer 22

• granular cells produce prorenin, after a drop in blood pressure prorenin is cleaved to form renin
• the release of renin causes angiotensin to be produced by the liver
• renin causes angiotensin to be converted to angiotensin I
• angiotensin I is converted to angiotensin II by the ACE enzyme
• angiotensin II stimulates the release of aldosterone from the renal cortex

Question 23

What effects does primary hyperaldosteronism/ conns syndrome have on renal reabsorption of electrolytes and water?

Answer 23

it causes electrolyte imbalances - increase in Na and hco3- reabsorption and increase in H+ and K+ excretion
* causing muscles cramps (hyper natremia (Na+))
* causing muscle weakness (hypokalemia (K+))
* causing metabolic acidosis
* increases water reaborption - hypertension

Question 24

what are the possible causes of primary hyperaldosteronism/ conns syndrome?

Answer 24

• aldosterone secreting adrenal tumours
• adrenal hyperplasia (genetic disorder)

Question 25

what are the possible treatments for primary hyperaldosteronism / conns symdrome?

Answer 25

• surgery
• spirinolactone - aldosterone receptor antagonist

Question 26

what is an example of a primary aldosertone deficiency?

Answer 26

addisons disease

Question 27

what is addisons disease?

Answer 27

autoimmune destruction of adrenal cortex

Question 28

what are the symptoms of hypoaldosteronism?

Answer 28

• hyponatremia - low Na+ plasma levels
• hyperkalemia
• decreae in ECF/plasma volume
• cardiac arrthymias

Question 29

Describe the** zona fasciculata**

Answer 29

• 75% of adrenal cortex
• contains pale cells - numerous lipid droplets
• well developed ER and lots of mitochondria
• synthesise cortisol in response to increased ACTH
• actions mediated by the glucocorticoid receptor

Question 30

what are the metabolic actions of glucocorticoids?

Answer 30

• causes an** increase in muscle protein catabolism** (breakdown)
• increases** triglyceride breakdown**
• increases hepatic gluconeogenesis - therefore increases plasma glucose
• decreases** muscle insulin sensitivity**

Question 31

what are the secondary actions of cortisol?

Answer 31

• supresses immune and inflammatory responses
• inhibits T & B cell function
• maintains normal blood pressure and cardiac output
• important role in water & electrolyte balance - increases Na+ reabsorption and K+ excretion
• stress response

Question 32

what is the cortisol awakening response?

Answer 32

• The cortisol awakening response (CAR) is the change in cortisol concentration that occurs in the first hour after waking from sleep
• 30-70% increase in cortisol 30 mins after rising

Question 33

what nucleus is important in the circadian rhythm of cortisol?

Answer 33

• suprachiasmatic nucleus in the hypothalamus

Question 34

What is hypercortisolism/cushings syndrome?

Answer 34

a disorder relating to abnormally high levels of cortisol in the body

Question 35

what are the possible causes of hypercortisolism?

Answer 35

• cortisol secreting adrenal tumours
• ectopic tumours (tumours occuring in abnormal places) that secrete ACTH
• primary ACTH excess - cushings disease
• prolonged glucocorticoid therapy

Question 36

what are examples of symptoms of hypercortisolism?

Answer 36

• insulin resistance
• obesity
• hyperglycemia

Question 37

what is an example of a disorder relating to hypocortisolim?

Answer 37

addision’s disease- autoimmune destruction of the adrenal xortex

Question 38

what are examples of symptoms associated with hypocortisolism?

Answer 38

• hypoglycemia
• ACTH excess
• MSH excess - hyperpigmentation

Question 39

what is the function of the enzyme 11Beta hydroxysteroid dehydrogenase?

Answer 39

• this enzyme converts active cortisol into inactive cortisone
• prevents the glucocorticoids acting on the minerlaocorticoid receptors
• highly active in most metabolically active tissues eg liver, adipose, skeletal muscle etc

Question 40

what does chronic ingestion of glycyrrhetinic acid lead to?

Answer 40

• this can inhibit the 11 beta hydroxysteroid dehydrogenase activity
• this allows the glucocorticoids (cortisol etc) to exert their effects on the mineralocorticoid receptor and produce hypertension and hypokalemia

Question 41

describe the zona reticularis

Answer 41

• 10-15% of the adrenal cortex
• adjacent to the renal medulla
• not fully differentiated untiil early childhood
• synthesis of androgens - DHEA is the most abundant

Question 42

Describe DHEA

Answer 42

• much more abundant than gonadal androgens
• easily converted to testosterone
• most adundant androgen in females - plays a role in development of secondary secual characteristics

Question 43

what is adrenal androgen synthesis regulated by?

Answer 43

ACTH

Question 44

what is congential adrenal hyperplasia?

Answer 44

• hyperplasia = enlargement of tissue/ organ due to increase in growth of cells
• decreases cortisol production, increases male sex steroid production, increases ACTH
• abnormal development of primary/secondary sex characterstics

Question 45

Describe the difference in the embryology of the adrenal gland

ie where are they derived from

Answer 45

• adrenal cortex is derived from the embryonic mesoderm
• adrenal medulla is derived from the neural crest of the embryonic ectoderm

Question 46

what are chromaffin cells?

Answer 46

• neuroendocrine cells located in the adrenal medulla
• they secrete adrenaline , noradrenaline etc

Question 47

what are chromaffin cells innervated by?

Answer 47

preganglionic sympathetic neurons

Question 48

What occurs if the chromaffin cells are stimulated by the pre ganglionic sympathetic neuron?

Answer 48

• they release adrenaline (80%) and noradrenaline (20%) into blood stream in response to increased sympathetic nervous system activity
• called the sympathoadrenomedullary system

Question 49

what receptors are NE and E associated with?

Answer 49

plasma membrane adrenoceptors - G protein coupled receptors

Question 50

what are the 4 main subtypes of adrenoceptor ?

Answer 50

• Alpha 1
• alpha 2
• beta 1
• beta 2 - ADRENALINE ONLY

Question 51

what do the alpha adrenergic receptors preferably bind to?

Answer 51

noradrenaline

Question 52

what do the beta adrenergic receptors bind to?

Answer 52

• adrenaline

Question 53

what are the physiological effects of adrenaline?

Answer 53

• increase in HR and CO
• increase in the breakdown of glycogen & fat
• increase in O2 consumption
• increase in skeletal muscle blood flow

Question 54

what is the role of adrenaline / epinephrine VS noradrenaline in the stress response?

Answer 54

1. adrenaline VIA ADRENAL MEDULLA increases HR, BP, peripheral vasoconstriction to increase blood flow, increase lipid breakdown and glucose for fuel
2. noradrenaline VIA sympathetic nerves increases HR, BP and peripheral vasoconstriction

Question 55

what is an example of a disorder of the adrenal medulla?

Answer 55

• pheochromocytoma
• tumour of the chromaffin cells

Question 56

what are the symptoms associated with pheochromocytoma?

Answer 56

• severe hypertension
• hyperglycaemia
• anxiety
• arrthymias
• increased metabolic rate