Endo 5

Question 1

Where are the adrenal glands located?

Answer 1

• superior poles of kidneys
• one on left and one on right
• yellow in colour because there is a lot of cholesterol here to make lipophilic hormones

Question 2

What are the three layers of the cortex?

Answer 2

• zona glomerulosa
• zona fasciculata
• zona reticularis
• from superficial to deep, they are responsible for salt, sugar, and sex

Question 3

What is the deepest layer of the adrenal gland?

Answer 3

• adrenal medulla
• releases catecholamines into the blood during sympathetic response
• cells are modified post ganglionic neurons of sympathetic nervous system

Question 4

What is the function of the zona glomerulosa?

Answer 4

• primary product is aldosterone
• aldosterone is a mineralocorticoid
• corticosteroid responsible for minerals, in particular sodium potassium balance
• talks to kidneys in the tubules when it is creating filtrate and signals for sodium to come back into the body
• water follows it so helps to maintain electrolyte and fluid balance in body
• adjusts blood pressure and blood volume
• release controlled by renin-angiotensin-aldosterone (RAA) pathway

Question 5

How is aldosterone release regulated?

Answer 5

• RAA pathway by negative feedback
• stimulus: decrease in blood pressure (directly related to dehydration, Na deficiency, hemorrhage, decrease in blood volume)
• sensed by juxtaglomerular cells in kidneys
• they release renin which goes into circulation and renin works on angiotensinogen (made by liver, but it’s inactive until you break it up) and turns it into angiotensin 1
• angiotensin 1 circulates until it passes capillary beds in lungs where endothelial cells have ACE (angiotensin converting enzyme)
• ACE turns it into angiotensin 2
• angiotensin 2 releases aldosterone so kidneys reabsorb sodium in filtrate and retain water to boost blood volume and pressure
• angiotensin 2 also constricts vascular smooth muscle so blood pressure goes up
• once BP goes up, feeds back on JG cells and stops renin release

Question 6

What is the function of the zona fasciculata?

Answer 6

• secretes glucocorticoids (stress hormones)
• main effect on glucose homeostasis and promote hyperglycemia
• includes cortisol, cortisone, corticosterone
• glucocorticoids have the following effects: promote protein breakdown in tissues (mostly lean muscle), enhance lipolysis in adipocytes, promote glucose formation using proteins that have been broken down and fats (liver makes new glucose)
• puts it into circulation to get to tissues
• promotes resistance to stress to mobilize energy stores
• suppresses non essential things in body: anti-inflammatory and immunosuppressive (when people are stressed and release cortisol, become susceptible to colds/infections)
• suppresses other non essential functions: growing/repairing tissues

Question 7

How is cortisol release controlled?

Answer 7

• controlled by HPA axis
• in hypothalamus, low cortisol or stressors (blood glucose, pH, something external, perceived threat, thoughts/emotions) will signal for corticotropin releasing hormone (CRH)
• CRH travels down pituitary portal system to ant pituitary where adrenocorticotropic hormone is released (ACTH)
• gets to adrenal cortex and causes release of cortisol
• cortisol will give various tissue effects
• elevated cortisol inhibits release of ACTH and CRH
• BUT as long as stressors are present, this will trump everything
• in adrenal medulla, get release of catecholamines as well

Question 8

What is the function of the zona reticularis?

Answer 8

• secretes androgens
• main one is DHEA (dehydroepiandrosterone)
• in post pubertal males, adrenal androgen secretion is less than testicular androgen production (in form of testosterone)
• in females, adrenal androgens contribute to libido (has effects on hypothalamus) and some are converted to estrogens by other tissues (peripheral conversion)
• menopause occurs when ovaries stop producing follicles/generating estrogen but there are still androgens being made to adrenal cortex that get converted to estrogens so there is still some source of estrogen in body

Question 9

How is release of androgens controlled?

Answer 9

• CRH released from hypothalamus
• ACTH release from ant pituitary
• stimulates reticularis to release androgens
• accounts for 5% of androgens in body
• no negative feedback
• cortisol is the hormone that is shutting this system down by negative feedback

Question 10

What is the function of adrenal medulla?

Answer 10

• modified sympathetic ganglia (post ganglionic neurons of symp nervous system)
• turn into epithelial cells
• put product into bloodstream
• direct neuronal connection during symp response and catecholamine release right into blood
• nerve impulses to sympathetic centres in spinal cord then to splanchnic nerve which innervates medulla
• mostly secretes epinephrine (20% norepinephrine)
• EP stimulates alpha and beta receptors (alpha get vasoconstriction, beta increases rate of contraction of heart)
• NE preferentially stimulates alpha 1

Question 11

How does the stress response occur?

Answer 11

1. Alarm phase (fight or flight): EP released from adrenal medulla, cortisol released from adrenal cortex (mediated by sympathetic nervous system and at same time adrenal cortex releases cortisol- this takes minutes-hours to have effects)
2. Adaptation: cortisol is elevated while adapting to stressors (lipolysis, protein, catabolism, gluconeogenesis), can adapt to the stress (cope with it and this system will shut off- a lot of it is perceived stress) or resist (maintain heightened energy state), cortisol suppresses functions that are non essential in a fight or flight response (eg. SLUDD, reproduction, growth, immunity)
3. Exhaustion: can lead to illness/death if you can’t eliminate or cope with the stressor

Question 12

What are stressors?

Answer 12

• thoughts, emotions (limbic system feeds down to hypothalamus)
• somatosensations (pain stimulates hypothalamus)
• hot or cold environments
• toxins, infections
• hemorrhage (decrease in BP)
• drop in blood glucose levels
• anything else that disrupts homeostasis (eg. acid-base)

Question 13

What are eustressors? What are distressors?

Answer 13

• good stress; helps body prepare for a challenge
• distressors: promote exaggerated stress response that does not go away and becomes detrimental and alters homeostasis (can lead to illness)
• force hypothalamus to respond
• eg. chronic pain, dented family car, etc.

Question 14

What is a short term vs long term stress reponse?

Answer 14

Question 15

What are causes of adrenal gland diseases?

Answer 15

• largely due to insufficient or excess cortisol
• less common are disorders of aldosterone hypersecretion or medullary hypersecretion (releasing too many catecholamines all the time)

Question 16

What is Cushing’s syndrome?

Answer 16

• excess cortisol
• issues with sugar homeostasis
• hyperglycemia
• source of glucocorticoids may be endogenous (ACTH-secreting tumour, adrenal adenoma)
• could be exogenous (glucocorticoid administration)
• if you have autoimmune disorder or really bad inflammation, cortisol could be helpful as a medication to suppress immune response like prednisone

Question 17

What is Addison’s disease?

Answer 17

• lack of cortical hormones
• cortisol and aldosterone
• adrenocortical insufficiency
• caused mostly by autoimmune disease which destroys adrenal cortex or Ab’s block ACTH-R (prevents activity of ACTH)
• also caused by primary adrenal dysfunction, or secondary lack of CRH or ACTH, withdrawal syndrome (occurs in person who is receiving glucocorticoid medication- when they are on medication hypothalamus and pituitary went to sleep because there were high cortisol levels and takes them time to wake up)

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Question 18

What is congenital adrenal hyperplasia?

Answer 18

• adrenal cortex because of enzyme deficiency starts to grow really big and can’t create cortisol or aldosterone
• can only create androgens
• causes phenotypic changes
• rare, recessive, autosomal disorder
• pituitary hormones will kick in resulting in excess androgen production (detects low levels of cortisol so CRH and ACTH release happens but cortisol can’t be produced)
• medications that can deal with the enzyme deficiency and the pituitary will stop trying to overdrive the adrenal glands
• body still does not have natural hypothalamic adrenal pituitary axis to deal with stressors

Question 19

In the case of an adrenal adenoma that secretes cortisol, what would you expect the plasma ACTH levels to be?

Answer 19

-ACTH levels would be low as pituitary senses elevated cortisol

Question 20

What are symptoms of Cushing’s syndrome?

Answer 20

• breakdown of muscle protein (atrophy)
• redistribution of body fat (stores in face “Moon face” or between shoulders “buffalo hump”)
• weight gain (central obesity, hyperlipidemia, skin striae)
• hypertension
• hyperglycemia
• osteoporosis (maintaining bone density is energy intensive)
• susceptibility to infection
• poor wound healing (suppressing immune cells that aid in tissue repair)

Question 21

If cortisol levels are low, what would you expect to happen to CRH and ACTH levels?

Answer 21

• they would go up
• sense low cortisol so they start releasing CRH and ACTH

Question 22

Aldosterone is controlled by RAA pathway- what would happen to serum renin levels with low aldosterone?

Answer 22

-kidneys will secrete lots of renin

Question 23

What are symptoms of Addison’s disease?

Answer 23

• loss of glucocorticoids (cortisol) leads to weight loss, hypoglycemia, weakness (muscles need glucose), lack of appetite
• loss of aldosterone leads to decreased serum Na levels (hyponatremia, hypothalamus causes salt cravings), dehydration (water follows Na loss from kidney), hypotension, increased serum K+ (hyperkalemia- aldosterone tells kidneys to kick out excess potassium), cardiac arrhythmias (excess K+ alters RMP- leak channels don’t work very well so K+ outside cell is pretty high, RMP gets closer to threshold so any little perturbance can lead to action potential development in heart)

Question 24

What occurs to create hypersecretion of androgens?

Answer 24

• cholesterol is used to make intermediates and same enzyme converts those to aldosterone and cortisol
• issue in congential adrenal hyperplasia is that enzyme gene is mutated
• get lots of androgens
• deficiency drives pituitary to produce more ACTH

Question 25

What are signs and symptoms of congenital adrenal hyperplasia in males? How is it treated?

Answer 25

• premature development of male characteristics
• early appearance of pubic and armpit hair and muscle development
• severe illness within days of birth due to loss of salt (hyponatremia, hyperkalemic)
• injections of glucocorticoids (dexamethasone)
• salt therapy

Question 26

What are signs and symptoms of congenital adrenal hyperplasia in females?

Answer 26

• virilization may occur
• takes female phenotype and turns it into male phenotype
• hirsutism (facial hair)
• clitoral enlargement
• deepened voice
• ammenorrhea (stalls follicular development)
• breast atrophy
• acne