Physiology - Hormonal Regulation of the Adrenal Cortex Flashcards Preview

G2 2017-2018 > Physiology - Hormonal Regulation of the Adrenal Cortex > Flashcards

Flashcards in Physiology - Hormonal Regulation of the Adrenal Cortex Deck (53)
Loading flashcards...
1
Q

What does ACTH stimulate in the end organ? What is the end organ?

A

Cortisol release by specific cell types in the adrenal cortex

2
Q

What is the effect/main role of cortisol on the body?

A

Hyperglycemic hormone causing blood glucose to rise during stress response to ensure that organs called upon have the metabolic substrates necessary

3
Q

What hormone has a similar structure to cortisol? What does this mean?

A

AldosteroneCortisole can also bind mineralcorticoid receptors on kidney tubule to work with aldosterone synergistically

4
Q

What is aldosterone generated by?

A

The renin-angiotensin-aldosterone system: produced by the outer section (zona glomerulosa) of the adrenal cortex in the adrenal gland

5
Q

What is the function of aldosterone? How does it work?

A

It binds the mineralcorticoid receptors on the kidney tubule to promote sodium reabsoption and potassium secretion

6
Q

What is the effect of cortisol on hypo and pit?

A
  • CRH- ACTH
7
Q

Describe the general cell composition of the adrenal cortex.

A

Heterogenous cell composition organized in layers

8
Q

Describe the detailed cell composition of the adrenal cortex with the function of each layer.

A
  1. Connective tissue capsule2. Zona glomerulosa: where aldosterone is synthesized3. Zona fasciculata: where cortisol is made4. Zona reticularis: where androgens (DHEA and androstenedione) are synthesized 5. Medulla: irrelevant for this lecture
9
Q

What is the precursor to all steroids?

A

Cholesterol

10
Q

What are the 2 functions of 21-α-hydroxylase?

A
  1. Converts progesterone to 11-deoxycorticosterone (on aldosterone synthesis path)2. Converts 17-α-hydroxyprogesterone to 11-deoxycortisol (on cortisol synthesis path)
11
Q

What are the 2 functions of 11-β-hydroxylase?

A
  1. Converts 11-deoxycorticosterone tocorticosterone (on aldosterone synthesis path)2. Converts 11-deoxycortisol to cortisol
12
Q

What happens when either 21-α-hydroxylase or 11-β-hydroxylase does not work properly? Would there be negative feedback back to hypo and pit?

A

The precursor substances are shunted to the androgenic pathway –> excess DHEA and androstenedione –> virilizing effects especially in womenNo negative feedback so even more DHEA and androstenedione

13
Q

What is virilization?

A

Masculinization is the biological development of sex differences

14
Q

What are the 8 factors that stimulate ACTH secretion by the anterior pituitary and CRH secretion by the hypothalamus?

A
  1. Cortisol decrease (either because of adrenolectomy or metyrapone)2. Sleep-wake transition3. Stress4. Psychiatric disturbance (anxiety/depression)5. ADH6. β-adrenergic agonists7. α-adrenergic antagonists8. Serotonin
15
Q

What is the effect of the drug metyrapone?

A

Blocks 11-β-hydroxylase => cortisol/aldosterone decrease

16
Q

What are the 6 stressors that increase ACTH secretion by the anterior pituitary?

A
  1. Hypoglycemia2. Anesthesia3. Surgery4. Trauma5. Infection6. Pyrogens
17
Q

What is a pyrogen?

A

Substance, typically produced by a bacterium, that produces fever when released into the blood

18
Q

Why does ADH stimulate ACTH secretion by the anterior pituitary?

A

Because there is a subpopulation of ADH-secreting neurons inthe paraventricular nucleus (the parvocellular neurons) that are co-localized with CRH-secretingneurons. Therefore CRH and ADH are co-secreted into the portal vessels.

19
Q

What are the 4 factors that inhibit ACTH secretion by the anterior pituitary? Which one is the strongest factor?

A
  1. Cortisol increase: STRONGEST FACTOR2. ACTH3. Opiates4. Enkephalins
20
Q

What 4 effects does cortisol have at baseline levels?

A

Anabolic effects: 1. Glucose being stored as glycogen 2. Gluconeogenesis3. Glucose being converted to lipids 4. Proteins being synthesized

21
Q

What 4 effects does cortisol have at high concentration?

A

Metabolic effects: 1. Glycogenolysis in liver2. Inhibition of glucose uptake and glycolysis in resting muscles, lymphoids, adipose tissue, connective tissue 3. Increase in proteolysis in muscles, skin, and other tissues to liberate AAs in circulation for gluconeogenesis 4. Lipolysis to liberate free FAs to be converted to glucose OR ketones for energy (alternate source for the brain) and inhibition of lipid storage

22
Q

Explain how the RAA system works. 6 steps

A
  1. Drop in blood pressure/volume/sodium OR increase in potassium 2. Juxtaglomerular apparatus (JGA) in kidney releases renin into circulation3. Renin converts angiotensinogen to angiotensin I4. Angiotensin-converting enzyme (ACE) in vascular endothelium converts angiotensin I to angiontensin II 5. Angiotensin II binds to receptors on cells in the ZG of adrenal cortex to stimulate aldosterone production6. Aldosterone acts on kidney tubules to stimulate sodium reabsorption to raise BP and potassium excretion to inhibit stimulation of aldosterone
23
Q

What is the only organ in the body that sees 100% of the cardiac output?

A

The lungs

24
Q

What is the effect of high blood potassium on the adrenal cortex?

A

Stimulates aldosterone secretion

25
Q

What causes Cushing’s disease? 2 symptoms? 2 prolonged effects? Effect on water retention?

A

Caused by pituitary adenoma that releases excess ACTH: high cortisol levels Symptom: purple striae on skin (similar to stretch marks) due to skin proteolysis of collagen and lipolysis in hips, thighs, and butt (not uniform) causing a redistribution of fat Prolonged effects: insulin resistance and Type 2 diabetes because constant hyperglycemia and free FAs also trigger insulin causing a redeposition in fat store in belly and back of neck (buffalo hump)Water retention increase: moon facies (puffy and round)

26
Q

What can excessive water retention lead to?

A

Hypertension

27
Q

What causes Cushing’s syndrome? Symptoms? Treatment?

A

Cause is NOT pituitary adenoma but problem with adrenal gland (usually adrenal tumor)Symptoms: same as Cushing’s diseaseTreatment: adrenal gland removal

28
Q

How to diagnose Cushing’s disease vs syndrome?

A

Cushing’s disease: high ACTH and cortisol levels Cushing’s syndrome: low levels of ACTH and high cortisol levels

29
Q

What is congenital adrenal hyperplasia (CAH) caused by? 2 options. Most common one? What does this cause? Symptoms? Treatment?

A

Deficiency in 21-α-hydroxylase (more common) OR 11-β-hydroxylaseEffect: Steroid hormone precursors are shunted toward the androgenic branch of the pathway andcause excess production of DHEA and androstenedione + Low cortisol and low aldosterone: poor regulation of blood sugar and electrolyte balanceSymptoms: In women, you see virilization symptoms, suchas clitoromegaly (enlarged clitoris) and hirsutism (growth of excess body hair). Treatment: glucocorticoid and aldosterone replacement therapy, which also provides negative feedback to hypothalamic-pituitary-adrenal axis causing a decrease in androgens

30
Q

What can patients with very low cortisol experience in time of stress?

A

Vascular collapse: BP goes to 0, insufficient blood flow and nutrients to the brain, sometimes fatal

31
Q

What causes Addison’s disease? Treatment? Symptoms?

A

Autoimmune attack on adrenal cortex, which cannot produce cortisol nor aldosteroneTreatment: glucocorticoid and aldosterone replacement therapy Symptoms: high ACTH, low BP, low blood glucose levels, potential vascular collapse, and very tan skin (palms, feet soles, and gums)

32
Q

Why do Addison patients have very tan skin?

A
  1. Lack of cortisol causes ACTH levels to rise2. Breakdown of proopiomelanocortin (POMC) (to create ACTH) also produces α-melanocyte-stimulating hormone (α-MSH)3. α-MSH stimulates melanocytes in the skin to produce pigment in response to UV
33
Q

Where do most of the androgens in men come from?

A

Testes

34
Q

Where do most of the androgens in women come from?

A

Adrenal cortex

35
Q

Why is aldosterone important during the stress response?

A

To increase blood flow to organs who need glucose during the stress response

36
Q

How many AAs in ACTH?

A

39

37
Q

What is the prepropetide of ACTH?

A

Proopiomelanocortin = POMC

38
Q

What constitutes the first 13 AAs of ACTH?

A

α-melanocyte secreting hormone (α-MSH)

39
Q

What is beta-endorphin? What is its function?

A

An other product of POMC breakdownEndogenous opiate

40
Q

What is a common food supplement to boost testosterone levels?

A

DHEA

41
Q

What does DHEA stand for?

A

Dehydroepiandrosterone

42
Q

When does the single largest burst of cortisol blood levels occur? What is the purpose of this?

A

8 amEnsures blood glucose is ready to feed your organs when you wake up

43
Q

What are adrenergic receptors?

A

Sympathetic NS receptors that are G protein-coupled receptors and targets of the catecholamines, especially norepinephrine and epinephrine

44
Q

What is adrenaline?

A

Epinephrine

45
Q

Difference between alpha and beta adrenergic receptors?

A

Alpha receptors: stimulation and constriction of blood vessels, orgasms, pupil dilation, growthBeta receptors: relaxation and dilatation of blood vessels, heart rate increase, reduction of gut motility, dilation of lungs, insulin secretion

46
Q

What are enkephalins?

A

Breakdown product of POMC

47
Q

What kind of feedback loop is the one exerted by enkephalins on CRH/ACTH secretion?

A

Short-loop negative feedback

48
Q

What organ produces ACE?

A

Lungs!

49
Q

Does aldosterone negatively feedback on hypo and pit?

A

NOPE

50
Q

List the 7 molecules that result from the breakdown of POMC.

A
  1. Beta-lipotropin2. Gamma-lipotropin3. Beta-endorphin4. Beta-MSH5. ACTH6. Alpha-MSH7. CLIP
51
Q

Where are androgens produced?

A

Adrenal cortex

52
Q

What hormone is ACTH similar to? What does this mean?

A

alpha-MSH, so can bind to its receptors when in excess and cause tanning of skin

53
Q

Which zone of the adrenal cortex is the largest?

A

Zona fasciculata

Decks in G2 2017-2018 Class (45):