Adrenal Gland Anatomy and Physiology

Question 1

What are cortioids derived from?

Answer 1

Steroids

Derived from enzymatic modification of cholesterol

Question 2

Where are steroid enzymes location intracellularly?

Answer 2

Mitochondria and sER

Question 3

Are steroids permeable or impermeable?

Answer 3

Freely-permeable to membranes

Question 4

Can steroid enzymes be stored? Where

Answer 4

No. They are synthesised and immediately released

Question 5

Are steroids water soluble?

Answer 5

No

Question 6

What time of day is plasma concentration of steroid hormones highest?

Answer 6

Higher in the morning than at night (diurnal rhythm)

Question 7

How is cortisol circulated?

Answer 7

95% is bound to proteins

- mainly cortisol-binding globulin

Question 8

Where do the adrenal glands lie?

Answer 8

Between the superiomedial aspects of the kidneys and the diaphragmatic crura

Surrounded by connective tissue and perinephric fat

Question 9

What are the adrenal glands?

Answer 9

Endocrine glands

Question 10

What size and weight are the adrenal glands?

Answer 10

4-6cm

6-8geach

Question 11

How many arteries supply the adrenal glands and where do they branch of?

Answer 11

3

1. Superior suprarenal artery - from subphrenic artery
2. Middle suprarenal artery - from abdominal aorta near the SMA
3. Inferior suprarenal artery - from the renal artery

Question 12

Describe adrenal venous drainage

Answer 12

Medullary vein emerges from the hilum of each gland forming the suprarenal vein which goings:
IVC on the R
RV on the L

Question 13

Describe the nerve supply to the adrenal glands

Answer 13

1. Colic plexus
2. Thoracic splenchnic nerves

Act on the chromaffin cells in the adrenal medulla
- secrete (nor)adrenaline

Question 14

Describe the histological layout of the adrenal glands

Answer 14

Fibrous capsule
______
Outer Cortex

1. Zona glomerulosa
   - regulated by Ang II and K+
   - secretes mineralocorticoids (aldosterone) and glucocorticoids (cortisol)
   __
2. Zona fasiculata
   - regulated by ACTH
   - secretes mineralocorticoids (aldosterone) and glucocorticoids (cortisol)
   __
3. Zona reticularis
   - regulated by ACTH
   - secretes: androgens, DHEA, and DHEAs

\_\_\_\_\_
Inner medulla
- Chromaffin cells
- regulated by nerves: colic plexus and thoracic splanhnic nerves
- secretes: nor(adrenaline)

Question 15

List the adrenal androgens and where are they secreted from?

Answer 15

DHEA
Androstenedione
DHEA
DHEAs
Testosterone

• zone reticularis

Question 16

What areas secreted cortisol and aldosterone?

Answer 16

Zona glomerulosa and zona fasciculata

Question 17

Sources of cholesterol?

Answer 17

Diet into circulation

De novo via acetyl CoA

Question 18

What is the rate limiting step of cholesterol synthesis?

Answer 18

HMG-CoA Reductase enzyme

Question 19

What is the first enzymatic step of steroid hormone synthesis?

Answer 19

Cholesterol –> pregnenolone

Via mitochondria P450 enzyme

Question 20

What is the rate-limiting step of steroid hormone synthesis?

Answer 20

Transport of free cholesterol from cytoplasm to mitochondria by Steriodogenic Acute Regulatory Protein (StAR)

Question 21

Where does steroid synthesis take place?

Answer 21

Mitochondria

Question 22

What causes congenital adrenal hyperplasia?

Answer 22

21-hydroxylase deficiency
or
11-hydroxylase deficiency

Question 23

Where are steroid receptors found?

Answer 23

Nucleus

Question 24

How do steroid hormones act?

Answer 24

On nuclear receptors

Initiate transcription factors

Question 25

What are the domains of the steroid receptors?

Answer 25

A/B - N-terminal: domain controls which gene is activated
C - DNA binding domain
D - hinge-region - controls movement of the receptor to the nucleus
E - ligand binding domain: binds steroid
F - C-terminal domain

Question 26

Which domain on the steroid receptors do ligands bind?

Answer 26

E

Question 27

Which domain on the steroid receptors control which gene is activated?

Answer 27

A/B

Question 28

Describe steroid hormone MOA

Answer 28

1. Steroid hormones diffuses through plasma membrane
2. Binds to intracellular cytosolic receptor
3. Receptor-hormone complex enters the nucleus and binds to a glucotocoid response element (DNA sequence) in the 5’ flanking region of the target gene
4. Binding initiates gene transcription to produce mRNA
5. mRNA is translocate to protein which mediates the effect-target cell response

Question 29

What types of steroid receptors are there?

Answer 29

Glucocorticoid receptors (GR)
Mineralocoritocoid receptors (MR)

Question 30

Explains the distribution of steroid receptors

Answer 30

1. Glucocorticoid receptors (GR)
   - widespread
2. Mineralocoritocoid receptors (MR)
   - distal nephron
   - salivary glands
   - sweat glands
   - large intestine
   - brain
   - vascular tissue
   - heart

Question 31

Cortisol can bind to MR
and cortisol concentration is higher than aldosterone

What mechanism if used to protect MR from illicit occupation by glucocortocoids?

Answer 31

Enzyme: 11beta-HSD II

• Catalyses the conversion of cortisol (active) to cortisone (inactive)

Question 32

What is the inactive form of cortisol?

Answer 32

Cortisone

Question 33

How is cortisol converted to its inactive form?

Answer 33

Cortisone is its inactive form

Converted via 11b-HSDII

Question 34

What common food can inhibit the enzyme that converts cortisol to its inactive form

Answer 34

Inactive form: cortisone
Converted by 11b-HSD II

Can be inhibited by liquorice

Question 35

List effects of cortisol

Answer 35

• stimulates gluconeogenesis in liver
• permissive effect on glucagon
• stimulates lipolysis in adipose tissue = FA is released
• acts as insulin antagonist and suppresses the release of insulin
• increases breakdown of skeletal muscle protein
• immune suppression
• changes mood

Question 36

List actions of aldosterone

Answer 36

• Na+ reabsorption + H2O

- K+ and H+ excretion

Question 37

Where does aldosterone act?

Answer 37

MR in the principal cells of the DCT and CD in the kidney

Question 38

What does aldosterone do in the kidney?

Answer 38

• upregulates and activates basolateral Na/K-ATPases
• upregulates ENaC - increasing apical membrane permeability to Na
• stimulates K+ secretion into lumen
• stimulate H+ secretion via H+-ATPase in the intercalated cells of the CD

Question 39

Describe aldosterone MOA in the kidney

Answer 39

1. aldosterone bines to MR
2. initiates cascade acting on the nucleus
3. transcribes hormonal response elements
4. mRNA transcription of ENaC, pumps etc…
5. Na+ reabsorption + H2O
   + K+excretion

Question 40

How is adrenal steroid production regulated

Answer 40

1. Cortisol and androgens - HPAA

2. Aldosterone - RAAS and [K+]plasma

Question 41

What is ACTH

Answer 41

Andogencoricotrophic hormone

Question 42

What kind or hormone is ACTH

Answer 42

39AA peptide

Question 43

What is ACTH formed from?

Answer 43

POMC

Pro-opiomelanocortin

Question 44

What hormones are secreted from POMC?

Answer 44

ACTH
gamma-MSH
Endorphins (lipotropins)

Question 45

What hormones trigger europhic effects and where are they released from?

Answer 45

B-endophin and met-enkephatin

POMC

Question 46

What’s the function of gamma-MSH?

Answer 46

Controls melanin pigmentation of the skin

Question 47

What activates RAAS?

Answer 47

Major regulator of aldosterone production

• activated in response to decrease in BP and [Na+]plasma

Question 48

What is the direct effects of AngII

Answer 48

Vasoconstriction

Question 49

What is the indirect effects of AngII?

Answer 49

aldosterone + thirst

Question 50

What does RAAS do to BP

Answer 50

Increases BP

Question 51

What is the RAAS pathway?

Answer 51

1. decrease in BP and [Na+] detected in JG-apparatus
2. renin released from juxtaglomerular cells
3. renin converts angiotensinogen to AngI
4. ACE converts Ang I to Ang II
5. Ang II acts on adrenal cortex to secrete aldosterone
6. aldosterone acts on kidneys to retain sodium and water

Question 52

How does Ang II act on the adrenal medulla?

Answer 52

1. GPCR
2. Cascade: PLC-PIP2-IP3-DAG
3. Increased IC Ca2+
4. Transcription of StAR (Steriodogenic Acute Regulatory Protein)
5. Cholesterol uptake into mitochondria
6. Biosynthesis

Question 53

What blood biochemical change apart from sodium decrease can trigger aldosterone?

Answer 53

increase [K+]ec

Question 54

What is primary aldosteronism?

Answer 54

Increase levels of aldosterone

Question 55

What does primary aldosteronism lead to (biochemically)?

Answer 55

• increase Na reabsorption = hypernaturaemia
• volume expansion
• hypokalaemia
• alkalosis
• low plasma renin activity
• hypertension

Question 56

What can cause primary aldosteronism?

Answer 56

• aldosterone-producing adenoma (unilateral)

- bilateral adrenal hyperplasia

Question 57

What syndrome results from increased levels of cortisol?

Answer 57

Cushing’s Syndrome

Question 58

What are the typical features seen in Cushing’s syndrome

Answer 58

• weight gain
• moon face
• increased BP
• red raddy face
• buffalos hump
• stomach strech striae

Question 59

What are the cause of Cushing’s syndrome?

Answer 59

ACTH-producing pituitary adenoma

Question 60

What, apart from pituitary adenoma, can cause hypersecretion of cortisol?

Answer 60

Cortisol-producing adrenal adenoma

or
Iatrogenic

Question 61

What is Addison’s disease?

Answer 61

Primary adrenal insufficiency or hypoadrenalism
Autoimmune
Inability of adrenal gland to make cortisol and aldosterone

Question 62

What are the common clinical characteristics of Addison’s?

Answer 62

Fatigue
Cachexia
Low mood
Loss of appetite 
Weight loss
Increased thirst
Pigmentation

Question 63

Give a few examples of what can cause primary adrenal insufficiency

Answer 63

Autoimmune (Addison’s)
TB
Viral
Malignancy

Question 64

What is primary adrenal insufficiency

Answer 64

Inadequate adrenocortical function

Inability to increase steroid hormone production

Question 65

What are the characteristics of congenital adrenal hyperplasia

Answer 65

• ambiguous genitalia
• precocious puberty
• hirsutism
• amenorrhea
• mentrural irregularities

Question 66

What kind of disease is congenital adrenal hyperplasia?

Answer 66

Autosomal recessive
lack of 21-hydroxylase activity
deficiency of cortisol and aldosterone
increased adrenal androgens

Question 67

What biochemical feature would you expect in congenital

adrenal hyperplasia

Answer 67

Increase ACTH - in an attempt to compensate but this drives cholesterol biosynthesis down 17-hydroxylase pathways generating increased androgens

Decreased cortisol and aldosterone

Question 68

How is secondary adrenal insufficiency caused?

Answer 68

• lack of ACTH stimulation
• iatrogenic (excess exogenous steroid)
• pituitary/hypothalamic disorders

Question 69

What is Addison’s disease?

Answer 69

Commonest cause of primary adrenal insufficiency

- autoimmune destruction of adrenal cortex

Question 70

How much of the adrenal cortex would be destroyed in Addison’s before patient is symptomatic?

Answer 70

> 90%

Question 71

What are the common clinical features of Addisons

Answer 71

Anorexia
Weight loss
Fatigue/lethargy
Dizziness
Decreased BP
Abdominal pain
Vomiting
Diarrhorea
Skin pigmentation

Question 72

Why do you get an increased ACTH in Addison’s?

Answer 72

Amplified negative feedback of cortisol due to lack of cortisol production

Question 73

Dx Addison’s

Answer 73

• Suspicious biochemistry: decreased Na+, increased K+, hypoglycaemia, acidosis
• Impair cortisol response to synthetic ACTH (syn-ACTH-en)
• Elevated ACTH causes skin hyperpigmentation (POMC)
• Adrenal autoantibodies
• Increased renin
• Decreased Aldosterone

Question 74

What is the biochemistry of addisons

Answer 74

• Suspicious biochemistry: decreased Na+, increased K+, hypoglycaemia, acidosis

Question 75

Describe the synthetic ACTH test

Answer 75

Impaired cortisol response test

synACTHen
- measure plasma cortisol before and 30minutes after IV injection

Normal (cortisol levels):

• baseline: >250nmol/L
• post-ACTH >480nmol/L

Question 76

Why is there hypotension and electrolyte imbalance in Addisons

Answer 76

Mineralocorticoid deficiency

• Decrease aldosterone = Decreased Na+ and increase K+
• Decreased water reabsorption = hypovolaemia = hypotension

*dehydration is the most common cause of orthostatic hypotension

Question 77

What causes hyperpigmentation in Addisons?

Answer 77

Increased ACTH
Increased POMC
POMC = pro-opiomelanocortin

Question 78

What causes hypoglycaemia in Addisons

Answer 78

Decreased cortisol

Question 79

What natural conditions could give rise to cortisol?

Answer 79

Pregnancy and contraceptive pill

Question 80

Tx Addisons

Answer 80

• Hydrocortisone (cortisol replacement)

- Fludrocortisone (aldosterone replacement)

Question 81

What clinical feature distinguishes between primary and secondary adrenal insufficiency?

Answer 81

In secondary there is no increase in ACTH (there’s a lack of ACTH) so there is no hyperpigmentation (POMC)

And during an aldosterone production test, aldosterone is working as its regulated by RAAS

Question 82

What are the causes of Cushing’s syndrome?

Answer 82

MAIN: oral steroids

Endogenous causes are rare
- 80% are due to increase ACTH - pituitary adenoma (Cushing’s disease)

• ACTH-dependent
  1. pituitary adenoma
  2. ectopic ACTH - carcinoid/carcinoma
  3. Extopic CRH
• ACTH-independent: decreased ACTH due to negative feedback
  1. adrenal adenoma
  2. adrenal carcinoma
  3. nodular hyperplasia

Question 83

Why is random plasma cortisol not an effective way to Dx Cushing’s?

Answer 83

May be misleading as illness, time of day, and stress (e.g. venepuncture) influence cortisol levels

Question 84

How would you Dx Cushing’s?

Answer 84

Step 1: establish cortisol excess

1. Overnight dexamethasone suppression test
   - 1mg oral steroid
   - if normal: should decrease ACTH and cortisol due to negative feedback
   - in Cushing’s: No cortisol is suppressed
2. 24-hour urinary free cortisol (alternative)
   - excess cortisol will exceed availability plasma capacity of plasma binding globulin (cortisol binding globulin)
   - unbound cortisol is filtered freely into urine
   - either 24hr assessment or cortisol:Cr ratio
3. Midnight salivary test of cortisol
   - 11pm-midnight
   - in normal people cortisol level is very low at this time
   - in cushings it is very high due to loss of circadian rhythm

Step 2: Establish the source of cortisol excess

1. undetectable ACTH
   - adrenal CT = positive adrenal adenoma/carcinoma
2. normal/high ACTH
   - do CRH stimulation test
   a) no change in ACTH = CT chest/abdominoplevic region = actopic ACTH
   b) exaggerated rise in ACTH = pituitary MRI = adenoma

Question 85

Tx Cushing’s Syndrome?

Answer 85

1. medical
   - inhibit cortisol production (Metyrapone)
2. Surgical
   - Trans-sphenoidal pituitary surgery
   - laproscopic adrenalectomy
   - excise ATCH source

Question 86

What is the 2nd commonest cause of hypertention?

Answer 86

Primary aldosteronism

Question 87

What causes primary aldosteronism?

Answer 87

Single or bilateral adrenal adenoma

Question 88

Dx primary aldosteronism

Answer 88

1. biochemistry:
   - increase aldosterone
   - decrease renin
   - decreased K+
   - increased Na+
2. suppression test
   - IV saline
   - attempt to suppress aldosterone
3. Adrenal CT

Question 89

Management primary aldosteronism

Answer 89

1. Surgical
   - adrenal adenoma: unilateral laparoscopic adrenalectomy
   - cures hypokalaemia
   - cures hypertension (30-70% cases)
2. Medical
   - in bilateral adrenal hyperplasia
   - MR antagonist - spironolactone
   - amiloride (inhibit ENaC)

Question 90

What is phechromocytoma?

Answer 90

Catecholamine-secreting tumours of the adrenal medulla

Question 91

What is the clinical consequence of phechromocytoma?

Answer 91

Hypertension
Headaches
Palpitations
Pallor
Sweating

Question 92

Dx phechromocytoma

Answer 92

• Measure urinary catecholamines and metabolites

- CT adrenals

Question 93

Tx phechromocytoma

Answer 93

alpha1 +/- beta1 antagonists