Pituitary, Receptors, ADH

Question 1

Order of acquired loss of anterior pituitary function

Answer 1

GH, LH/FSH, TSH, ACTH, and PRL.
Go look for the anterior pituitary
Go look for the adenoma please

Question 2

Causes of hypopituitarism

Answer 2

9 I’s

Invasic
Idiopathic
Infection
Infiltrative
Infarction
Injury
Immunologic
Iatrogenic
Isolated

Question 3

Hypothalamus comes from what 2 neurons

Answer 3

Hypophyseotropic neurons
PVN & Arcuate N
(ant pit)

Magnocellular neurons
PVN and SON
(post pit)

Question 4

how is ant pit formed

Answer 4

Invagination of Rathke’s Pouch (ectoderm)

Question 5

what is Pars Intermedia

Answer 5

boundary between anterior & posterior – remnant of Rathke’s Pouch

Question 6

how is post pit formed

Answer 6

Invagination of ventral HT & 3rd ventricle
(ectoderm)

Question 7

what ant pit hormones DO NOT bind to Protein coupled receptor

Answer 7

Growth hormone
Prolactin

Question 8

what simulates/inhibits GH

Answer 8

GHRH stimulates
somatostatin inhibits

Question 9

what simulates/inhibits TSH

Answer 9

TRH stimulates
somatostatin inhibits

Question 10

what simulates/inhibits PRL

Answer 10

dopamin inhibits

TRH and Oxytocin stimulate

Question 11

what simulates/inhibits ACTH

Answer 11

CRH and AVP stimulate

Question 12

what does TRH simulate

Answer 12

TSH
PRL

Question 13

what does somatostatin inhibit

Answer 13

GH
TSH

Question 14

what does dopamine inhibit

Answer 14

PRL

Question 15

what kind of hormones are TRH, CRH, GHRH, GnRH

Answer 15

peptides

Question 16

what kind of hormones are the following hormones:

ACTH:

LH, FSH, TSH:

GH, PRL:

Answer 16

ACTH: Peptide

LH, FSH, TSH: Glycoproteins

GH, PRL: Protein

Question 17

in GPCR what does Gsα do

Answer 17

stimulates AC, makes PKA

Adenyl cyclase

Protein kinase A

Question 18

in GPCR what does Gqα do

Answer 18

stimulates PLPC, makes PKC

Phospholipase C

Protein kinase C

Question 19

what hormones bind to Gsα

Answer 19

CRH
ACTH
TSH
GHRH
LH,FSH
CaSR
PTH

Question 20

what hormones bind to Gqα

Answer 20

TRH
GnRH
GHS-R
AVP (1b)
Oxy

Question 21

in GPCR what does Giα do

Answer 21

inhibits Adenyl cyclase

Question 22

what stimulates GH

Answer 22

Hormones:
GHRH
Ghrelin
Thyroid hormone
Estrogen
Dopamine (L-Dopa)
Glucocorticoids

Nutrition
Fasting
Hypoglycemia
- Glucagon
- Insulin
Protein/amino acids
- Arginine
Malnourished

Other:
Galanin
Alpha agonists (Clonidine)
Beta antagonists (Propranolol)
Exercise
Stress
Trauma
Sepsis

Question 23

What inhibits GH secretion

Answer 23

Hormones:
SRIF
IGF-1
Hypothyroidism
Hyperthyroidism
Glucocorticoids
Chronic admin
Deficiency

Nutrition:
Glucose
FFA

Other:
Depression
Emotional deprivation
β-adrenergy

Question 24

what hormones share a common Alpha unit and have a specific beta unit

Answer 24

TSH
LH
FSH
HCG

CαSβ
Common Alpha
Specific Beta

Rock the Casbah

Question 25

How does TSH work at receptor

Answer 25

Binds GPCR (Gsα) - PKA

This increases:
- Iodide influx into cell, efflux into colloid
- Synthesis of
—NADPH
—Hydrogen Peroxide
—Thyroglobulin (TG)
—TPO
-Uptake of TG into cell, release into plasma

Question 26

What stimulates TSH

Answer 26

TRH
Low T3
Leptin

Question 27

What are TSH Inhibitors

Answer 27

SRIF
T3
Glucocorticoids
Dopamine (acutely)
Fasting/Starvation
Certain cytokines

Question 28

Important genes for GnRH

Answer 28

KAL1
PROK2

FGF8
FGFR1
PROKR2
NELF
CHD7
WDR11
HS6ST1
SEMA3A

Question 29

What stimulates the release of GnRH

Answer 29

Stimulate release:
Leptin (LEP/LEPR)
Kisspeptin (KISS1/GPR54)
PC1
Norepinephrine
Glutamate

Question 30

what inhibits the release of GnRH

Answer 30

GABA
MKRN3
Opiate R
Estrogen
Through KISS1R
Progesterone
Decrease pulses
Testosterone
Through KISS1R
No E required

Question 31

PRL is Stimulated by?

Answer 31

TRH
T4, T3
Estradiol
VIP
FGF, EGF
Serotonin
GHRH (GHRH tumors – higher PRL)

Question 32

PRL is inhibited by?

Answer 32

Dopamine
Prolactin

Question 33

What is PRL role

Answer 33

Important in pregnancy
-Mammary
- Lactation if suckling
- No milk during pregnancy

Not primary for milk ejection
Oxytocin

Inhibits LH, FSH
(Secondary amenorrhea while breast feed)
- Inhibit Kisspeptin

Question 34

what stimulates vasopressin

Answer 34

Osmolality&raquo_space; Volume > Pressure
1% increase in Osm = AVP release
10-fold higher required for V/P

Pain, nausea = stimulation
- Glutamate

Question 35

Triple phase response to surgery/trauma
phases and lengths

Answer 35

DI
- Edema, “stunning”
- 12 hours – Few days

SIADH
- Necrosis, release AVP
- May last up to 2 weeks

DI
- Cell death
- Indefinite

Some don’t have the first phase and just start with SIADH

Question 36

what are pathologic causes of high prolactin

Answer 36

Prolactinoma (> 1000ug/dl)
Stalk Compression/dissection
Hypothyroidism
Surgery
Seizure
Head Trauma
Renal Failure
Hypothalamic mass
Prolactin receptor mutation

Question 37

what are physiologic causes of high prolactin

Answer 37

Pregnancy
Lactation
Stress
Coitus
Nipple stimulation
Sleep
Exercise

Question 38

what drugs can cause high prolactin

Answer 38

Dopamine antagonists (Parkinson meds)
Antipsychotics: Risperidone
Estrogen
Ranitidine
Anti epileptics: Phenytoin
Opiates
Anti depression: SSRIs, TCAs

Question 39

what is the cutoff for prolactinoma

Answer 39

> 200 ug/L

Question 40

what syndrome to think of with prolactinoma

Answer 40

MEN1

Question 41

What’s the most common presenting sx of prolactinoma

Answer 41

hypogonadism

Question 42

What workup should you do for hyperPRL

Answer 42

TFTs
Macroprolactin (less bioactive)

Question 43

treatment for hyperPRL

Answer 43

Dopa agonist
Bromocriptine
Cabergoline

OCP

Question 44

most common tumours affecting pituitary

Answer 44

1) craniopharyngioma
2) pituitary adenoma

germinoma

Question 45

craniopharyngioma
- what is it
- benign /maglinant

Answer 45

• remnant of Rathke pouch
• sellar tumour
• benign tissue but mass affect causes a lot of problems

most common type: Adamantinomatous

Question 46

Pituitary adenoma - most common pit def

Answer 46

PRL
ACTH

Question 47

Germinoma
most common association?

Answer 47

DI because of stalk

DI most common, followed by growth, puberty (may be precocious)

Question 48

Hypopituitarism following cranial XRT
Less than what is def unlikely?
Above what is def very likely?

what are other cutoffs?

Answer 48

<10 Gy
>50 Gy

≥22 Gy: GH, LH, FSH

≥30 Gy: TSH, ACTH

Question 49

What are infiltrative causes of hypo pit?

Answer 49

Sarcoidosis
LCH

Question 50

What are inflammatory causes of hypo pit?

Answer 50

Inflammatory:
Lymphocytic hypophysitis (autoimmune)

Question 51

How does undernutrition affect HP axes?

Answer 51

↑GH ↓IGF-1

↓ LH/FSH, ↓T,E

↑CRH, ↑ACTH, ↑Cortisol

↓ TSH, ↓ T4,T3, ↑rT3

↑AVP; ↑Ghrelin; ↓Leptin

Question 52

How does obesity affect HP axes?

Answer 52

↓ GH, Nl/low IGF-1 (↓ IGFBP1)
F: ↑LH/FSH ↓SHBG
M: ↓ LH/FSH ↓SHBG

↑24h UFC
↑11βHSD-1: ↑tissue cortisol

↑TSH (~5-10) ↑T3; T4

↑Leptin; Ghrelin: no↓

Question 53

what will Unmask central AI

Answer 53

T4
GH

Question 54

what will Unmask central DI

Answer 54

Cortisol
T4

Question 55

what will Increase GH release, response

Answer 55

T4
Estradiol, Testosterone

Question 56

where does vasopressin work and what does it do

Answer 56

acts on V2 receptors in principal cells in the collecting duct to stimulate the expression of intracellular water channels, aquaporin-2

Question 57

what is the posterior pituitary

Answer 57

not a gland but only the distal axon terminals of the hypothalamic magnocellular neurons that make up the neurohypophysis

Question 58

what deficiencies decrease water excretion

Answer 58

Hypothyroidism and adrenal insufficiency

when present may mask diabetes insipidus

Question 59

water deprivation test - how does it work

Answer 59

NPO overnight

on arrival:
- if dehydrated with high urine Osm - test over
- check weight, serum Na, serum Osm
- volume and osmolality of each voided urine is recorded
- measure weight

Question 60

how to end water de test

Answer 60

• give desmopressin
  End by measuring:
  Weight, vital signs
  Plasma sodium, plasma and urine osmolality, and urine specific gravity
  Obtain specimen for plasma ADH (HH in children with nephrogenic DI)

Question 61

etiologies of SIADH

Answer 61

Ectopic production of vasopressin by cancer
- small cell lung ca
- squamous cell carcinoma
- cancers of head and neck

Drug-induced SIADH

Disrupt neural pathways
- pulmonary disorders (pneumonia, TB, fungal infection, empyema, positive pressure ventilation)
- CNS disorders (tumour, infection, trauma, surgery, hemorrhage, inflammatory diseases)

AIDS
Marathon running or other strenuous exercise
Acute psychosis
Nephrogenic SIADH(extremely rare mutation of the V2 receptor producing chronic activation)

Question 62

criteria for SIADH

Answer 62

1) decreased plasma osmolality;
2) inappropriate concentration of the urine;
3) clinical euvolemia;
4) increased urinary sodium excretion;
5) and absence of other causes of euvolemic hypo-osmolality such as hypothyroidism, adrenal insufficiency, or diuretic use.

Question 63

what drugs cause SIADH

Answer 63

Desmopressin
Oxytocin
Anticonvulsants:
- Carbamazepine
- Valproic acid
- Lamotrigine
Chemo
- vincristine
- cyclophosphamide
- cisplatin
- ifosfamide
- methotrexate
Opiates
Ecstasy
SSRI
Tricyclic antidepressants
Monoamine oxidase inhibitors
Clofibrate
Chlorpropamide
NSAIDS
Nicotine
Amiodarone

Question 64

what are genetic causes of DI

Answer 64

V2 receptor mutation - Xlinked
Aquaporin-2 mutations – AR (can be AD)

Question 65

Atrial Natriuretic Peptide - what does it do
- where is it releases
- stimuli

Answer 65

Inhibits Aldosterone Secretion

Atria

increased volume,
increased Na,
neurologic inputs

Question 66

indications to end a water dep test

Answer 66

Urine osm >600 OR SG >1.020
Serum osm >300 OR Na >145
Wt. loss >5% bodyweight
Signs of volume depletion
Age appropriate period of water restriction exceeds rec’d max (6h<6mo, 8h <2y, 12h)

Central DI: a significant increase in urine osmolality to administered desmopressin
15-50%: partial DI
>100%: complete central DI

Question 67

Meds that Cause of nephrogenic DI

Answer 67

-Lithium (interfere with vasopressin-induced cAMP generation or action)
-Demeclocycline (interfere with vasopressin-induced cAMP generation or action)
-Amphotericin B
- ifosphamide
- orlistat

Question 68

non-pharm causes of nephrogenic DI

Answer 68

• Congenital X-linked DI: V2 receptor mutations
• Congenital Autosomal Nephrogenic DI: Aquaporin 2 Mutations
• Hypercalcemia
• Hypokalemia
• Ureteral Obstruction
• PKD
• Medullary cystic disease
• Sjogren Syndrome
• Sickle cell disease
• Bardet-Biedl (due to progressive CKD)
• Bartter syndrome

Question 69

Ddx polyuria

Answer 69

i. Central diabetes insipidus
1. Inherited: Vasopressin gene mutation (x-linked) or AR syndromic (Wolfram/DIDMOAD)
2. Infiltrative
3. Infectious
4. Trauma
5. Autoimmune/idiopathic

ii. Inherited nephrogenic diabetes insipidus (aquaporin 2 channel mutation or vasopressin 2 receptor mutation): resistance to vasopressin at the kidney
iii. Lithium: causes resistance to vasopressin in the kidney
iv. Pregnancy induced diabetes insipidus: extra vasopressin degradation enzyme present in the placenta
v. Hypercalcemia: Causes resistance to vasopressin
vi. Hyperuremia: Causes diuresis to clear the urea
vii. Primary polydipsia: excess water intake
viii. Diuretic abuse
ix. diabetes mellitus

Question 70

where are the V2 receptors

Answer 70

collecting duct of kidneys

Question 71

what will you see with DDAVP in water dec test with nephrogenic DI vs central DI

Answer 71

i. Nephrotic DI – urine osm <300 mOsm/kg and does not increase by >50% after DDAVP
ii. Complete central DI – urine osm increase by >50% after DDAVP

Question 72

tests for DI

Answer 72

i. Water deprivation test
ii. Copeptin measurement after hypertonic saline administration
iii. Hypertonic saline administration (looking for urine concentration afterwards)

Question 73

List 2 genetic causes of NDI and their inheritance pattern

Answer 73

i. Vasopressin V2 receptor mutation – X-linked
ii. aquaporin-2 mutation – AR or AD

Question 74

how to treat nephrogenic DI

Answer 74

i. Hydrochlorothiazide – causes natriuresis which produces some contraction of extracellular fluid volume, decrease GFR, decreased delivery of fluid to the collecting duct, and a decreased urine volume

ii. Indomethacin - has antidiuretic action that especially prolongs the action of vasopressin and administered DDAVP, it also decrease urine volume

Question 75

causes of infundibulum enlargement?

Answer 75

=pituitary stalk lesion

• Langerhans cell histiocytosis
• Lymphocytic hypophysitis
• ectopic neurohypophysis
• Rathke cleft cyst
• Pituitary adenoma
• Craniopahryngioma
• germinoma
• astrocytoma
• metastatic lymphoma
• ## neurosarcoidosis

Question 76

Anorexia nervosa - H-P effects

Answer 76

● Gonadal axis – low energy state resulting in hypothalamic amenorrhea (low LH/FSH)
○ Also have low androgen as well as estrogen
● Adrenal axis – chronically stimulated
○ hypercortisolemia
● Thyroid axis – nonthyroidal illness syndrome
○ Low total T3, high rT3 (due to increased peripheral deiodination of T4 to reverse T3)
○ Level of fT4 vary from normal to low-normal
○ TSH varies from normal to low-normal
● Growth – GH resistance due to chronic nutritional deprivation
○ GH high, Low IGF-1

i) Decreased BMD
ii) Hypoglycemia and hyperinsulin
- decreased leptin

Question 77

Causes of high prolactin

Answer 77

i) Pituitary adenoma: excess prolactin secreted from adenoma
iI) Primary hypothyroidism: TRH stimulates prolactin release
iii) Chronic renal failure and hepatic failure: impairied prolactin degradation and impaired central regulation
iv) Chest wall trauma: Neurologic mechanism, likely similar to suckling
v) Pituitary stalk trauma (tumour, TBI, LCH, acromegaly (other pituitary mass) etc.): when the pituitary stalk is damaged there is no longer dopamine from the hypothalamus coming in to inhibit prolactin release
vi) Macroprolactinemia: due to antibodies causing a large prolactin aggregate, which is not active so has no symptoms, but only increases bound prolactin
vii) Dopamine receptor blockers (metoclopramide, antipsychotics): stops dopamine from inhibiting prolactin release
viii) Estrogen: binds to estrogen receptor (response element) that controls the prolactin gene in the lactotrophs
ix) Pregnancy: increases estrogen

Question 78

pituitary adenoma - post op PRL goes up - what kind of tumour?

Answer 78

prolactinoma!!

b) What explains the pre-op and post-op findings?
Hook effect
c) What would you do to confirm the diagnosis?
Serial dilution

Question 79

Cause of hypogonadotropic hypogonadism

Answer 79

i) CNS tumors
ii) Genetic defects – see below
iii) Syndromes – PWS, Bardet-Biedl, CHARGE
iv) Midline defects – SOD, congenital hypopit
v) Chemotherapy or radiation
vi) Trauma
vii) Systemic illness – IBD, celiac, anorexia nervosa, bulimia, sickle cell, hemosiderosis, asthma, CF
viii) Endocrinopathies – DM, GH deficiency, Cushing syndrome
ix) Excessive exercise
x) Malnutrition
xi) post CNS infection

Question 80

single gene that can cause hypogonadotropic hypogonadism

Answer 80

i) Kallmann syndrome – KAL1, FGFR1
ii) Isolated hypogonadotropic hypogonadism – KAL1, GNRHR, GNRH1
iii) HPG Axis Development – DAX1, SF-1, HESX-1, LHX3, and PROP-1
iv) Obesity and hypogonadotropic hypogonadism - LEP, LEPR

Question 81

syndromes that can cause hypogonadotropic hypogonadism

Answer 81

Prader Willi
Bardet Biedl
CHARGE

Question 82

causes of function hypogonadotropic hypogonadism

Answer 82

systemic illness
- CF
- asthma
- IBD
- Celiac disease
- JA
- AN/ED
- Sickel cell
- Thalasemia
- Renal disease

endocrinopathies
- DM
- hypothyoidism
- hyperprolactinemia
- GHD
- Cushing

excess exercise

malnutrition

Question 83

adv/disadv for carbegoline
side effects

Answer 83

● Advantages: only administered once or twice a week, higher rates of success suppressing prolactin
● Disadvantage: risk of valvular heart disease, only at high doses used in Parkinson’s

-nausea
-vomiting
-heartburn
-dizziness
-dysmenorrhea
-fatigue
-constipation
-orthostatic hypotension
-fibrotic valvulopathy
-psychiatric disturbances (esp impulse control disorders)

Question 84

adv/disadv for bromocryptine
side effects

Answer 84

● Advantage: reduces adenoma size effectively
● Disadvantage: nausea (++), no as effective at lowering prolactin levels as cabergoline, given twice daily

-nausea
-orthostatic hypotension
-headache
-diarrhea
-abdominal pain
-anorexia
-fibrotic valvulopathy
-psychiatric disturbances (esp impulse control disorders)

Question 85

MRI features of neurodevelopmental problems that can cause pituitary deficiencies

Answer 85

i) Absent posterior pituitary
ii) Optic nerve hypoplasia
iii) Ectopic posterior pituitary
iv) Small anterior pituitary
v) Thin pituitary stalk
vi) Absent corpus callosum or septum pellucidum
vii) Holoprosencephaly
viii) Schizencephaly
ix) Cerebellar hypoplasia
x) Chiari malformation
xi) Empty sella

Question 86

features of SOD

Answer 86

optic nerve hypoplasia,
pituitary gland hypoplasia
midline abnormalities of the brain, including absence of the corpus callosum and septum pellucidum

Question 87

reasons to consider transphenoidal surgery in adenoma

Answer 87

-Resistant to treatment (ie prolactin not coming down)
-macroprolactinomas with no tumour shrinkage with treatment and/or cannot tolerate dopamine agonist therapy consider pre-pregnancy resection
-Cannot tolerate medications (++ side effects)
-compressive symptoms

Question 88

what kind of med is carbergoline

Answer 88

dopaminergic

Question 89

What is the first line treatment of hyper PRL?

Answer 89

Dopamine agonist therapy

Question 90

When considering stopping dopaminergic therapy what factors to consider?

Answer 90

○ Prolactin - needs to be normal
○ Duration of therapy - 2 years min
○ MRI finding - no evidence of adenoma
○ Initial prolactin level - the higher the PRL, the lower the chance of remission
○ Size of adenoma
○ Persistently symptomatic
○ Previously failed wean of therapy
○ (Menopause)

Question 91

during pregnancy, what is the risk of increase in macroprolactinomas and microprolactinomas?

Answer 91

Risk of increase in microprolactinomas is 31% in pregnancy
Risk of increase in microprolactinomas is <5% in pregnancy

Question 92

what is most common deficiency with holoprosencephaly

Answer 92

DI - 70% of individuals with holoprosencephaly have DI

Anterior pituitary deficiencies are less common

Question 93

after cranio tx, what is most likely H def, and how does it present?

Answer 93

growth hormone deficiency

normally presents with normal growth velocity and excess weight gain

The treatment of GH deficiency does not cause improved final height, since growth velocity is normal, but can help with weight loss and improving lean muscle mass.

Question 94

liver finding seen in hypopit

Answer 94

giant cell hepatitis

Question 95

G protein inactivating mutation syndromes

Answer 95

2. Pseudohypoparathyroidism type 1a (maternally inherited) and AHO (paternally inherited): inactivating
3. Pseudohypoparathyroidism type 1b: inactivating
4. Jansen metaphyseal chondrodysplasia: activating (PTH receptor)
5. Blomstrand chondrodysplasia: inactivating (PTH receptor)
6. Kallman Syndrome: inactivating (prokinectin receptor 2)
7. Nephrogenic DI: inactivating (Vasopressin 2)
8. Familial benign hypocalciuric hypercalcemia/severe neonatal primary hyperparathyroidism (if homozygous): inactivating (CaSR)
9. Familial hypocalcemic hypercalciuria: activating (CaSR)

Question 96

what hormone receptor is a nuclear receptor
where is it located

Answer 96

thyroid hormone receptor
on the nucleus

Question 97

what kind of receptor does GH bind to

Answer 97

d) JAK-STAT/Cytokine

Question 98

what hormones bind to a tyrosine kinase receptor

Answer 98

insulin, IGF-1

Question 99

where is the Steroid receptor located

Answer 99

in the cytoplasm bound to heat shock proteins;

when steroid ligand binds, HSP dissociates and nuclear translocation signal is exposed and initiates transport into nucleus where it will bind with the hormone response element, initiating transcription etc.

Question 100

how do steroid hormone receptors work

Answer 100

Inactive receptors in cytoplasm and nucleus
Bound to heat shock proteins (hsp)
Ligand binding causes dissociation of hsp and ability to bind to and activate DNA