MODULE 1: endocrinology

Question 1

role of hypothalamus

Answer 1

• regulates response to external environment (senses)
• regulates response to internal environment (extra/intracellular levels)
• regulates behaviour (reproductive, feeding, rage)
• maintains homeostasis (body temp, metabolism, etc)

Question 2

cells/hormones in the anterior pituitary gland

Answer 2

1. thyrotrophs –> thyroid stimulating hormone (TSH) –> thyroid gland
2. corticotrophs –> ACTH –> adrenal cortex
3. somatotrophs –> growth hormone (GH) –> liver and other tissues
4. gonadotrophs –> LH and FSH –> gonads
5. lactotrophs –> prolactin (breast)

Question 3

capillaries and where they’re found:

1. continuous
2. fenestrated
3. sinusoidal (discontinuous)

Answer 3

1. continuous
   - endothelial cells compact to form one cell to encompass capillary wall
   - very common
2. fenestrated
   - larger gaps between cells
   - more leaky than continuous
   - allows easy passage in/out of circulation
   - found in anterior pituitary
3. sinusoidal (discontinuous):
   - very large gaps between cells
   - found in liver

Question 4

hormone release from anterior pituitary

RF and RIFs of ant/ pituitary hormones

Answer 4

• releasing factors (neurohormones) released at median eminence (base of hypothalamus) into portal veins
• travel down capillary stalk to anterior pituitary
• act on target cells to stimulate synthesis and secretion of hormones
• RFs rapidly metabolised

1. TSH
   RF = TRH
   RIF = none
2. ACTH
   RF = CRH
   RIF = ?
3. GH
   RF = GHRH
   RIF = somatostatin
4. LH + FSH
   RF = GnRH
   RIF = GnIH
5. prolactin:
   RF = ?
   RIF = dopamine

Question 5

GH signalling

Answer 5

GH signals through JAK/STAT pathway. GH receptors found in most tissues

• receptor activated when GH binds to two receptor arms
• JAK2 activated then phosphorylated
• JAK2 then phosphorylates part of receptor
• conformational change –> STAT molecules bind
• STAT molecules phosphorylated –> move to nucleus

Question 6

spontaneous prolactin secretion from lactotrophs

Answer 6

occurs in absence of dopamine

1. change in MP
2. VG Ca2+ channels open –> calcium influx
3. increase in intracellular calcium causes vesicle secretion = endocytosis of prolactin

upstream, cAMP very important in pathway

1) activation of AC
2) convert ATP to cAMP
3) cAMP cellular messenger –> membrane depolarisation

Question 7

how does dopamine act to prevent prolactin secretion from lactotrophs?

Answer 7

dopamine D2 receptor (GPCR) turns off AC therefore inhibits cAMP production

results in hyperpolarisation of cell, less spontaneous depolarisation and calcium influx = less prolactin release

inhibits:

1) cyclin cAMP
2) inhibits depolarisation
3) inhibits calcium influx

Question 8

milk ejection from breat

Answer 8

prolactin targets alveolar epithelial cells in breast

prolactin pushes milk into lumen of epithelial cells

alveolar epithelial cells are surrounded by myoepithelial cells

oxytocin causes contraction of these myoepithelial cells to eject milk from lumen

Question 9

PRL receptor signalling (non-lactating)

Answer 9

prolactin binds to dimer of receptor (binds to both arms)

activates JAK2 enzyme by phosphorylation

activates intracellular domains of receptor i.e. tyrosine residues

STAT 5 molecules dock as phosphorylated sites

JAK 2 then phosphorylates STAT 5

STAT 5 forms dimers and enters nucleus

STAT acts as TF: bind to promoter region on genes to activate transcription

Question 10

regulation of prolactin levels

Answer 10

regulated by short loop negative feedback

dopamine constantly released to maintain low levels of prolactin in non-lactating individual:
- inhibits both synthesis and secretion

tyrosine hydroxylase is a rate-limiting enzyme which produces dopamine

high prolactin = JAK/STAT pathway = switch on tyrosine hydroxylase = increased dopamine = supress prolactin

in a lactating individual, the negative feedback loop is disrupted
sucking stimulus = neural feedback to hypothalamus = less dopamine released = more prolactin = milk production/release

Question 11

PRL receptor signalling (lactating)

Answer 11

prolactin binds to receptor as normal but JAK/STAT pathway does not occur

no up-regulation of tyrosine = hydroxylase = no additional dopamine

SOCS = suppressors of cytokine signalling
CIS = prevents STAT binding
SOCS 1 = prevents JAK phosphorylation
SOCS 3 = “ “ also prevents STAT docking
SOCS 2 = targets whole receptor for degradation

Question 12

hormones in posterior pituitary gland

Answer 12

2 main hormones:

• vasopressin / anti-diuretic hormone (ADH)
• oxytocin

both peptides with 9 aa residues

hormones expressed in paraventricular nucleus (PVN)
supraoptic nucleus (SON)

travel down axons to reach posterior pituitary

Question 13

vasopressin / ADH action and regulation (general)

Answer 13

actions:

• decreases water excretion in kidneys
• vasoconstriction –> increase blood pressure

regulated by:

• concentration in ECF
• blood volume i.e. stretch receptors in heart send neural feedback to hypothalamus to control ADH neurones (switch off = more urine loss)

Question 14

oxytocin action and regulation

Answer 14

actions:

• parturition: stimulates contraction of uterine smooth muscle
• lactation: milk ejection during breastfeeding due to contraction of smooth muscle

regulated by:

1) pressure of baby in birth canal
2) sucking baby
- increases mRNA production in SON and PVN
3) oestrogen up-regulates mRNA transcription of oxytocin (and prolactin)
4) fear/anxiety suppresses oxytocin

Question 15

oxytocin cell signalling pathway

Answer 15

oxytocin binds to oxytocin receptor (GPRC - Gq)

Gq activates phospholipase C (PLC)

PLC produces IP3

IP3 moves through cytoplasm and binds to receptors on SR/ER

causes calcium release from SR/ER

calcium facilitates actin myosin cross bridge formation

results in muscle contraction and milk ejection