Calcium homeostasis: hormonal regulation

Question 1

Extracellular Ca 2+ is required for

Answer 1

nerve function
muscle contraction
coagulation
skeletal mineralization
activation of most cell types (signalling pathways)

Question 2

Physiologically active fraction of total plasma calcium is that which is

Answer 2

unbound

Question 3

Forms of calcium in the blood plasma

Answer 3

15 % : complexes with anions eg lactate, sulfate. Diffusable, bu biologically inert
40%: bound to albumin (proteins)- non-diffusable, remains in BVs
45% : unbound ‘ionised’ fraction. Diffusable and biologically active

Question 4

which hormones control calcium homeostasis

Answer 4

calcitriol, calcitonon and parathyroid hormone

Question 5

PTH

Answer 5

Single chain PP

Derived from larger precursor peptides pre-proPTH and proPTH

Question 6

PTH produced by

Answer 6

chief cells of PT gland

Question 7

PTH half life

Answer 7

10 min

Question 8

Normal plasma level

Answer 8

10-55 pg/ml (picogram per ml)

Question 9

Regulation of PTH minute to minute

Answer 9

Ca 2+ acting via the G protein coupled calcium sensing receptor (CaSR)
Decr in ionized (free) plasma Ca2+ causes incr in PTH secretion

Question 10

Long term regulation of PTH

Answer 10

1,25(OH)2D3 acts directly on PTG to decr preproPTH mRNA

Question 11

Actions of PTH

Answer 11

increases plasma Ca 2+ ( and decr plasma PO4 3-) via kidney, bone and GI tract

Question 12

Kidney (PTH)

Answer 12

• stimulates Ca2+ reabsorption in the distal tubule
• Inhibits PO4 3- reabsorption in the proximal tubule
• Incr production of 1,25-(OH)2D3, which increases intestinal absorption of Ca and PO4

Question 13

Bone (PTH)

Answer 13

• stimulates rapid efflux (out) of Ca2+ from freely exchangeable calcium pool (an effect on osteocytes and bone-lining cells)
• Incr number and activity of osteoclasts (resorp) via action on osteoblasts

Question 14

GI tract (PTH)

Answer 14

-stimulates absorption of CA2+ and PO43-

effect delayed and indirect (incr renal production of 1,25 (OH)2 D3 )

Question 15

Summary of regulation of Calcium by PTH

Answer 15

Decr plasma CA triggers incr PTH secretion
Effect on bone: incr bone resorption
Effect on kidney: decr phosphate reabsorption, incr Ca reabsorption, incr hydroxylation of 25 OH vtamin D
Intestines: Incr Ca absorption (indirect via 1,25- dihydroxycholecalicferol)

Lead to incr in plasma Ca back to normal

Question 16

1a, 25- dihydroxyvitamin D3 -calcitriol

Answer 16

Abbrev to 1,25(OH)2D3
Active metabolite of vitamin D3
A secosteroid (open B ring)
Produced in kidney by: 1 alpha hydroxylation of 25(OH)D3

Bulk bound to vit D- binding protein (alpha-globulin) transcalferin

Only free fraction is active: half life 3-6h

Interacts with a nuclear receptor- member of the nuclear receptor superfamily

Question 17

1,25(OH)2D3 production

Answer 17

Vit D3 (cholecalciferol), whether dietary or synthesised in the skin, is rapidly converted in the liver to 25(OH)D3 (by action of 25-hydroxylase) then into 1,25 Dihydroxyvitamin D3 in the kidney by action of 1a-hydroxylase

Question 18

Plasma levels of 1,25(OH)2D3 are determined by

Answer 18

rate of conversion of 25(OH)D3 to 1,25(OH)2 D3 (activation)

Rate of conversion of 1,25 (OH)2D3 to 24,25 (OH)2 D3 (inactivation)

Question 19

Actions of 1,25 (OH)2D3

Answer 19

Increases plasma Ca via GI tract, bone and kidney

Question 20

GI tract (main) 1,25

Answer 20

Stimulates absorption of Ca (mainly in the duodenum)

Stimulates absorption of PO43- (jejunum and ileum)

Question 21

Bone 1,25

Answer 21

Incr number and activity of osteoclasts

Leads to incr in bone resorption and hence incr in CA2+ and PO43- release

Question 22

Kidney 1,25

Answer 22

faciltates Ca2+ resorption (DCT)

Question 23

Calcitonin (CT)

Answer 23

single chain pp
Selected by parafollicular C cells of thyroid gland
Secretion regulated by Ca2+(incr CA = incr CT secretion) and gastrin incr
Actions lead to a fall in plasma Ca- opposite effect to PTH

Question 24

Calcitonin action on bone

Answer 24

decr release of CA and PO4
Decr rapid efflux across the bone membrane
Acts directly on osteoclasts to inhibit resorption

Question 25

calcitonin action on kidney

Answer 25

decr tubular reabsorption of CA and PO4

Question 26

Calcitonin action on GI tract

Answer 26

no sigfig effect on Ca absorption in small intestine

Question 27

Exact physiological role of Calcitonin in humans

Answer 27

uncertain

• may protect against postprandial hypercalcaemia
• may protect female skeleton during pregnancy and lactation
• in pathological states may act to prevent excessive bone destruction

Question 28

overview of regulation of Ca homeostasis

Answer 28

high Ca, thyroid gland releases calcitonin, stimulates calcium deposition in bones

low Ca, PTGs release PTH, effect of PTH on bones, kidneys and GI tract results in higher Ca levels

Question 29

hypercalcaemia

Answer 29

associated with excess PTH
eg rumour of PTG
affects bones, kidneys GI tract as well as neurological symptoms

Question 30

hypocalcaemia

Answer 30

PTH resistance- no effect
Lack of vitamin D effect
symptom related to neuromuscular excitability
Long term lack of vitamin D affects bone growth
eg osteoporosis

Question 31

endocrine regulation of Ca homeostasis summary

Answer 31

decreased blood Ca stimulates PTH secretion from PTG
PTH stimulates osteoclasts to break down bone and release Ca
in the kidneys- PTH increases Ca reabsorption and stimulates vitamin D formation
Vitamin D promotes Ca absorption from the small intestine into the blood

Increased Ca stimulates calcitonin secretion from thyroid gland
Calcitonin inhibits osteoclasts, which allows for enhanced osteoblasts uptake of Ca from blood into bone

Question 32

bone structure

Answer 32

made up of several cell types surrounded by a collagen matrix called osteoid, upon which are deposited minerals eg crystals of calcium, phosphate

Question 33

Where are PTG’s

Answer 33

in the neck

Question 34

Are PTGs endocrine/exocrine

Answer 34

endocrine

Question 35

Vitamin D3

Answer 35

cholecaliferol

Formed from action of UV on a cholesterol derivative in the skin (7-dehydrocholesterol)

Question 36

cholecalciferol names

Answer 36

Vitamin D3

Question 37

Calcifediol names

Answer 37

25-Hydroxyvitamin D3

25(OH)D3

Question 38

Calcitriol

Answer 38

1,25-dihydroxyvitamin D3

1,25-(OH)2D3