Parathyroid hormone metabolism

Question 1

What types of cells make up the parathyroid glands?

Answer 1

oxyphil cells and chief cells

- chief cells make PTH, oxyphil role unknown

Question 2

What nerve is closely located to thyroid and parathyroid glands?

Answer 2

• recurrent laryngeal nerve

Question 3

Embryologically what are the parathyroids derived from?

Answer 3

• 3rd and 4th branchial pouches that migrate

-

Question 4

Are extra parathyroid glands common?

Answer 4

• yes, especially along the path of embryologic migration

- most common place is in lower pole of thyroid, next in there-thymic tract

Question 5

Who is the main player in controlling Ca2+ and phosphate homeostasis in the body?

Answer 5

• PTH
• it is a 84 -aa protein
• packaged is cytoplasmic granules that contain proteases
• very short half life (minutes) once it is released
• PTH feeds back to stimulate conversion of 25-hydroxycholecalciferol in kidney to 1,25-dihydroxycholecaleciferol (calcitriol)

Question 6

Once PTH is released where is it degraded at?

Answer 6

• ## by liver and kidney to mostly c-terminal fragments (happens in 2-4 minutes)

Question 7

percentages of PTH in hypo, hyper and normocalcemic states?

Answer 7

• normocalcemic state: PTH 20% of total circulating intact PTH hormone
• hypocalcemia: PTH increases to 33%
• Hypercalcemia: decreases to 4%

Question 8

Effect of decreased plasma Ca2+?

Answer 8

• lead to increased PTH which leads to resorption from bone and release of Ca2+ and phosphate, kidney: increase phosphate excretion and increased calcium reabsorption, increased calcitriol formation
• net effect: increase in plasma calcium concentration with no change or decrease in plasma phosphate

Question 9

What controls the secretion of PTH?

Answer 9

• Ca2+ controls secretion of PTH

Question 10

Where can you find calcium-sensing receptors in the body?

Answer 10

• parathyroid cells: Ca2+ is ligant
• kidney: regulates Ca2+ handling by renal tubules
  hence hypercalcemia directly promotes excretion of Ca2+

Question 11

Calcium feedback control?

Answer 11

• adequate/elevated Ca2+ blocks PTH from activating 25-hydroxycholecalcetriol
• adequate intake blocks leaching Ca2+ from the bones
• adequate levels maintain balanced renal absorption of Ca2+ and phosphate

Question 12

What is PTHrP?

Answer 12

• PTH-related protein
• secreted by nonmetastatic solid tumors and some pts with non-hodgkin lymphoma
• increases bone resorption and distal tubule Ca2+ reabsorption
• less likely to stimulate 1,25-dihydroxyvitamin D production
• Doesn’t increase Ca absorption from the intestines

Question 13

What is calcitonin?

Answer 13

• peptide hormone secreted by thyroid gland- parafollicular cells
• stimulated by high Ca2+ levels

Question 14

What is function of calcitonin?

Answer 14

• it decreases plasma Ca2+, decreases absorptive activities osteoclasts, and decreases formation of new osteoclasts
• weak effect in humans compared to PTH

Question 15

Physiology of Ca2+?

Answer 15

involved partial absorption from intestines

• filtration in kidneys with 100-200 mg excreted
• 1% in ECF flows in and out of cells
• and of this 1% -> 50% bound to albumin and 50% is in ionized state

Question 16

Where is most of Ca found in the body?

Answer 16

• 99% remain in bone as hydroxyapatite -> reservoir for Ca and phosphate

Question 17

Where is most of phosphate in body stored?

Answer 17

• 85% stored in bone
• 14-15% in cells
• 1% in ECF: as phospholipids, esterphosphates, and inorganic phosphates
• several forms are for buffers in acid-base changes

Question 18

What does active vitamin D increase?

Answer 18

• increase Ca2+ uptake in intestines -> blood Ca2+ level increases -> homeostasis -> blood Ca levels -> when blood Ca levels fall -> PTH secreted from parathyroid glands and this stimulates Ca release from bone and stimulates Ca uptake in kidneys -> this uptake in kidenys activates Vitamin D

Question 19

What is Ca’s function in the body?

Answer 19

• normal bone density
• clotting cascade
• muscle function: smooth, cardiac, skeletal
• transmission of nerve signals
• intracellular signaling of many cellular hormones

Question 20

Relationship b/t Ca and Phosphate?

Answer 20

• tend to be opposite, when one rises the other falls
• both are necessary for normal bone density
• Ca is usually reabsorped in kidneys and phosphate is excreted when plasma levels of Ca are low

Question 21

Sources of Vit D?

Answer 21

• photoisomeriztion: of provitamin D in skin to Vit D3 (cholecalciferol)
• binds to VIt D binding proteins and is further metabolized
• intestinal absorption from diet from fortified milk, fatty fish and cod-liver oil, lesser extent: eggs
• liver stores Vit D, excess is stored in adopose tissue (fat soluble vitamin)

Question 22

Where is cholecalciferol (VIt D3) formed?

Answer 22

• formed in the skin

- converted to 25-hydroxy Vit D in the liver, but prevented from over accumulating (vit stored in liver for months)

Question 23

Where is 1,25 dihydroxycholecalciferol formed?

Answer 23

• formed in proximal tubules of the kidney
• most active form of Vit D
• this step is stimulated by PTH

Question 24

Vitamin D metabolism?

Answer 24

• closely coupled with Ca 2+ homeostasis, serum Ca2+ and phosphate levels and PTH
• with hypocalcemia increased PTH increases activity of alpha-1-hydroxylase in kidney resulting in increased levels of calcitriol which decreases the renal excretion of Ca and increases excretion of phosphate and increases resorption of Ca from bones and increases intestinal absorption of Ca
• Vit D increases Ca absorption from GI tract
• impt in bone deposition and absorption
• must be converted in liver and kidneys to active metabolite - 1, 25-dihydroxycholecalciferol (Calcitriol)

Question 25

What does calcitriol increase?

Answer 25

increases absorption of Ca2+ in kidneys

Question 26

Concentration of calcitrol depends on what?

Answer 26

• availability of calcidiol
• activity of renal enzyme alpha-1-hydroxylase: regulated by - PTH, low serum level of phosphate, plasma calcitriol concentration: activity of 24-hydroxylase gene is increased by calcitriol which inactivites it, and PTH reduces gene activity

Question 27

Functions of calcitriol?

Answer 27

• binds to vit D receptor: in intestine and parathyroid glands
• most impt action: promotes enterocyte differentiation which promotes intestinal absorption of Ca2+
  other effects: stimulates phosphate absorption, directly suppresses PTH at level of parathyroid glands, and allows PTH induced osteoclast activation

Question 28

Calcitriol activity on parathyroids?

Answer 28

• parathyroids contain vitamin D receptors and calcitriol binds to the receptors and inhibits PTH synthesis and inhibits parathyroid cell proliferation

Question 29

Result of metabolic activation of Vitamin D to calcitriol?

Answer 29

• increase in serum Ca and phosphate concentrations

Question 30

Function of osteoblasts and osteoclasts?

Answer 30

• osteoblasts: continually deposit bone even in adults, on outer surfaces of bone and in bone cavities
• osteoclasts: continually absorb bone, found in bone matrix
• in adults: deposition and absorption are equal

Question 31

What happens in bone remodeling?

Answer 31

• bone adjusts its strength to stress applied to it, new matrix is tougher and less brittle than old matrix
• bone that is stressed has greater deposition of bone matrix: osteoblastic activity is stimulated, the bone is stronger and more dense

Question 32

Remodeling cycle of the bone?

Answer 32

Resorption (2 weeks): osteoclasts remove mineral and matrix on trabecular and cortical bone. High local concentrations of Ca may regulate this process
Reversal (4-5 weeks): mononuclear cells appear on bone surface, they lay down a glycoprotein rich matrix so new osteoblasts can adhere
Formation (up to 4 months): waves of osteoblasts lay down bone until resorbed bone is completely replaced
- when phase is completed the surface is covered with flattened lining of cells and there is a prolonged resting period

Question 33

Effects of PTH on kidney

Answer 33

• increased Ca resorption in renal tubules - kindeys convert Vit D to its active form

Question 34

Effects of PTH on bone?

Answer 34

• increased osteoclast activity - releases Ca2+ and PO4

Question 35

Effects of PTH on GI tract?

Answer 35

• GI tract will increase absorption of Ca2+ and PO4

Question 36

What are the 3 hormones that regulate calcium concentration?

Answer 36

• PTH, calcitonin, and Vit D

Question 37

Action of PTH and Vitamin D? Action of calcitonin?

Answer 37

PTH and Vit D- raise blood Ca level

Calcitonin - lower Ca blood level

Question 38

When is PTH secreted?

Answer 38

• in response to low blood calcium level, regulated not by pituitary gland but by serum calcium concentration

Question 39

How does PTH increase blood calcium?

Answer 39

• by stimulating osteoclasts to break down bone, increasing reabsorption of Ca by kidneys
• increasing conversion of inactive Vit D to active Vit D (which increases Ca reabsorption from the GI tract)
• also decreases reabsorption of phosphate by kidneys leading to loss in urine, impt because PTH action on bone increases release of both Ca and phosphate, by decreasing reabsorption of phosphate by kidneys, PTH prevents hyperphosphatemia

Question 40

Action of Vit D?

Answer 40

• Vit D increases gut absorption of Ca and phosphate, increases bone resorption and also increases phosphate reabsorption in the kidneys so Vit D increases both Ca and phosphate levels in the blood.

Question 41

When is calcitonin secreted?

Answer 41

• secreted by C cells of thyroid in response to high blood calcium levels. It decreases blood Ca levels by using Ca to build bone, decreasing renal reabsorption of Ca.