Calcium Homeostasis

Question 1

Name five process that calcium is involved in

Answer 1

1. Signalling
2. Blood clotting
3. Apoptosis
4. Skeletal strength
5. Membrane excitability (important)

Question 2

Why is Ca important for signalling in the body?

Answer 2

Ca2+ important signalling molecules: exocytosis of synaptic vesicles e.g. neurotransmitters/ hormones etc, contraction of muscle fibres, alters enzyme function.

Question 3

Why is Ca important for blood clotting?

Answer 3

Essential component of clotting cascade.

Question 4

Why is Ca important for skeletal strength?

Answer 4

99% of calcium in the body is wrapped up in bone where it gives strength to the skeleton.

Question 5

Why is Ca important for membrane excitability?

Answer 5

Ca2+ decreases Na+ permeability - most critical to control

Question 6

What is the most critical process in the body that Ca must control?

Answer 6

Membrane excitability as Ca causes hyper excitation or depression of the NS

Question 7

How does hypocalcaemia affect membrane excitability?

Answer 7

Hypocalcaemia increases neuronal Na+ permeability leading to hyperexcitation of neurons.

In extreme cases causes tetany, if spreads to larynx and respiratory muscles – asphyxiation.

Question 8

How does hypercalcaemia affect membrane excitability?

Answer 8

Hypercalcaemia decreases neuronal Na+ permeability which will reduce excitability and depress neuromuscular activity and in extreme cases, trigger cardiac arrhythmias.

Question 9

Describe the calcium distribution in the body

Answer 9

• Bones - 99%
• Intracellular - 0.9% mostly in mitochrondria and Sarcoplasmic reticulum
• Extracellular fluid - 0.1% with nearly half bound to protein

So only 0.05% of Ca in body is free in solution and physiologically active

Question 10

How is Ca stored in bone?

Answer 10

Ca is stored int he calcified extracellular matrix of bone, most in the form of hydroxyapatite, so phosphate homeostasis is also important in determining Ca balance (as phosphate groups in hydroxy.).

Question 11

What is the molecular formula of hydroxyapatite?

Answer 11

Ca10(PO4)6(OH)2

Question 12

How many mM of Ca is there in bone?

Answer 12

2.2-2.6mM

Question 13

What are the three forms that Ca exist in the blood

Answer 13

Protein bound:
Ca has a high affinity for proteins (small positive attracted to large negative charge) and in plasma around 40% is bound to plasma proteins

Free (ionised):
So while [Ca2+] plasma is ~2.4mM, free ionised, and therefore physiologically active [Ca2+ ] is only about 1.2mM and accounts for ~50% of plasma calcium.

Complexed:
The remaining 10% of plasma calcium bind to plasma anions.

Question 14

In what form in the blood in Ca physiologically active?

Answer 14

Free (ionised)

Question 15

What are the different anions that Ca can bind to in the blood?

Answer 15

HCO3
H2PO4
HPO4
Sulphate 
Citrate 
Lactate

Question 16

What two proteins does Ca bind to in the plasma?

Answer 16

80% to albumin and 20% to globulin

Question 17

What affects how much Ca is bound to protein?

Answer 17

Plasma pH

Question 18

How does pH affect binding capacity of plasma proteins?

Answer 18

Binding capacity increases under alkalotic conditions and opposite in acidosis where it reduces and free [Ca]plasma rises

Question 19

What is the effect of hyperventilation on binding capacity of Ca?

Answer 19

Hyperventilate -> pH rises and plasma proteins bind more Ca causing plasma conc. to fall

This may precipitate hypocalcaemic tetany

Question 20

What is the physiology of pH rise increasing binding capacity of Ca?

Answer 20

When pH of the plasma increases, as in alkalinosis, protons are deprotonated, and the overall resulting negative charge on the protein allows calcium to bind, thus effectively reducing the amount of ionised calcium whilst total calcium remains constant.

Question 21

What is the physiology of pH fall decreasing binding capacity of Ca?

Answer 21

Decrease in pH causes the increase in protons displaces Calcium from the protein resulting in increased ionised calcium, again with no effect on total calcium.

Question 22

How is total body Ca determined?

Answer 22

Total = Ca in from diet - calcium out via excretion in kidneys and faeces

Question 23

Why is the distribution between bone and ECF crucial?

Answer 23

99% of total body Ca is stored in bone and this can be added or released as required

The bone plays an important role in maintaining Ca balance

Question 24

What are the different cells in bone responsible for Ca storage in bone?

Answer 24

Continuous turnover in bone due to:
• Osteoblasts
• Osteocytes
• Osteoclasts

Question 25

What is the function of osteoblasts?

Answer 25

Bone-building cells - hey are highly active cells which lay down a collagen extracellular matrix which they then calcify.

Question 26

What is the function of osteocytes?

Answer 26

They differentiate to form osteocytes in established bone. Osteocytes are much less active than osteoblasts but appear to regulate the activity of osteoblasts and osteoclasts.

Question 27

What is the function of osteoclasts?

Answer 27

They are the cells that are responsible for mobilising bone.

They secrete H+ ions (pH 4) to dissolve the calcium salts and also provide proteolytic enzymes to digest the extracellular matrix.

Question 28

Name two key endocrine hormones in controlling calcium homeostasis?

Answer 28

These increase plasma Ca:

1. Parathyroid hormone (PTH)
2. Calcitrol

Question 29

What is parathyroid hormone?

Answer 29

Polypeptide hormone produced by the parathyroid glands

Question 30

What is calcitrol?

Answer 30

Active form of Vit D - steroid hormone produced from vitamin D by the liver and kidneys

Question 31

Describe the parathyroid glands

Answer 31

Usually 4 lying on the posterior surface of the thyroid gland, although variations in number and location of are common, 1 in 10 people have aberrant distribution

Question 32

Why are the parathyroid glands essential for life?

Answer 32

If removed, the body is unable to monitor and maintain plasma Ca

Can survive with one parathyroid gland

Question 33

What stimulates PTH release?

Answer 33

In response to decrease in free [Ca] plasma

Question 34

What are the actions of PTH to increase plasma Ca?

Answer 34

1. Stimulate osteoclasts to increase resorption (release) of Ca and phosphate in bone
2. Inhibits osteoblasts to reduce Ca deposition in bone
3. Increase absorptions of Ca from kidney tubule, decreasing excretion
4. Increase renal excretion of phosphate, elevating free [Ca] by preventing its deposition in bone (process requires phosphate -> hydroxyapatite)
5. Stimulates kidney to synthesis calcitriol from Vit D which promotes Ca absorption at gut and kidney

Question 35

How is calcitrol produced?

Answer 35

A steroid hormone produced in two steps (1. liver, 2. kidneys) from dietary vitamin D or from cholesterol derivative activated by UV sunlight on skin.

Formation is also stimulated by hormone prolactin in lactating women.

Question 36

Name dietary sources of vitamin D

Answer 36

Fat soluble vitamin, dietary sources are fatty fish eg mackerel and tuna, fish liver oils and egg yolks

Question 37

What is the relationship between PTH and its effect on the kidney?

Answer 37

Tight regulation between PTH and kidney –> stimulation of kidney causes the inactive Vit D converted by the liver, to be converted into the active form (Calcitriol)

Question 38

What is the action of calcitriol?

Answer 38

Binds to nuclear receptors in target tissues (intestine, bone and kidney) to:

1. Increase absorption of Ca2+ from the gut.
2. Facilitates renal absorption of Ca2+
3. Mobilises calcium stores in bone by stimulating osteoclast activity.

Collectively these actions complement PTH and increase plasma Ca

Question 39

How is Ca absorbed by the gut?

Answer 39

The active transport system which moves Ca2+ from the intestinal lumen to the blood is under the control of calcitriol.

In a situation of low plasma [Ca2+ ]:
Increase in PTH -> increase calcitriol -> increase in intestinal absorption of Ca2+

Question 40

What is the action of PTH when there is increased levels of plasma Ca?

Answer 40

Increased plasma Ca inhibits PTH causing a shift to greater osteoblast deposition and less osteoclast resorption

Question 41

How does prolactin increase Ca?

Answer 41

Prolactin stimulates calcitriol synthesis (stimulates kidneys to convert Vit D to active form) in association with increased demand for Ca2+ for milk production in lactation.

Question 42

What is the molecular formula for calcitriol?

Answer 42

1,25(OH)2D3

Question 43

What does calcitriol absorb?

Answer 43

Proportion of dietary Ca absorbed from the intestine

Question 44

What happens to the proportion of dietary Ca absorbed from the intestine in a Vit D deficient person?

Answer 44

Low calcitriol –> only 10-15% Ca absorbed

Question 45

What is the proportion of dietary Ca absorbed from the intestine in a healthy person?

Answer 45

30%

Question 46

What happens to the proportion of dietary Ca absorbed from the intestine in pregnancy, lactation or growth spurts??

Answer 46

High calcitriol –> 45-55% Ca absorbed

Question 47

What is the vitamin D deficiency?

Answer 47

Circulating vitamin D levels fall to less than 20ng/ml

Question 48

Why are bones weakened in Vit D deficiency?

Answer 48

PTH works hard to maintain plasma [Ca2+] and in doing so continually removes Ca2+ from bone resulting in bones which are soft and, if still growing, become bent. In adults, easily fractured.

Question 49

What are two conditions caused by vitamin D deficiency?

Answer 49

• Rickets in children

* Osteomalacia in adults

Question 50

What happens in Vitamin D deficiency?

Answer 50

Intestinal malabsorption of Ca2+ - this decreases [Ca2+]plasma which increases PTH which then promotes phosphate deficiency – aggravates Ca2+ loss from bone.

Question 51

What are the populations most at risk of Vit D deficiency?

Answer 51

Elderly and Asian

Question 52

Why are elderly and asian populations most at risk of Vit D deficiency?

Answer 52

• Chapatti flour contains phytate which binds dietary Ca2+ .
• There may be dietary deficiency of vitamin D3
• Pigmented skin is less able to make vitamin D3 in response to UV light.

Question 53

Name a key hormone which acts to decrease [Ca]plasma

Answer 53

Calcitonin

Question 54

What is calcitonin?

Answer 54

Peptide hormone produced by the thyroid gland, its secretion is stimulated by increasing [Ca2+]plasma

Question 55

What is the action of calcitonin?

Answer 55

Its main actions are to bind to osteoclasts and inhibit bone resorption as well as increasing renal excretion so preventing a further increase in Ca2+ .

Effect of XS calcitonin is overridden by PTH.

Question 56

Name five other endocrine hormones altering Ca balance

Answer 56

• Cortisol
• Insulin
• Oestrogen
• Growth hormone
• Prolactin

Question 57

What is the effect of cortisol on Ca balance?

Answer 57

Inhibits osteoblasts, increases renal excretion of Ca2+ and phosphate and reduces intestinal absorption of Ca2+ –> increase plasma [Ca2+ ] –> increase PTH –> increase bone resorption.

This together with the reduced bone formation can, over time, produce osteoporosis.

Question 58

What is the effect of insulin on Ca balance?

Answer 58

Increases bone formation, and antagonises the action of cortisol. Diabetics may have significant bone loss.

Question 59

What is the effect of oestrogen on Ca balance?

Answer 59

Promotes bone formation via oestrogen receptors on osteoblasts. Post-menopausal osteoporosis a major problem.

Question 60

What is the effect of growth hormone on Ca balance?

Answer 60

Constant stimulus for bone formation

Question 61

What is the effect of prolactin on Ca balance?

Answer 61

Promotes calcium absorption from the gut by stimulating synthesis of calcitriol.