Control of Potassium Concentration

Question 1

What are the most abundant intra-cellular cation?

Answer 1

K+ ions

Question 2

What % of the total body K+ content is intracellular?

Answer 2

98%

Question 3

What % of the total body K+ content is in the ECF?

Answer 3

2%

Question 4

What does the body do, regarding plasma [K+]?

Answer 4

Tightly maintains it

Question 5

Within what range does the body maintain plasma [K+]?

Answer 5

3.5-5.3mmol/L

Question 6

Where is [K+] high?

Answer 6

Inside cells

Inside mitochondria

Question 7

What is high [K+] inside cells and mitochondria essential for?

Answer 7

Maintaining cell volume
Regulating intra-cellular pH 
Controlling cell-enzyme function
DNA/protein synthesis
Cell growth

Question 8

What is low [K+] outside cells necessary for?

Answer 8

Maintaining the steep K+ ion gradient across cell membranes

Question 9

What is the steep K+ ion gradient across cell membrane largely responsible for?

Answer 9

The membrane potential of excitable and non-excitable cells

Question 10

What is the result of increased ECF [K+] on cell membranes?

Answer 10

Depolarises

Question 11

What is the result of decreased ECF [K+] on cell membranes?

Answer 11

Hyperpolarises

Question 12

What is the result of changes in extracellular [K+]?

Answer 12

Can cause severe disturbances in excitation and contraction

Question 13

What can result from hyperkalaemia, regarding excitation and contraction?

Answer 13

Potentially life threatening disturbances of cardiac rhythm

Question 14

What can extremely low [K+] lead to?

Answer 14

Several metabolic disturbances

Question 15

What metabolic disturbances can extremely low [K+] lead to?

Answer 15

Inability of the kidney to form concentrated urine
A tendency to develop metabolic alkalosis
Large enhancement of renal ammonium excretion

Question 16

What keeps ECF [K+] tightly controlled?

Answer 16

Two homeostatic mechanisms

Question 17

What homeostatic mechanisms keep [K+] tightly controlled?

Answer 17

External and internal balance

Question 18

What happens to K+ at the glomerulus?

Answer 18

It is filtered freely

Question 19

In what segments of the nephron does potassium handling occur?

Answer 19

Proximal tubule
Thick ascending limb
Principal cells of DCT and cortical collecting duct
Intercalated cells of DCT and cortical collecting duct, and medually collecting duct

Question 20

Where does the handling of K+ in the nephron differ based on the K+ content of the diet?

Answer 20

Principal cells of DCT and cortical collecting duct

Question 21

Is K+ reabsorption in the proximal tubule passive or active?

Answer 21

Passive

Question 22

How is K+ reabsorbed in the proximal tubule?

Answer 22

Paracellular diffusion

Question 23

How much K+ is reabsorbed in the proximal tubule?

Answer 23

67%

Question 24

Is K+ reabsorption in the thick ascending limb an active or passive process?

Answer 24

Active

Question 25

What is active reabsorption of K+ in the thick ascending limb driven by?

Answer 25

Na-K-ATPase pumps in basolateral membrane

Question 26

What is required for reabsorption of K+ in the thick ascending limb?

Answer 26

Na-K-Cl transporter in the apical membrane

Question 27

How much K+ is reabsorbed in the thick ascending limb?

Answer 27

20%

Question 28

What happens in the principal cells of DCT and cortical collecting duct in a normal or high K+ diet?

Answer 28

Substantial secretion (15-20%)

Question 29

What happens in the principal cells of DCT and cortical collecting duct in a low K+ diet or depletion?

Answer 29

Little secretion

Question 30

How much K+ is reabsorbed in the intercalated cells of DCT and cortical collecting duct, and medullary collecting duct?

Answer 30

10-12%

Question 31

What cells are involved in K+ secretion in the DCT and cortical CD?

Answer 31

Principal cells

Question 32

Is secretion of K+ by principal cells an active or passive process?

Answer 32

Active

Question 33

What is the secretion of K+ by principal cells driven by?

Answer 33

Electro-chemical gradient for K+ between principal cell and lumen, set up by Na-K-ATPase

Question 34

How is the electrochemical gradient for K+ secretion produced?

Answer 34

Na+ is reabsorbed by ENaC. This creates a negative charge in the lumen, favouring K+ secretion by a separate K+ channel

Question 35

Where is the Na-K-ATPase driving secretion of K+ by principal cells found?

Answer 35

In the basolateral membrane

Question 36

Why is Na-K-ATPase required to drive secretion of K+ by principal cells?

Answer 36

It creates the gradient for Na absorption

Question 37

What are the categories of factors affecting K+ secretion by the principal cell?

Answer 37

Tubular factors

Luminal factors

Question 38

What tubular factors affect K+ secretion by the principal cell?

Answer 38

Aldosterone
ECF [K+]
Acid base status

Question 39

What luminal factors affect K+ secretion by the principal cell?

Answer 39

Increase distal tubular flow rate

Increased Na+ delivery to distal tubule

Question 40

What is aldosterone?

Answer 40

A steroid hormone

Question 41

What does aldosterone do, regarding channels?

Answer 41

Increases the transcription of Na-K-ATPase in the basolateral membrane, and ENaC/K+ channels in the apical membrane

Question 42

What is the result of the increased channel resulting from aldosterone?

Answer 42

The increased amount of these channels gives increased K+ excretion

Question 43

Does hyperkalaemia or hypokalaemia cause increased K+ sescretion?

Answer 43

Hyperkalaemia

Question 44

How does hyperkalaemia increase K+ secretion

Answer 44

It stimulates aldosterone secretion, increasing K+ secretion

Question 45

How does acid base status affect K+ secretion?

Answer 45

Changes in the ECF pH cause reciprocal shifts in H+ and K+ between ECF and ICF

Question 46

What effect does acidaemia have on K+ secretion?

Answer 46

Decreases it

Question 47

Why does acidaemia decrease K+ secretion?

Answer 47

It decreases [K+] concentration in principal cells

Question 48

What effect does alkalosis have on K+ secretion?

Answer 48

Increases it

Question 49

Why does alkalosis increase K+ secretion?

Answer 49

Increases [K+] in principal cells

Question 50

What cells are involved in K+ absorption in the DCT?

Answer 50

Intercalated cells

Question 51

Is the absorption of K+ by intercalated cells an active or passive process?

Answer 51

Active

Question 52

What is the absorption of K+ by intercalated cells mediated by?

Answer 52

H+ -K+ -ATPase in the apical membrane