acid-base balance and the kidney

Question 1

pH equation

Answer 1

-log10[H+]

Question 2

normal pH of arterial blood

Answer 2

7.4

Question 3

what is pH regulation dominated by?

Answer 3

HCO3-/CO2 buffering system

Question 4

what is the henderson-hasselbalch equation?

Answer 4

Question 5

what causes a resp acidosis/alkalosis?

Answer 5

acidosis = inceasesd CO2 eg poor gas exchange in lungs
alkalosis = decreased CO2 eg hyperventilation

Question 6

what causes a metabolic acidosis/alkalosis?

Answer 6

• acidosis = decreases HCO3-
• alkalosis = increased HCO3- = RARE

Question 7

what is normal HCO3- is mM?

Answer 7

24 mM

Question 8

what is normal CO2 in mM?

Answer 8

1.2 mM = 40mmHg

Question 9

how many mmol of CO2 is produced a day?

Answer 9

15 000

Question 10

metabolism produced __ mmol H+ a day

Answer 10

40
— non-volatile acids = sulphyric, phosphoric, organic acids

Question 11

net uptake of __mmol H+ a day by GIT

Answer 11

30

Question 12

kidney has to excrete __mmol H+ a day and reabsorb all the filtered ____ (equivalent to 4000 mmol H+ a day)

Answer 12

• 70
• HCO3-

Question 13

typical urine output a day

Answer 13

1.5 litres

Question 14

what are the 3 mechanism of acid-base balance in the kidney?

Answer 14

1. reabsorption of filtered bicarbonate
2. excretion of H+ as titration acid
3. excretion of H+ as NH4+ (ammonium)

Question 15

describe reabsorption of filtered HCO3-

Answer 15

• H+ secretion at apical membrane reclaims HCO3- as Co2 + H2O
• HCO3- extruded at basolateral membrane
• net transfer of HCO3- from lumen to blood
• involves carbonic anhydrase was II and IV

Question 16

carbonic anhydrase II vs IV

Answer 16

II = intracellular in cytoplasm
IV = expressed in apical membrane

Question 17

describe excretion of H+ as ‘titratable acid’ TA

Answer 17

• H+ and HCO3- generated from CO2 and H20 in cell
• secreted H+ is mostly buffered by filtered phosphate - also creatinine, urate etc
• new HCO3- enters circulation and neutralises acidity

Question 18

describe excretion of H+ as NH4+ (ammonium)

Answer 18

• NH4+ synthesised by the kidney
• comes from glutamine metabolism
• new HCo3- enters circulation and neutralises acidity

Question 19

what are the sites of HCO3- reabsorption?

Answer 19

• most is reabsorbed in the PCT
• small amounts in TAL (10%), DCT (6%) and CD (4%)
• very little excreted : <0.01%

Question 20

where is most of the NH4+ secreted?

Answer 20

PCT

Question 21

what mmol of acid are excreted by kidneys?

Answer 21

70mmol

= 40mmol NH4+ + 30mmol TA

Question 22

kidneys excrete additional H+ as what?

Answer 22

• titratable acid using filtered buffers like phosphate
• NH4+ = synthesised

Question 23

when does renal tubule acidosis occur and what are the different types?

Answer 23

• occurs when there are defects in HCO3- reabsorption and H+ excretion

4 types:
- 1 = distal RTA
- 2 = proximal RTA
- 3 = mixed (1+2)
- 4 = hyperkalaemia RTA (hypoaldosteronism)

Question 24

what is the dominant transporter in the PCT?

Answer 24

NHE3

Question 25

what predominates later in the tubule?

Answer 25

H+ ATPase

Question 26

in the PCT, HCO3- in tubular fluid is converted to CO2 and OH- as a result of what? what happens to the products?

Answer 26

carbonic anhydrase IV

• CO2 diffuses into cell and combines with OH- (via CA II) to form HCO3-
• OH- combines with H+ in tubular fluid to form water — diffuses into cell via osmosis, then breaks down into H+ and OH-

Question 27

in the PCT, how does HCO3- leave the cell on the basolateral side?

Answer 27

kNBCe1

Question 28

describe kNMCe1

Answer 28

• how HCO3- crosses basolateral membrane in early PCT
• electrogenic with a net transport of 2 -ve charges
• 1 Na+ for every 3 HCO3-
• membrane potential helps drive HCO3- exit

Question 29

NHE3 vs H+ ATPase gradient

Answer 29

• NHE3 = large capacity but limited gradient
• H+ ATPase = can generate a larger capacity

Question 30

what transporters are present in the apical membrane of the TAL and DCT?

Answer 30

same as PCT

NHE3 and H+ ATPase

Question 31

what is used instead of kNBCe1 on the basolateral side of the cell for HCO3- reabsorption in TAL and DT?

Answer 31

AE2 = HCO3-/Cl- exchanger

Question 32

where is the majority of the V-type H+ ATPase activity?

Answer 32

later on in tubule — a-intercalated cells of collecting tubule and duct cells

Question 33

what is the main function of the H+/K+ ATPase in the a-intercalated cells of the CD?

Answer 33

K+ reabsorption

Question 34

what is on the basolateral membrane to reabsorb HCO3- in the a-intercalated cells?

Answer 34

kAE1 (HCO3- Cl- exchanger)

Question 35

where are the V-type H+ ATPase cells in the collecting dyct?

Answer 35

apical membrnae of a-intercalated cells — NOT on principal cells

Question 36

where and how is NH4+ produced?

Answer 36

by glutamine metabolism in PCT

Question 37

NH4+ is secreted as ____ which passively diffuses across ___ membrane. NH4+ then reformed by combining with __ (which is excreted in exchange for __)

Answer 37

• NH3
• apical
• H+
• Na+

Question 38

what does glutamine metabolism produce?

Answer 38

NH4+ and OH-

Question 39

what happens to the OH- produced in glutamine metabolism in the PCT?

Answer 39

combine with CO2 via CA II to form HCO3- — this can then enter blood across basolateral membrane via NMB

Question 40

what happens to NH4+ in the TAL?

Answer 40

• reabsorbed via ROMK2 chanel and NKCC1 (NH4+ in oak e of usual K+_
• low permeability at apical membrane, so it leaves across basolateral membrane

Question 41

what happens to NH4+ in the collecting duct?

Answer 41

• re-secreted
• most crosses epithelium as NH3 (can freely diffuse across membrane)
• maybe some NH4+ carried by NaK ATPase

Question 42

describe type 1 — distal renal tubular acidosis

Answer 42

• defective H+ excretion by distal segment of nephron
• inability to acidify urine — serious systemic consequences = metabolic acidosis
• may be incomplete — compensatory mechansims of PCT
• but treatable by HCO3- supplementation
• several transproter mutiatons — mainly affected the a-intercalated cells : kAE1, V-type H+ ATPase, CAII (proximal affects too)

Question 43

describe type 2 — proximal RTA

Answer 43

• rare autosomal recessive disease
• impaired HCO3- reabsorption in PCT
• severe metabolic acidosis
• not treatable by HCO3- supplementation (80% f bicarbonate is reabsorbed in PCT)
• attributed to mutations in kNBCe1
• ocular abnormalities too because of kNMCe1 and pNBCe1 expression there too

Question 44

resp/metaoblic acidosis :

an increase in PCO2 (resp) or decrease in HCO3- btoh directly stimulate what?

Answer 44

an increase in H+ secretion and increase in NH4+ synthesis by proximal tubule

Question 45

chronic resp/metabolic acidosis leads to an increased expression of what?

Answer 45

NHE3 and kNMCe1

Question 46

resp/metabolic alkalosis — chronic leads to more what?

Answer 46

more B-intercalated cells (HCO3- secreting) in collecting tubule

Question 47

Answer 47