Renal: Tubular absorption, salt balance

Question 1

what occures in the proximal tubule?

Answer 1

1. bulk reabsorption

2. majority of tubular secretion

Question 2

what is secreted from the tubule?

Answer 2

organic cations - neurotransmitters

orgainic anions - bile salts, fatty acids, foreign chemicals

Question 3

what is the purpose of the distal tubule and collecting duct?

Answer 3

fine tuning reabsorption and secretion

to match excretion rates to intake or generation rates

Question 4

what is filtered load?

Answer 4

total amount of any nonprotein or nonprotein-bound substance filtered into Bowman’s space

GFR x (substance concentration)

Question 5

example: filtered load of glucose at a concentration of 1 g/L (180 g/day of glucose in 180 L/day of H2O)

Answer 5

GFR = 180 L/day
so
180 L/day x 1 g/L = 180 g/day

Question 6

how much water is filtered per day? excreted? reabsorbed?

Answer 6

a. 180 L/day
b. 1.8 L/day
c. 99 %

Question 7

how much Na is filtered per day? excreted? reabsorbed?

Answer 7

a. 630 g/day
b. 3.2 g/day
c. 99.5 %

Question 8

how much glucose is filtered per day? excreted? reabsorbed?

Answer 8

a. 180 g/day
b. 0
c. 100 %

Question 9

how much urea is filtered per day? excreted? reabsorbed?

Answer 9

a. 54 g/day
b. 30 g/day
c. 44%

Question 10

what is true of proximal tubular reabsorption?

Answer 10

Na and H2O have iso-osmotic reabsorption (concentration stays constant)

HCO3, glucose, lactate are efficient reabsorded

Cl concentration increases, then remains constant thus it is delayed behind Na

Question 11

General principles of reabsorption?

Answer 11

1. transcellular (tubular epithelial cell) is driven by secondary active transporters
2. paracellular via the tight junction, between basolateral membrane, driven by concentration gradient

Question 12

how does transcelluar uptake/transport work?

Answer 12

intracellular Na is lower than tubular luminal Na, this forms a pressure gradient across the apical membrane. the tubule cell uses the Na gradient to transport the substance across (i.e. Na-glucose symporter) via active transport.
the substance leaves the cell into the blood via facilitated diffusion

Question 13

what is true of glucose concentration and flow rate in the kidney?

Answer 13

1. filtration is linear
2. reabsorption is not linear, it saturates at higher levels
3. reabsorption is transporter mediated
4. what isn’t reabsorbed is excreted to urine.
5. glucose is osmotically active and induces H2O excretion

Question 14

what is the apporx. ammount of Na in the body?

Answer 14

55 grams

90% extracellular 10% intracellular

Question 15

How is Na taken in? out put?

Answer 15

a. foods

b. urine (regulated), sweat, feces

Question 16

place the following in the correct order:
collecting tubule
proximal tubule 
bowmans capsule
loop of henle
collecting duct
dital tuble

Answer 16

bowmans capsule > proximal tubule > loop of henle > distal tubule > collecting tubule > collecting duct

Question 17

how is Na reabsorption mediated in the proximal tubule?

Answer 17

Na - H exchanger (NHE) (Na in, H out)
Na coupled co-transporters

accounts for 65 %

Question 18

how is Na reabsorption mediated in the TAL (thick ascending loop)

Answer 18

Na/K/Cl cotransport

accounts for 20 %

Question 19

how is Na reabsorption mediated in the DT (distal tubule)

Answer 19

Na/Cl cotransport

accounts for 10 %

Question 20

how is Na reabsorption mediated in the CD (collecting duct)

Answer 20

epithelial Na channels

accounts for 8 - 10 %

Question 21

How is Na transport mediated on the basolateral side of the epithelial cell?

Answer 21

Na/K-ATPase transporter

Question 22

True or False. The Na+ movement to the tubule cells leads to a downhill transport of Cl and water. They virtually follow Na exclusively via paracellular pathways.

Answer 22

False. they follow Na by both transcelluar and paracellular pathways

Question 23

What is Na relation ship to blood pressue?

Answer 23

Extracellur volume = plasma + interstitial
so plasma volume is related to plasma Na.
this means an increase in plasma Na increases overall plasma volume thus increase B/P. (opposite effect for decrease plasma Na)

Question 24

how is low blood pressure compensated for when blood volume is low due to Na and H2O loss (i.e. diarrhea)?

Answer 24

1. decreased volume = a decrease in MAP
2. baroreceptors sense the change
3. this stimulates the sympathetic renal nerve activity
4. the afferent arteriols are constricted
5. this causes decrease glomerular filtration pressure
6. finally, kidney decreases Na and H2O excretion to maintain plasma volume and pressure

Question 25

True or False. In blood pressure compensation the afferent arteriole constriction/dilation alone is responsible for regulating glomerular filtration pressure.

Answer 25

False
afferent arteriole constriction/dilation indirectly lowers the pressure AND the low arterial pressue itself directly reduces the net glomerular filtration pressure

Question 26

Which is best for short term regulation of B/P? Long-term regulation?

Answer 26

a. short - GFR control

b. long - control of Na reabsorption

Question 27

how is Na reabsorption regulated?

Answer 27

renin-angiotensin-aldosteorone signaling

ANP (atrial natriuretic peptide)

Question 28

which 3 structures, other than nephrons, play an important role in long term regulation of Na reabsorption?

Answer 28

liver - secretes angiotensinogen
kidneys - secrete renin
adrenal cortex - secretes aldosterone

Question 29

summarize control of Na reabsorption by aldosterone

Answer 29

In response to a low blood pressure, the kidney produces renin from juxtaglomerular cells and secretes it to the blood. Renin converts angiotensinogen (produced from the liver) to Ang I, which then becomes Ang II by AEC. Ang II then triggers aldosterone secretion from the adrenal cortex to plasma. Finally, aldosterone stimulates Na+ reabsorption in the kidney

Question 30

True or False. Ang I, ACE, and Renin are always present in the blood.

Answer 30

False. Renin is not always present in blood. release into blood depends on blood volume or pressure?

Question 31

What is aldosterone?

Answer 31

steroid hormone produced by adrenal cortex

Question 32

what triggers aldosterone’s synthesis and secrection?

Answer 32

Ang II

Question 33

What is the function of aldosterone in regulating Na in the cell?

Answer 33

upregulates the number and activity of apical (tubular lumen side of cell) Na channels and basolateral (blood vessel side) Na/K-ATPase

Question 34

How does aldosterone effect K in the cell?

Answer 34

increase K secrection by by upregulating K channels

Question 35

how does alosterone effect the Na uptake in the CD (collecting duct)?

Answer 35

8% reabsorption without aldosterone

10% with

Question 36

what is true of Renin secretion from the juxtaglomerular cells?

Answer 36

it is stimulated by
1 increased activity of renal sympathetic nerves,

2. reduced stretch of intrarenal baroreceptors in the juxtaglomerular cells,

3 reduced salt concentration flowing to macula densa.

Question 37

How is Na reabsorption regulated by ANP?

Answer 37

it inhibits Na reabsorption, inhibits aldosterone secrection, premotes afferent artiole dilation thus increase GFR

when blood volume or pressure in high
the stretch in the atria cause the atria to secrete ANP

Question 38

what is result of ANP in regards to urine?

Answer 38

natriuresis (high Na levels in urine)

Question 39

true or false. The kidneys can excrete H2O without excreting Na.

Answer 39

True via vasopressin (ADH)

Question 40

What triggers the release of Vasopressin/ADH from the posterior pituitary gland?

Answer 40

low B/P - reduced firing of barorecptors

high plasma osmolarity (decrease H2O) concentration) – osmorecptors of hypothamalmus are activated

Question 41

How does ADH enhance water uptake?

Answer 41

stimulating insertion of water channels aquaporins into the apical membrane of the collecting duct. (increased tubular permeability)

Question 42

What is another role of vasopressin?

Answer 42

vasoconstrictor in peripheral circulation

Question 43

what is the ultimate compensatory mechanism in regards to reduced blood volume?

Answer 43

ingestion

Question 44

what makes us feel thirsty?

Answer 44

reduced blood volume and increased plasma osmolarities effect on the hypothalmus

Question 45

how do barorecptors trigger thirst?

Answer 45

Ang II