Unit 4: Renal Physiology: PART TWO: Reabsorption and Secretion

Question 1

What is the Glomerular Filtration rate?

Answer 1

180 L/ day = 125 mL/min

Question 2

What are the two ways to get ride of stuff through the kidney?

Answer 2

1. Filtration–> and do NOT reabsorb it

2. Secretion (from blood in peritubular capillaries into where filtered stuff went too)

Question 3

What is the amount of a substance filtered across the glomerular called?

Answer 3

the filtered load

Question 4

What is occurring during filtration?

Answer 4

an interstitial like fluid is filtered across the glomerular cap into Bowman’s space

Question 5

What does the Filtered Load equal?

Answer 5

= GFR x plamsa conc. of substance X x % unbound in plasma

Question 6

What does the Filtration Fraction equal?

Answer 6

= GFR / RPF

the fraction of renal plasma flow that is filtered across the glomerular capillaries
- normally is 20% (.2)

Question 7

What is the fraction of renal plasma flow that is filtered across the glomerular capillaries? What is it normally?

Answer 7

Filtered Fraction

normally is .2 (20%)

Question 8

What does the excretion rate equal?

Answer 8

urine flow x conc. of substance X in urine

Question 9

What does Reabsorption or secretion rate = ?

Answer 9

= Filtered Load - excretion rate

Question 10

What is the fluid in Bowman’s Space and lumen of a nephron called?

Answer 10

tubular fluid

Question 11

What sort of things are reabsorbed?

Answer 11

• water
• Na+
• Cl-
• HCO3-
• glucose
• AAs
• urea
• Ca++
• Mg++
• phosphate
• lactate
• citrate

Question 12

What is the mechanism for reabsorption?

Answer 12

transporters in membrane of tubular epithelial cells

Question 13

What is the MOST important function of the kidney? Why?

Answer 13

reabsorption of Na+–> b/c it is linked to ALL other reabsorption and virtually drives all resabsorption in the kidney!!!!*

Question 14

What is the major cation in the ECF?

Answer 14

Na+ (plasma and interstitial fluid)

Question 15

What does the amount of Na+ in ECF influence?

Answer 15

influences ECF volume–> influencing plasma volume, blood volume, and BP

Question 16

How much of sodium is reabsorped?

Answer 16

output = intake

Question 17

What happens if we increase the intake of Na+?

Answer 17

volume expansion

Question 18

What substances are SECRETED from peritubular blood into the tubular fluid via the tubular epithelium?

Answer 18

organic acids, organic bases, K+

Secretion–> is an additional mechanism fro excreting substance into the urine

Question 19

What refers to the amount of substance excreted per unit of time?

Answer 19

Excretion

Question 20

What is excretion the net result of?

Answer 20

Excretion = filtration - reabsorption + secretion

Question 21

What can we compare excretion rate to in order to determine if a substance has been reabsorbed or secreted?

Answer 21

compare to Filtrated Load

Question 22

What is the equation for Excretion Rate? What is it for Filtered Load?

Answer 22

Excretion rate = urine flow x urine conc. of substance X

Filtered Load = GFR x plasma conc. of substance X

Question 23

What if the filtered load is greater than the excretion rate? What substance is this an example of?

Answer 23

= net reabsorption

Ex: Na+

Question 24

What if the filtered load is less than the excretion rate? What substance is this an example of?

Answer 24

= net secretion

Ex: PAH

Question 25

What are the two ways needed to get glucose reabsorbed and then transported into peritubular blood?

Answer 25

in early Proximal Tubule by Carrier-Mediated mechanisms (along with Na+)

1. “SGLT”–> Secondary Active Transport (from tubular fluid into cell)
2. GLUT 1 and GLUT 2–> Facilitate Diffusion (from cell into peritubular blood)

Question 26

What type of transporter is used for glucose absorption, to get it from the tubular fluid into the tubular cell? What is moving uphill vs downhill? What other pump is necessary for this to occur?

Answer 26

Na+ glucose cotransporter (symporter) called “SGLT” (Sodium Glucose linked Transporter)

2 Na+ and 1 glucose

• glucose moves uphill
• Na+ moves downhill

Secondary Active Transport–>Uses:
Na+/K+ pump on peritubular capillary side keeps Na+ low in ECF

Question 27

How is glucose transported from the tubular cell into the peritubular capillary?

Answer 27

via Facilitated Diffusion

• moving DOWN conc. gradient
• no energy needed
• GLUT 1 and GLUT 2 (= insulin independent)

Question 28

What is the filtered load for Glucose? What happens as plasma conc. of glucose increases?

Answer 28

glucose is freely filtered

Filtered Load = GFR x Plasma conc. of glucose

filtered load increases linearly

Question 29

At what plasma concentration is all glucose reabsorbed?

Answer 29

less than 200 mg/dl

all glucose can be reabsorbed

Question 30

At what plasma concentration does “splay” occur with glucose reabsorption? What is “splay”?

Answer 30

greater than 200 mg/dl, but less than 350 mg/dl

splay = bending of reabsorption curve–> a threshold where not all glucose is reabsorbed

reabsorption is approaching saturation

Question 31

What are two reasons for “splay” to occur for glucose titration curve?

Answer 31

1. Low affinity of Na+ glucose cotransporter (glucose detaches and is excreted; few remaining binding sites near Tm)
2. Heterogeneity of nephrons (some have higher Tm, some have lower; some glucose excreted before average Tm is reached)

Question 32

At what plasma glucose concentration is Tm reached? What occurs here on the titration curve?

Answer 32

greater than 350 mg/dl

glucose carries fully saturated and reabsorption of glucose flattens out

Question 33

At what plasma glucose conc. does excretion of glucose occur? When does excretion follow a linear increase as there is an increase in filtered load?

Answer 33

beings when it is greater than 200 mg/dl (hit threshold)

greater than 350 mg/dl

Question 34

What is the term for glucose in the urine? What three things could this be due to?

Answer 34

Glucosuria; Due to:

1. High plasma glucose (>200mg/dl); diabetes
2. Pregnancy (increased GFR which increases filtered load–> may spill some glucose into urine)
3. Congenital abnormalities of Na+-glucose cotransporter

Question 35

Is urea freely filtered across the glomerular capillaries? How is it secreted or reabsorbed?

Answer 35

yes; and it is transported in most segments of the nephron

secreted or reabsorbed by diffusion (simple or facilitated)

Question 36

How is the secretion or reabsorption rate of Urea determined?

Answer 36

concentration gradient and permeability

Question 37

What happens to urea concentration in the tubular fluid as water is reabsorbed from the tubule? What does this create?

Answer 37

urea conc. increases–> creates a conc. gradient driving reabsorption of Urea

Question 38

T/F. Urea does not follow water reabsorption

Answer 38

False— urea does follow water reabsorption

Question 39

Where is 50% of Urea reabsorbed? And by what type of transport?

Answer 39

50% reabsorbed in Proximal Tubule via simple diffusion

Question 40

Where is urea secreted in the nephron? Is more or less of urea secreted than what was previous reabsorbed in the Proximal Tubule?

Answer 40

in the thin descending limb–> due to high conc. in interstitial fluid in inner medulla

MORE secreted than previously reabsorbed in Proximal tubule

Question 41

What parts of the nephron are impermeable to urea? What occurs here under the influence of ADH?

Answer 41

• Thick ascending limb
• distal tubule
• cortical collecting duct
• outer medullary collecting duct

ADH–> will stimulate water reabsorption here and therefore Urea is left behind (increase urea conc. in tubule fluid)

Question 42

What is the total filtered load for Urea? Of that, what is reabsorbed? What is excreted?

Answer 42

110% filtered load

• 70% reabsorbed
• 40% excreted

Question 43

After urea has traveled through the Loop of Henle, where is is reabsorbed? By what transporter?

Answer 43

Inner Medullary collecting duct–> by Urea Transporter 1

Question 44

What activates the Urea Transporter 1? Where is this located? And what is it doing?

Answer 44

ADH activates it; in inner medullary collecting ducts

Facilitated diffusion from tubular lumen–> ISF
70% of filtered load reabsorbed –the other 40% is excreted

Question 45

Can urea to toxic?

Answer 45

yes, at high levels

Question 46

What does the Urea recycling that occurs in the nephron cause? And therefore what does it help with?

Answer 46

causes buildup of high urea concentration in inner medulla–> creating osmotic gradient at Loop of Henle so water can be reabsorbed

Question 47

What substance is an example of secretion and is used to measure renal plasma flow?

Answer 47

PAH (para-aminohippuric acid)

RPF = to clearance of PAH

Question 48

Of the filtered load for PAH, what percentage is filterable and what isn’t and why?

Answer 48

10% filterable

90% not filterable b/c bound to plasma proteins

Question 49

Where is PAH secreted in the nephron? What happens when Tm is reached?

Answer 49

Proximal Tubules in peritubular membranes by transporters

Tm is reach and secretion is maxed out

Question 50

What happens to excretion of PAH as unbound plasma conc. of PAH increases?

Answer 50

excretion rises sharply and BOTH filtration and secretion are increased

Question 51

Once Tm is reached for PAH, what happens to excretion and filtered load?

Answer 51

rise in excretion parallels an increase in filtered load

Question 52

What does excretion equal for PAH?

Answer 52

= sum of filtration + secretion (as non is reabsorbed)

Question 53

What inhibits the secretion of PAH by transporters in peritubular membranes of Proximal Tubular cells?

Answer 53

probenecid

Question 54

What happens once the PAH transporters have hit maximum secretion? What then occurs with an increase in filtration?

Answer 54

filtration and excretion are parallel

and increase filtration results in an increase excretion

Question 55

What are the two forms that many substances secreted by the Proximal Tubule exist in?

Answer 55

(many substances are weak acids and weak bases)

1. charged and uncharged
2. relative amounts depend on pH

Question 56

What are examples of weak acids?

What are examples of weak bases?

Answer 56

PAH and salicylic acid (aspirin)

quinine, morphine

Question 57

When it comes to charges, what is the acid form of a weak acid? What is the conjugate base form?

How does the charge effect reabsorption?

Answer 57

acid form = HA (uncharged)
- can be pulled back

conjugate base form = A- (charged)
- can NOT be pulled back and is secreted

Question 58

At a low pH, what form of a weak acid will predominate?

Answer 58

the HA (acid form) predominates–> therefore can reabsorb easier

Question 59

At a high pH, what form of a weak acid will predominate?

Answer 59

the A- (conjugate base) form predominates–> can excrete more readily

Question 60

If we want to excrete an acid, will we want to increase or decrease the pH?

Answer 60

increase the pH or urine –> therefore it will be in the A- form and cannot be reabsorbed

Question 61

What is the base form and the conjugate acid form for a weak base?

Answer 61

base form = B (uncharged)
- pull back easier

conjugate acid form = BH+ (charged)
- cannot be pulled back and is excreted

Question 62

At a high pH, what form of a weak base predominates?

Answer 62

the B form (base form) –> can reabsorb easier

Question 63

At a low pH, what form of a weak base predominates?

Answer 63

BH+ form (conjugate acid)–> therefore can excrete

Question 64

If we want to excrete a base, what do we want to pH of urine to be, high or low?

Answer 64

want pH to be low–> therefore will be in conjugate acid form (BH+)–> making it charged and therefore cannot be reabsorbed and will be secreted

Question 65

What substances can diffuse across the tubular cells and therefore can be reabsorbed?*

Answer 65

the UNcharged substances

charged forms are excreted

Question 66

At a high pH what are we excreting, weak acid or weak base? What about at a low pH?

Answer 66

high pH–> excretion of weak acid

low pH–> excretion of weak base

Question 67

What are the two forms of Aspirin and which has a charge? Which can be reabsorbed and which cannot?

Answer 67

salicylic acid = HA form
- can be reabsorbed

salicylate = A- form
- cannot be reabsorbed

Question 68

If someone has an aspirin overdose, what do we want to do to maximize the loss of it?

Answer 68

put it in charged form–> so want to put it at a high pH, therefore it would be in the A- form (salicylate)