Reabsorption/Secretion in the Proximal Tubule

Question 1

What are the main waste products excreted by the kidney?

• How much is REABSORBED?

Answer 1

• Urea
• Creatinine
• Uric Acid

***Filtering this out ~60 times a day keeps things clean

2/3 of glomerular Filtrate is Reabsorbed in the Proximal Tubule*** this includes water and solutes

Question 2

How many times per day is the entire body fluid turned over?
• why is this necessary?

Answer 2

5 times daily

• Essential to Maintain ECFV, Electrolytes, and Solutes in Glomerular Filtrate

Question 3

What major process takes place in the proximal tubule?

Answer 3

• Filtration = Glomerulus
• Reabsorption = Proximal Tubule
• Secretion = Distal Tubule

Question 4

What formula is used to determine rate of flow into the loop on henle?

Answer 4

V = (GFR x Ps) / TFs

V = rate of flow into Loop of Henle
Ps = Plasma Concentration of Substance
TFs = Tubule Fluid Concentration of Substance

Question 5

How do you use the rate of flow of fluid into the loop of henle to determine the amount of Resorption occurring?

Answer 5

Resorption = Starting Flow. - V

V = rate of flow into L.O.H.

Question 6

What processes allow for isotonic reabsorption in the proximal tubule?

Answer 6

Reabsorption:
• Sodium
• Chloride
• Bicarbonate

Question 7

How can reabsorption of solutes in the proximal tubule like Na+, HCO3-, Cl- occur without a change in filtrate osmolarity?
• how is this different from inulin?

Answer 7

• Water Follows these 3 major solutes that are reabsorbed so overall concentration is not reduced but FLUID AMT. IS reduced
• Inulin is NOT reabsorbed so as you move down its concentration just stays the same

Question 8

Sodium Transport in Proximal Tubule: 
• Active or Passive? 
• Driving Forces?
• How do these arise? 
• Describe Luminal and Apical transport

Answer 8

ACTIVE TRANSPORT:
• Drives sodium movement

DRIVING FORCES:
• Depends on DECREASED [Na+] and…
• INCREASED membrane (-) membrane potential

Creation of Gradient:
BASOLATERAL Na+/K+ = Key driving forces:
• is ATP dependent

REABSORPTION OF Na+:
LUMINAL channels are responsible for getting Na+ into tubular cells

Question 9

What are some of the molecules that get co-transported with Na+/ what are the transporters called?

Answer 9

• Na+ - H+ exchanger
• Na+ - Glucose co-transport
• Na+ Amino Acid co-transport
• Na+ - Phosphate co-tranporter
• Claudin-2 in Tight juntions = another transporter

Question 10

What is sodium Reabsorption always accompanied by?

• how is this accomplished?

Answer 10

• ANION reabsorption - specifically Cl- and HCO3-

* Na+ movement to interstitium generates -5mV gradient and LEAKY EPITHELIUM of proximal tubule and potassium follows

Question 11

How does Chloride move across the proximal tubule?

Answer 11

• Claudin 4 (Cldn 4) IN TIGHT JUNCTIONS allows Cl- to pass PARACELLULARLY

Question 12

How does the rate Chloride reabsorption compare to Bicarbonate reabsorption in the proximal tubule?
• why is this the case?

Answer 12

• Chloride Reabsorption occurs more slowly because it just uses the -5mV gradient and Claudin-4 to move Paracellularly
• HCO3- uses ACTIVE transport to move across lumen so its MORE RAPIDLY absorbed in Proximal tubule

Question 13

T or F: bicarbonate just neutralized so that it can move across luminal cells.

Answer 13

FALSE, this is ACTIVE transport, not just neutralization

Question 14

**Describe the Method by which bicarbonate is reabsorbed.

Answer 14

1. H2O and CO2 come together to make H2CO3 via Intracellular Carbonic Anhydrase
2. H2CO3 dissociates into H+ and HCO3-

Following HCO3- => INTERSTIUM
a. 3 HCO3- can be transferred to INTERSTITIUM via HCO3-/Na+ exchanger

Following Hydrogen => LUMEN
a. H+ is exported via hydrogen channel? or Na+/H+ exchanger

b. This lumenal H+ combines with HCO3- in the LUMEN to make H2CO3
c. H2CO3 dissociates into H2O and CO2

Question 15

How is water Reabsorbed?

Answer 15

LEAKY Epithelium with Lots of AQUAPORINS = HIGH Kf (high hydraulic conductivity)

Question 16

What are the aquaporins that are responsible for absorption of H2O in the proximal tubule?
• what about elsewhere in the nephron?

Answer 16

PROXIMAL TUBULE:
•AQP-1 - Apical side of cell
• AQP-4/5 Basolateral membrane

DISTAL TUBULE:
• AQP - 2 - regulated by vasopressin

Question 17

What Factors drive H2O uptake INTO CAPILLARIES from interstitial Fluid?

Answer 17

1. POSITIVE PRESSURE of INTERSITIAL FLUID
2. LOW hydrostatic pressure in the capillary
   • because of pressure drop across afferent and efferent arterioles
3. HIGH ONCOTIC pressure in peritubular capillary
   • because of glomerular filtration and retention of proteins

Question 18

Why does inulin increase to 3 times the concentration in the glomerular capillaries by the time it gets to the Loop of Henle?

Answer 18

because it is not reabsorbed so Amt. stays the same but the water volume is decreased to 1/3 of the orginal vol.

***This means concentration is increased by 3.

Question 19

How is glucose transported across the proximal tubule?
• what is Threshold?
• what is Tm?

Answer 19

Sodium-Glucose co-transporter (SGLT1 and 2)
• couple glucose transport to the Na+ gradient

Threshold:
• at 200-220 mg/dL some nephrons become saturated with glucose and you START TO SEE GLUCOSE IN THE URINE

Tm:
• ALL nephrons are maxed out and GLUCOSE INCREASES IN THE URINE ARE PROPORTIONAL TO PLASMA GLUCOSE

Question 20

What are some physiologic and pathologic causes of Glucosuria?

Answer 20

Physiologic:
• Pregnancy

Pathologic:
• DIABETES MELLITUS
• FAMILIAL RENAL GLUCOSURIA MUTATION IN SGLT1/2

Question 21

Describe the absorption of amino acids and organic acids in the proximal tubule of the kidney?
• where do most organic acids come from?

Answer 21

Amino Acids:
• Co-transport with Na+
• only 0.5-2% excreted

Organic Acids:
• Co-transport with Na+
• Most organic acids come from Krebs Cycle intermediates

Question 22

What are some diseases where ORGANIC acid secretion is hight?

Answer 22

Organic Acids:

• High in DIABETIC KETOACIDOSIS

Question 23

T or F: there are many transporters to reabsob peptides.

Answer 23

True, very little peptide should ever be excreted in the urine

Question 24

What are some diseases that cause Proteinuria?

Answer 24

• Multiple Sclerosis
• Hemoglobinemia
• Myoglobinemia

Question 25

T or F: like glucose, phosphates have a fixed transport maximum.

Answer 25

FALSE, PTH controls the transport maximum for phosphate

Question 26

Why is phosphate often excreted rather than reabsorbed?
• what causes changes in this?
• Transport mechanism when resorption is used?

Answer 26

Phosphate:
• Important buffer in the blood so we need to keep it at a constant concentration

Changes:
• PTH secreted by the pituitary controls this

Mechanism:
• Na+ cotransport is used when reabsorption is done

Question 27

While 66% of fluid is reabsorbed in the proximal tubule, only 60% of Cl- is reabsorbed. why?

Answer 27

Cl- must compete with ACTIVELY transported HCO3-

Question 28

How is urea reabsorbed?

*what would be an easy way to increase urea excretion?

Answer 28

Urea is PASSIVELY reabsorbed in the PT
• this is SLOW so a greater URINARY FLOW would DECREASE urea absorption

**Typically only 50% reabsorbed

Question 29

What is the use of substances that are FREELY FILTERED but not rapidly reabsorbed?
• example?

Answer 29

DIURESIS:
• MANNITOL - will increase osmolarity of filtrate so less H2O leaves tubule and more gets excreted

CLINICAL USE:
• Reduction of Intracranial Pressure, Intraocular Pressure, promotes excretion of toxins and edema