Renal tubular Renal tubular reabsorption/Secretionreabsorption/Secretion

Urine Formation PreviewUrine Formation Preview

Renal tubular Renal tubular reabsorption/Secretionreabsorption/Secretion

Excretion refers to the removal of solutes and water from the body in urine

Reabsorption (movement from tubular fluid to peritubular blood) and,

Secretion (movement from peritubular blood to tubular fluid) refer to direction of movement of solutes and water across the renal tubular epithelium

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Renal tubular reabsorption Renal tubular reabsorption through PCTthrough PCT Solute reaborption in the proximal

tubule is isosmotic (water follows solute osmotically and tubular fluid osmolality remains similar to that of plasma).

65%-70% of water and sodium reabsorption occurs in the proximal tubule90% of bicarbonate, calcium, K+100% of glucose & amino acids

Proximal tubules: coarse adjustment Distal tubules: fine adjustment

(hormonal control).

Loop of HenleLoop of HenleResponsible for producing a

concentrated urine by forming a concentration gradient within the medulla of kidney.

When ADH is present, water is reabsorbed and urine is concentrated.

Counter-current multiplier

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Loop of Henle:

Acts in manner of counter current exchanger. Note that each limb of loop has fluid moving in opposite directions (even though connected at one end).

Further concentrates urine.

Also means that salt concentration will be highest near bend in the loop.

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Absorption through loop of Henle:

Descending limb: is water permeable and allow absorption of 25% of filtered H2O. It is impermeable to Na-CL.

Thin ascending limb: is impermeable to H2O, but permeable to Na-Cl, where they are absorbed passively in this part .

Thick ascending limb: is impermeable to H2O. Na-K-2Cl co-transport occur in this part.

Distal convoluted tubule and Distal convoluted tubule and collecting ductscollecting ductsWhat happens here depends on

hormonal control:Aldosterone affects Na+ and K+ADH – facultative water reabsorptionParathyroid hormone – increases Ca+

+ reabsorption

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Distal convoluted tubule and Distal convoluted tubule and collecting ductscollecting ductsTubular secretion to get rid of substances: K+, H+, urea, ammonia, creatinine and certain drugs

Secretion of H+ helps maintain blood pH(can also reabsorb bicarb and generate new bicarb)

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NaNa++ absorption absorptionNa+ absorbed occurs by

many mechanisms depending on the part of nephron:

1- active transport mechanism:

E.g. Collecting tubules & ducts.

2- Passive at the thin ascending limb

3- Co-transport: thick ascending

Glucose handlingGlucose handlingGlucose absorption

also relies upon the Na+ gradient.(Na-glucose co-transport)

Most reabsorbed in proximal tubule.

At apical membrane, needs Na+/glucose cotransporter (SGLT)

Crosses basolateral membrane via glucose transporters (GLUT’s), which do not rely upon Na+.

KK++ handling handlingK+ is major cation in

cells and balance is essential for life.

Small change from 4 to 5.5 mmoles/l = hyperkalaemia

K+ is reabsorbed at proximal tubule.

Changes in K+ excretion due to changes in K+ secretion in distal tubule

KK++ handling handlingK+ reabsorption along the

proximal tubule is largely passive and follows the movement of Na+ and fluid (in collecting tubules, may also rely active transport).

K+ secretion occurs in cortical collecting tubule (principal cells), and relies upon active transport of K+ across basolateral membrane and passive exit across apical membrane into tubular fluid.

Countercurrent Countercurrent MultiplierMultiplier

Countercurrent is that, fluid flows down the descending limb and up the ascending limb.The critical characteristics of the loops which make them countercurrent multipliers are:1. The ascending limb of the loop of Henle actively co-transports Na+ and Cl- ions out of the tubule lumen into the interstitium. The ascending limb is impermeable to H2O.2. The descending limb is freely permeable to H2O but relatively impermeable to NaCl.

H2O that moves out of tubule into intersitium is removed by the blood vessels called vasa recta – thus gradients maintained and H2O returned to the circulation.

Mechanisms of tubular transport:

Active transport:i.Primary active transport: e.g. Na-K-pump, H+-pumpii.Secondary active transport : e.g. Na-K-2Cl co-transport, glucose-sodium co-transport, amino acid-sodium co-transport.

Passive transport:i.Simple diffusion e.g. Cl, HCO3-, urea.ii.Facilitated diffusion glucose at the basal border.

Osmosis.

Passive transport (simple diffusion): Passive transport (simple diffusion): DefinitionDefinition

◦Movement of a substance across a membrane as a result of random molecular motion down concentration and electrochemical gradient. No energy needed.

◦E.g. bicarbonate, chloride,

Facilitated diffusion: Facilitated diffusion: DefinitionDefinitionMovement of a substance across a

membrane down its electrochemical gradient after binding with a specific carrier protein in the membrane.

Needs a carrier.Examples:Glucose, amino acids: At Basolateral

membranes of proximal tubulesSodium: luminal membranes of proximal

tubules

Primary active transport: Primary active transport:

Movement of a substance across a membrane in combination with a carrier protein but against an electrochemical gradient.

Directly requires metabolic energy (i.e. hydrolysis of ATP)

Primary active transport: Primary active transport:

ExamplesExamples

Na+-K+ ATPaseH+ ATPaseH+-K+ ATPaseCa+2 ATPase

NaNa++-K-K++ ATPase ATPase

In renal tubular cells found only in basolateral membrane

When ATP is hydrolyzed, 2 K+ ions are pumped into the cell and 3 Na+ ions are pumped out

Maintains favorable electrochemical gradient for Na+ entry at luminal membrane

Maintains cell membrane potential difference and intracellular osmolality

Secondary active transport: Secondary active transport: CotransportCotransportTwo substances bind

with one specific carrier in the cell membrane and both substances are translocated across the membrane.◦Co-transport

Transported substances move in the same direction across the membrane

Glucose, PGlucose, Pii amino acidsamino acids

NaNa++

NaNa++

HH++

3 Na3 Na++

2 2 KK++

KK++

lumen Basolat

Water Reabsorption: (Osmosis)

In the proximal tubule, water follows sodium passibvely and isosmotically because the proximal tubule is very permeable to water.

Water moves both transcellularly and paracellularly. The transcellular movement is facillitated by “aquaporin” water channels in both the apical and basalateral membranes.

Concentration of urine

Counter current multiplier:

Counter current exchanger (vasa recta).

Hyperosmolar medulla produced by:-Passive absorption of NaCl-Active absorption of Na in thick acending limb-ADH helping absorption of urea by collecting tubules.- slow flow of tubular blood that prevents rapid wash out of solutes in medulla (vasa recta).

What do the kidneys do?What do the kidneys do?

The glomeruli filter the blood, and the tubules take back what the body needs leaving the rest as waste to be excreted. Some wastes also can be actively added to the tubular fluid.

Thick ascending : Na-K-2Cl co-transportDescending limb: 25% H2O2 absorption