Lecture 7- Tubular transport Flashcards
Ways substances can be transported across the membrane
Diffusion
Osmosis
Carrier mediated transport (facilitated diffusion)
Active transport (Na/K ATPase and co-transportation with glucose and amino acids)
Describe sodium overall in the kidney
Reabsorbed in the proximal tubule (65%), thin and thick limbs of loop of henle (25%), and collecting duct (4-5%)
NOT secreted by nephron
Reabsorption is active and powered by Na/K ATPase
Describe water in overall kidney
Reabsorption is solute coupled
Reabsorbed in proximal tubule (64%), thin descending limb of loop of henle (10%), and collecting ducts (1-24%)
Describe potassium overall in the kidney
Most is reabsorbed in proximal tubule (55%)
Some is co-transorted with Na+ in ascending limb of loop of henle (30%)
Actively reabsorbed in distal tubule (10%)
Secretion occurs in distal tubule and collecting duct
What are some important features of the proximal tubule
Reabsorption is isosmotic Na+, glucose, and other amino acids reabsorption is active Cl, K, and water reabsorption is passive H+ is secreted through Na/H anti-porter 2/3 of the filtrate is reabsorbed
Describe the first half of the proximal tubule
Na is moved from tubular fluid to peritubular fluid with a co-transporter (glucose, amino acids, phosphate, chloride, or lactate)
Na is moved into peritubular fluid and H is moved into tubular fluid through a Na/H anti-porter
**the H ions come from carbonic anhydrase reaction
Na is moved into blood from peritubular fluid through Na/K ATPase
The cotransporter (glucose, amino acid, phosphate, chloride, lactate) is moved to blood from peritubular fluid through facilitated diffusion
Bicarbonate ions (from carbonic anhydrase) are moved into blood from peritubular fluid through facilitated diffusion
Describe the second half of the proximal tubule
Na and Cl are moved into peritubular fluid through paracellular diffusion
Na and Cl is also moved into peritubular fluid through a complex co-transporter involving two anti-porters and weak acids
Na is moved into the blood through Na/K ATPase
Cl is moved into blood with K through facilitated diffusion
Describe the secretion mechanisms in the proximal tubule for organic anions
Organic anions:
Anti porter that transports two different organic acids (for example, transport penicillin, contrast agent, lasix into tubule lumen while transporting organic acids like chloride, urate,and hydroxyl into the peritubular fluid
There is active transport using ATP and an organic acid into the tubule lumen
There is a complex tertiary active transport moving organic anions from the blood into the peritubular fluid
Describe secretion mechanisms in the proximal lumen for organic cations
Organic cations get into the tubule lumen from the pertitubular lumen
Organic cations get to peritubular fluid from blood through co-facilitated diffusion
Describe activity in the descending limb of the loop of henle
Cells have minimal metabolic activity- little active transport
High permeability to water, moderate permeability to urea, sodium, and other ions
Describe the activity in the thin ascending loop of Henle
Little active transport
Little/no permeability to water
High permeability to sodium
Thick ascending limb of loop of henle
Impermeable to water- primary sit of urine dilution
Net reabsorption of sodium, chloride, and potassium via Na/K/2Cl co-transporter
Establishes a high ion concentration gradient between lumen and peritubular fluid
Establishes a high osmolar concentration gradient between lumen and peritubular fluid
Describe the activity of the early distal tubule
Can establish high ionic concentration gradient and high osmolar concentration gradient between urine and plasma
Impermeable to water
Sodium is reabsorbed through Na/Cl symporter
Describe the activity of the late distal tubule and collecting duct
Permeability to water is variable and controlled by ADH
Principal cells secrete potassium- can vary from no net K+ secretion to net K+ secretion, reabsorb sodium, and are the site of ADH
H+ is actively secreted by intercalated cells
