Renal urea handling explained

Renal urea handling is the part of renal physiology that deals with the reabsorption and secretion of urea. Movement of large amounts of urea across cell membranes is made possible by urea transporter proteins.

Urea allows the kidneys to create hyperosmotic urine (urine that has more ions in it - is "more concentrated" - than that same person's blood plasma). Preventing the loss of water in this manner is important if the person's body must save water in order to maintain a suitable blood pressure or (more likely) in order to maintain a suitable concentration of sodium ions in the blood plasma.

About 40% of the urea filtered is normally found in the final urine, since there is more reabsorption than secretion along the nephron.

It is regulated by antidiuretic hormone, which controls the amount reabsorbed in the collecting duct system and secreted into the loop of Henle.

Overview table

Characteristicproximal tubuleloop of HenleDistal convoluted tubuleCollecting duct system
S1S2S3descending limbthin ascending limbthick ascending limbconnecting tubuleinitial collecting tubulecortical collecting ductsmedullary collecting ducts
reabsorption (% compared to filtered amount) 50[1] 50
secretion (% compared to filtered amount) 50
reabsorption (mmoles/day)
Concentration
electrical driving force (mV)-3[2] +3 +15 -5 to +5 -40
chemical driving force (mV)
electrochemical driving force (mV)
apical transport proteins
  • unknown transporter
basolateral transport proteins
  • unknown transporter
  • unknown transporter
Other reabsorption features

Notes and References

  1. Book: Walter F., PhD. Boron . Medical Physiology: A Cellular And Molecular Approach . Elsevier/Saunders . 1-4160-2328-3 . Page 791
  2. Book: Walter F., PhD. Boron . Medical Physiology: A Cellular And Molecular Approach . Elsevier/Saunders . 1-4160-2328-3 . Page 777