5.2.8 Osmoregulation

Question 1

What is osmoregulation?

Answer 1

The control of the water potential of body fluids is known as osmoregulation
Osmoregulation is a key part of homeostasis
Specialised sensory neurones, known as osmoreceptors, monitor the water potential of the blood (these osmoreceptors are found in an area of the brain known as the hypothalamus)
If the osmoreceptors detect a decrease in the water potential of the blood, nerve impulses are sent along these sensory neurones to the posterior pituitary gland (another part of the brain just below the hypothalamus)
These nerve impulses stimulate the posterior pituitary gland to release antidiuretic hormone (ADH)
ADH molecules enter the blood and travel throughout the body
ADH causes the kidneys to reabsorb more water
This reduces the loss of water in the urine

Question 2

What is the effect of ADH on the kidneys?

Answer 2

Water is reabsorbed by osmosis from the filtrate in the nephron
This reabsorption occurs as the filtrate passes through structures known as collecting ducts
ADH causes the luminal membranes (ie. those facing the lumen of the nephron) of the collecting duct cells to become more permeable to water
ADH does this by causing an increase in the number of aquaporins (water-permeable channels) in the luminal membranes of the collecting duct cells. This occurs in the following way:
Collecting duct cells contain vesicles, the membranes of which contain many aquaporins
ADH molecules bind to receptor proteins, activating a signalling cascade that leads to the phosphorylation of the aquaporin molecules
This activates the aquaporins, causing the vesicles (with aquaporin-containing membranes) to fuse with the luminal membranes of the collecting duct cells
This increases the permeability of the membrane to water
As the filtrate in the nephron travels along the collecting duct, water molecules move from the collecting duct (high water potential), through the aquaporins, and into the tissue fluid and blood plasma in the medulla (low water potential)
As the filtrate in the collecting duct loses water it becomes more concentrated
As a result, a small volume of concentrated urine is produced. This flows from the kidneys, through the ureters and into the bladder
If water potential of the blood is too high the opposite occurs:
Osmoreceptors in the hypothalamus are not stimulated
No nerve impulses are sent to the posterior pituitary gland
No ADH released
Aquaporins are moved out of the luminal membranes of the collecting duct cells
Collecting duct cells are no longer permeable to water
The filtrate flows along collecting duct but loses no water and is very dilute
A large volume of dilute urine is produced
This flows from the kidneys, through the ureters and into the bladder