Osmoregulation Flashcards
what is osmoregulation
the homeostatic control of the water potential of blood
role of osmoregulation in stages
- formation of glomerular filtrate by ultrafiltration
- reabsorption of glucose and water by the proximal convoluted tubules
- maintenance of a gradient of sodium ions in the medulla by the loop of henle
- reabsorption of water by the distal convoluted tubules and collecting ducts
Describe the formation of glomerular filtrate
- High hydrostatic pressure in glomerulus
○ As diameter of afferent arteriole (in) is wider than efferent arteriole (out) - Small substances eg. water, glucose, ions, urea forced into glomerular filtrate, filtered by:
a. Pores / fenestrations between capillary endothelial cells
b. Capillary basement membrane
c. Podocytes - Large proteins / blood cells remain in blood
Describe the reabsorption of glucose
by the proximal convoluted tubule
- Na+ actively transported out of epithelial cells to capillary
- Na+ moves by facilitated diffusion into epithelial cells down a concentration gradient, bringing glucose against its concentration gradient
- Glucose moves into capillary by facilitated diffusion down its concentration gradient
Describe the reabsorption of water
by the proximal convoluted tubule
Glucose etc. in capillaries lower water potential
● Water moves by osmosis down a water potential
gradient
Describe and explain how features of the cells in the PCT allow the rapid reabsorption of glucose into the blood
Microvilli / folded cell-surface membrane → provides a large surface area
● Many channel / carrier proteins → for facilitated diffusion / co-transport
● Many carrier proteins → for active transport
● Many mitochondria → produce ATP for active transport
● Many ribosomes → produce carrier / channel proteins
Suggest why glucose is found in the urine of an untreated diabetic person
● Blood glucose concentration is too high so not all glucose is reabsorbed at the PCT
● As glucose carrier are saturated / working at maximum rate
Explain the importance of maintaining a gradient of sodium ions in the
medulla
● So water potential decreases down the medulla (compared to filtrate in collecting duct)
● So a water potential gradient is maintained between the collecting duct and medulla
● To maximise reabsorption of water by osmosis from filtrate
Describe the role of the loop of Henle in maintaining a gradient of sodium
ions in the medulla
- In the ascending limb:
○ Na+ actively transported out (so filtrate concentration decreases)
○ Water remains as ascending limb is impermeable to water
○ This increases concentration of Na+ in the medulla, lowering water potential - In the descending limb:
○ Water moves out by osmosis then reabsorbed by capillaries (so filtrate concentration increases)
○ Na+ ‘recycled’ → diffuses back in
Suggest why animals needing to conserve water have long loops of Henle
More Na + moved out → Na + gradient is maintained for longer in medulla / higher Na+ concentration
● So water potential gradient is maintained for longer
● So more water can be reabsorbed from collecting duct by osmosis
Describe the reabsorption of water by the distal convoluted tubule and
collecting ducts
● Water moves out of distal convoluted tubule & collecting duct by osmosis down a water potential gradient
● Controlled by ADH which increases their permeability
Describe the role of the hypothalamus in osmoregulation
- Contains osmoreceptors which detect increase OR decrease in blood water potential
- Produces more ADH when water potential is low OR less ADH when water potential is high
Describe the role of the posterior pituitary gland in osmoregulation
Secretes (more / less) ADH into blood due to signals from the hypothalamus
Describe the role of antidiuretic
hormone (ADH) in osmoregulation
- Attaches to receptors on collecting duct (and
distal convoluted tubule) - Stimulating addition of channel proteins
(aquaporins) into cell-surface membranes - So increases permeability of cells of collecting
duct and DCT to water - So increases water reabsorption from collecting
duct / DCT (back into blood) by osmosis - So it decreases volume and increases concentration of urine produced
