Difference between revisions of "Aquaporins of the Kidney and Water Homeostasis - Anatomy & Physiology"
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− | {{ | + | {{toplink |
+ | |backcolour = C1F0F6 | ||
+ | |linkpage =Kidney - Electrolyte Balance | ||
+ | |linktext =KIDNEY ELECTROLYTE BALANCE | ||
+ | |maplink = Urinary System (Content Map) - Anatomy & Physiology | ||
+ | |pagetype =Anatomy | ||
+ | }} | ||
+ | <br> | ||
==The Ability of the Kidney To Alter the Water Content of the Body== | ==The Ability of the Kidney To Alter the Water Content of the Body== | ||
− | * Take a dog which weighs 20kg and is drinking normally. It will produce 0.5l of | + | * Take a dog which weighs 20kg and is drinking normally. It will produce 0.5l of water per 24 hours. |
* If the dog drinks excessively it can produce 8ml urine/min to compensate meaning a total of 11 litres per 24 hours | * If the dog drinks excessively it can produce 8ml urine/min to compensate meaning a total of 11 litres per 24 hours | ||
* If a dog is denied water the production drops to a tiny 0.15 litres per 24 hours | * If a dog is denied water the production drops to a tiny 0.15 litres per 24 hours | ||
Line 8: | Line 15: | ||
The reabsorption of water can occur paracellulary - the main method in the proximal tubule or transcellulary - the main method in the distal tubule and collecting duct. | The reabsorption of water can occur paracellulary - the main method in the proximal tubule or transcellulary - the main method in the distal tubule and collecting duct. | ||
− | * Contrary to popular belief diffusion of water | + | * Contrary to popular belief diffusion of water accross lipid bilayers (transcellulary) is too slow for most physiological processes |
* Aquaporins solve this problem | * Aquaporins solve this problem | ||
− | |||
− | |||
− | |||
==What are Aquaporins== | ==What are Aquaporins== | ||
* Family of membrane channel proteins | * Family of membrane channel proteins | ||
* Over a dozen homologous water transporting proteins make up this family in mammals | * Over a dozen homologous water transporting proteins make up this family in mammals | ||
− | * Allow rapid transport of substances | + | * Allow rapid transport of substances accross membranes |
* Found in all life forms | * Found in all life forms | ||
* Commonly abbreviated to '''AQP''' | * Commonly abbreviated to '''AQP''' | ||
* Ones found in the kidneys are: | * Ones found in the kidneys are: | ||
** <Font Color="#669933">'''AQP1'''</Font> - Tubules | ** <Font Color="#669933">'''AQP1'''</Font> - Tubules | ||
− | ** <Font Color="#669933">'''AQP2'''</Font> - [[ | + | ** <Font Color="#669933">'''AQP2'''</Font> - [[Collecting Duct - Anatomy & Physiology| Collecting duct]] |
− | ** <Font Color="#CC6633">'''AQP3'''</Font> - [[ | + | ** <Font Color="#CC6633">'''AQP3'''</Font> - [[Collecting Duct - Anatomy & Physiology| Collecting duct]] |
− | ** <Font Color="#669933">'''AQP4'''</Font> - [[ | + | ** <Font Color="#669933">'''AQP4'''</Font> - [[Collecting Duct - Anatomy & Physiology| Collecting duct]] |
− | ** <Font Color="#660000">'''AQP6'''</Font> - [[ | + | ** <Font Color="#660000">'''AQP6'''</Font> - [[Collecting Duct - Anatomy & Physiology| Collecting duct (intercalated cells)]] |
− | ** <Font Color="#CC6633">'''AQP7'''</Font> - [[ | + | ** <Font Color="#CC6633">'''AQP7'''</Font> - [[Proximal Tubule - Anatomy & Physiology| Proximal tubule]] |
** <Font Color="#9900ff">'''AQP11'''</Font> - Kidney | ** <Font Color="#9900ff">'''AQP11'''</Font> - Kidney | ||
* They are colour coded according to their function | * They are colour coded according to their function | ||
Line 34: | Line 38: | ||
** <Font Color="#9900ff">'''Function Unknown'''</Font> | ** <Font Color="#9900ff">'''Function Unknown'''</Font> | ||
+ | ==Function== | ||
* They allow the reabsorption of water, glycerol and chlorine from the filtrate | * They allow the reabsorption of water, glycerol and chlorine from the filtrate | ||
* Without them producing concentrated urine would be impossible | * Without them producing concentrated urine would be impossible | ||
− | |||
− | |||
− | |||
− | + | * AQP2 is stored in vesicle membranes within the [[Collecting Duct - Anatomy & Physiology #Principal Cells| principal cells]] of the [[Collecting Duct - Anatomy & Physiology| collecting ducts]] | |
− | [[ | + | * [[Endocrine System - Pituitary Gland - Anatomy & Physiology #Posterior Pituitary Gland| ADH]] causes these vesicles to attach to the principal cell membranes. |
+ | * This is how ADH works. | ||
+ | ** The higher its concentration the more AQP2 bind to principal cell membranes therefore the more AQP2 available to water within the collecting duct | ||
+ | ** The more water is reabsorbed | ||
+ | ** Thanks to the gradient created by the hypertonic medulla which is present due to the countercurrent multiplier in the [[Loop Of Henle - Anatomy & Physiology| Loop of Henle]] | ||
+ | * This system allows both concentrated and dilute urine to be produced depending on ADH secretion and therefore the density of aquaporins in the principal cell membranes | ||
+ | |||
+ | ==Other Means of Water Homeostasis== | ||
+ | As well as the aquaporins in the distal tubule and collecting duct significant water reabsorption occurs in the [[Proximal Tubule - Anatomy & Physiology| proximal tubule]] and the [[Loop Of Henle - Anatomy & Physiology| Loop of Henle]] and is linked to the absorption of [[Sodium Homeostasis - Physiology| sodium.]] |
Revision as of 16:27, 11 August 2008
|
The Ability of the Kidney To Alter the Water Content of the Body
- Take a dog which weighs 20kg and is drinking normally. It will produce 0.5l of water per 24 hours.
- If the dog drinks excessively it can produce 8ml urine/min to compensate meaning a total of 11 litres per 24 hours
- If a dog is denied water the production drops to a tiny 0.15 litres per 24 hours
The reabsorption of water can occur paracellulary - the main method in the proximal tubule or transcellulary - the main method in the distal tubule and collecting duct.
- Contrary to popular belief diffusion of water accross lipid bilayers (transcellulary) is too slow for most physiological processes
- Aquaporins solve this problem
What are Aquaporins
- Family of membrane channel proteins
- Over a dozen homologous water transporting proteins make up this family in mammals
- Allow rapid transport of substances accross membranes
- Found in all life forms
- Commonly abbreviated to AQP
- Ones found in the kidneys are:
- AQP1 - Tubules
- AQP2 - Collecting duct
- AQP3 - Collecting duct
- AQP4 - Collecting duct
- AQP6 - Collecting duct (intercalated cells)
- AQP7 - Proximal tubule
- AQP11 - Kidney
- They are colour coded according to their function
- Water channels
- Glycerol channels
- Intracellular chloride channels
- Function Unknown
Function
- They allow the reabsorption of water, glycerol and chlorine from the filtrate
- Without them producing concentrated urine would be impossible
- AQP2 is stored in vesicle membranes within the principal cells of the collecting ducts
- ADH causes these vesicles to attach to the principal cell membranes.
- This is how ADH works.
- The higher its concentration the more AQP2 bind to principal cell membranes therefore the more AQP2 available to water within the collecting duct
- The more water is reabsorbed
- Thanks to the gradient created by the hypertonic medulla which is present due to the countercurrent multiplier in the Loop of Henle
- This system allows both concentrated and dilute urine to be produced depending on ADH secretion and therefore the density of aquaporins in the principal cell membranes
Other Means of Water Homeostasis
As well as the aquaporins in the distal tubule and collecting duct significant water reabsorption occurs in the proximal tubule and the Loop of Henle and is linked to the absorption of sodium.