it seems pretty simple in my book, but the questions always seem to ask complicated stuff about ADH and aldosterone that i get wrong, and the relation of the kidney to all these things. can someone please clarify the kidneys role in
I'll try to answer at a level that I feel is sufficient for the MCAT
🙂
Blood pressure is regulated by the kidney PRIMARILY through the action of aldosterone.
Drops in blood pressure are sensed by the JGA, which is a structure found in EACH nephron and contains specialized cell groups called macula densa that are responsible for sensing the changes associated with drops in blood pressure. The macula densa will then tell the granulosa cells of the JGA to release "renin".
Renin is the initiator of the Renin-Angiotensin-Aldosterone System (RAAS).
Angiotensinogen --> Angiotensin I (via renin)
Angiotensin I --> Angiotensin II (via ACE, angiotensin converting enzyme)
Angiotensin II will then stimulate the production of Aldosterone in the zona glomerulosa layer of the adrenal gland.
Aldosterone will then go to work at the collecting ducts of the nephron by increasing sodium reabsorption from the tubular filtrate (the stuff inside the nephron / collecting duct that will be called urine later).
Sodium is the primary cation in the blood plasma, and is the major driviig force of blood volume as a result. E.g. blood osmolarity is 300 mOsm, and Na+ alone adcounts for nearly 145 mOsm. Just for kicks, it is accompanied by about 4-5 mOsm of K+, and those two cations (about 150 mOsm total) are balanced by 150 mOsm of anions, largely HCO3- (important for plasma buffering) and Cl-.
So, to recap, the JGA of the nephron picks up drops in blood pressure, stimulates renin release, which causes the RAA System to go into effect, which causes the blood volume to go up by virtue of the fact that it's pumping osmoles of Na+ into the blood.
ADH on the other hand "can" increase blood pressure, but it only does so when large volumes of blood are lost and it's primary function is to retrieve water from the collecting duct via increased expression of "aquaporin" proteins, which are water permeable. I know, I know... adding water should increase blood pressure via an increase in volume, right? Just memorize it... lol. These aquaporin receptors allow things to happen because the tubular fluid will lose water to the renal interstitum, which has a super high osmolarity (up to 1,200 mOsm under certain conditions).
Osmoreceptors in your hypothalamus will detect increases in osmolarity (which happens when water is lost) and stimulate production of ADH (aka vasopressin) in the hypothalamus, which is released inside the body of the neurohypophysis (the posterior pituitary).
Worth noting, that was not mentioned in your questions, is a hormone called ANP. This hormone responds to INCREASES in atrial pressure (the atria of your heart) and will essentially turn off the RAAS, specifically aldosterone.
So, to recap on ADH, ADH responds to decreases in osmolarity via osmoreceptors in the hypothalamus. It responds by increasing exprsesion of aquaporins in the collecting duct, which allows water to permeate the collecting duct and go into the medulla of the kidney, where the interstitial concentration can reach as high as 1,200 mOsm (drawing in the water).
I didn't check my work, so forgive me if there are problems and typos ^_^
