in this Endocrinology video we will talk about the hypothalamic pituitary axis of the adrenal corticotropic hormones so the hormones of the adrenal cortex actually the brain consists of structures that are very important in regulating the hormones in our body the hypothalamus is actually the main regulator the pituitary gland which below the hypothalamus is made up of the anterior and posterior lobes and these are also important endocrine glands but here we will mainly focus on the anterior pituitary gland we're only going to talk about the anterior pituitary because we are talking about the adrenal gland and its hormones so the adrenal glands sit above our kidneys and we have two kidneys and so we have two adrenal glands here is a cross-section of an adrenal gland it is made up of a Adrenal medulla in the center and the adrenal cortex on the outside or periphery the adrenal cortex and adrenal Medela produces very different hormones but in a way they are similar unlike the adrenal cortex the Adrenal medulla is stimulated by nerves the brain sends signals down down the spinal cord and the nerves which are leaving the spinal cord are sympathetic nerves that will Target the adrenal Medela to secrete adrenaline and nor adrenaline or epinephrine and nor epinephrine an increase in nor adrenaline or adrenaline in our blood essentially will trigger the fight or flight response and so it will increase the sympathetic activity and this is what we will see when there is an acute stress when we are nervous when we are running away in fear or get a sudden jolt of horror but what about the adrenal cortex well the adrenal cortex is responsible for long-term stress response you can say the adrenal cortex has actually three main layers which can be remembered from the top as GFR such as the GFR of the kidneys so the very outer layer is the Zona glomerulosa F is for Zona fcul and R is for Zona reticularis again the Adrenal medulla produces hormones for acute stress however in the long-term stress response the adrenal cortex has a bigger role long-term stresses will actually just essentially cause the hypothalamus in the brain to release cortico tropin releasing hormone which then will target cells in the anterior pituitary gland to release another hormone called adrenocorticotropic hormone or act for short act will enter circulation of the blood and target cells within the adrenal gland specifically the adrenal cortex it will stimulate the cells within the glosa Zona glosa to release mineral corticoids mainly aldosterone act will stimulate cells in the zone of facula to release glucocorticoids mainly cortisol act will stimulate cells in the zon of reticularis to release androgens out of these three hormones the glucocorticoids has the very important role in providing a negative feedback to the brain what I mean by negative feedback is that if there is an increased in glug of corticoids in circulation this will send a negative feedback signal to the hypothalamus telling it to reduce the production of corticotropic releasing hormone and thus reducing the whole Cascade from there all right let us focus on each of these three adrenal cortex hormones and see what they do beginning with mineral cords to understand mineral corticoids we need to know about the kidneys and their functional units called the nephrons so the nephrons are the functional units of the kidneys there are millions of these and these guys are responsible for filtering reabsorbing and secreting things from our body and thus also have have a has a major role in controlling our blood pressure so kidneys the nephrons have a main role have a big role in controlling blood pressure when there is a decrease in blood pressure the kidneys will reabsorb water and sodium in back into the blood and either reabsorb or secrete potassium in exchange the increase in water and sodium in the blood will then increase blood pressure back to normal aldosterone secreted by the Zona glomerulosa of the adrenal cortex will actually stimulate this process thereby increasing blood pressure aldosterone primarily works at the distal part of the nefron known as the distal convulated tubu and the collecting duct so aldosterone stimulates water and sodium retention thereby increasing blood pressure it also actually tells potassium to be secreted out thus can lead to hypokalemia anyway let's talk about glucocorticoids glucocorticoids primarily cortisol is secreted by the Zona facula and has many functions we mentioned it has a responsibility for negative feedback to the brain telling the brain to reduce the secretion of act glucocorticoids have other functions such as causing hyperglycemia it does this by stimulating the liver or telling the liver to make more glycogen stores which will eventually fill up it tells the liver to make more glucose gluconeogenesis tells the liver to increase protein breakdown and actually induces insulin resistance as well as increasing fat deposition all this will either result in too much glucose in the liver which will eventually be shunted into circulation or or because of the insulin resistance this will cause the inability of glucose to be taken up by cells thus leading to hypoglycemia glucocorticoids also increase blood pressure and suppresses the immune system it suppresses the immune system which helps decrease pain pain sensation but at the same time it will increase the risk of infection and this is because their immune cells are being suppressed and th thus are unable to defend our body finally glucocorticoids also stimulate osteoclastic activity in the bone leading to osteopenia and increasing the risk of osteoporosis thus increasing the risk of bone fractures the final hormone secreted by the adrenal cortex comes from the Zona reticula which is the area of the adrenal cortex which release androgens it's important to know that unlike Al gone and glucocorticoids androgens have minimal role in stress androgens actually promote prostate growth in men and help with the development of masculine characteristics such as a deep voice and hair growth in females androgens adrenal androgens are important in libido and thus a decrease in Androgen production will result in a decrease in libido decrease in sexual drive in females those were the general effects and functions of the three hormones produced by the adrenal cortex in response to longterm stress amongst many other things it is important to learn about another factor which actually affects the release of aldosterone not really related to stress this other factor is a molecule called Angiotensin 2 which is part of the renin angot testosterone system to understand this topic we need to go back to the nefron the functional units of the kidneys as mentioned the nephron filters things from our blood the afren arterial will are the vessels that enter the head of the Nephron for filtration and the ephant will leave the head of the nefron the things filtered will will go through the nefron tubes and essentially come out as urine now when there is low blood pressure it will decrease the filtration rate and it will also decrease the pressure in the afront arterial coming into the head of the nefron this decrease in pressure essentially will stimulate the release of renin from the juxtaglomerular cells and renin will essentially start the renin ando's tenson aldosterone system Cascade which eventually the final outcome will be activation of the final product called Angiotensin 2 Angiotensin 2 will stimulate Zona glomerulosa to secrete aldosterone in the attempt to increase blood pressure by targeting the nefron two remember the aldosterone will Target the nefron to retain and reabsorb sodium and thus water into the vasculature leading to an increase in blood pressure I hope you enjoyed this video thank you very much for watching by