Insulin signal transduction pathways | Mechanism of action | Endocrine system physiology mbbs
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- เผยแพร่เมื่อ 11 ก.ค. 2024
- Physiology lecture on endocrine system physiology details mechanism of action of insulin.
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There are 2 fundamental signal transducing pathways by which insulin acts:
1. Phosphotidylinositol-3 kinase or PI3-Kinase pathway
2. Ras-MAP kinase pathway.
Insulin acts by binding to its receptors which are present on the cell membrane of its target cell. Insulin receptors are enzyme linked receptors which have inherent tyrosine kinase enzyme activity. The insulin receptors are present as tetramers i.e they have 4 polypeptides or subunits which assemble to form the receptor. Two of these subunits are alpha subunits while the other two are beta subunits. Alpha subunits project outside the membrane i.e form the extracellular part of the receptor which has the binding site for insulin. The beta subunits traverse through the membrane and protrude into the cytoplasm and has intrinsic tyrosine kinase activity i When insulin is not bound to the receptors, the tyrosine kinase is inactive. When the insulin binds to its receptors, the tyrosine kinase activity of beta subunits activates which then cross-phosphorylate tyrosine residues of each other. This receptor then binds to insulin receptor substrates. Once that happens this insulin receptor substrate becomes a docking site for other kinases and adaptor proteins.
PI3-Kinase pathway:
Phosphotidylinositol-3 kinase phosphorylates phosphatidylinositol 4-5 biphosphate. For this, initially it binds to IRS. This brings it close to its substrate which is present on the membrane and also activates it by phosphorylation. Then, it phosphorylates, PIP2 forming phosphotidyinositol 3,4,5 triphosphate. Now this triphosphate also acts as a docking site for 2 other kinases i.e phosphoinositide dependent kinase 1 and Protein kinase B. Now PDK-1 phosphorylates protein kinase B or AKT thus activating it. It is this protein kinase B which now dissociates and moves into the cytoplasm which then causes insertion of GLUT 4 receptors on the membrane, activates glycogen synthase for conversion of glucose to glycogen, inactivates glycogen phosphorylase for preventing glycogenolysis and hence causes varied effects on metabolism.
2. RAS-MAPK pathway
Monomeric G-proteins have the ability to bind GDP and GTP. In inactive state , they are bound to GDP while when active they bind to GTP just like our trimeric G proteins. For activating it, insulin receptor substrate binds with another adaptor protein GRB2 which in turn binds and activates a Guanine exchange factor protein SOS which replaces Ras GDP with GTP causing its activation. The activation of Ras inturn leads to activation of kinase cascade including Raf, MEK and then ultimately leading to the activation MAPKinase. After activation, MAP kinase translocates into the nucleus and phosphorylates many transcription factors that regulate expression of important cell-cycle and differentiation-specific proteins. So that’s how insulin has effects on cell proliferation, growth and differentiation.
In summary, insulin acts by 2 signal transduction pathways: PI3-Kinase pathway responsible for its metabolic actions and some survival actions also and Ras MAP kinase pathway responsible for its effects on cell proliferation, growth and differentiation.
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I am preparing for USMLE and some of my concepts are not clear. I never had strong physiology but honestly your videos makes physiology fun and interesting and easy to learn. Thankyou so very much! Absolutely GOLD videos
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For sure
Beautiful explanation !
Thanks ma'am 🙏
Thanks and welcome
Thanku so much ma'am exactly what I was looking for 😊🙌
Most welcome 😊
Well explained
Thanks for liking 😊
Tq so much mam for such clear explanation
You are welcome
Thank u sister
You’re welcome 😊
Thank you so much ma'am 😊😊 it was an amazing lecture ..I just wanted know that whether guanine nucleotide exchange proteins are involved in translocation of GLUT4 from cytoplasm to plasma membrane or not. If yes then how?
For movement of vesicles (here which have GLUT transporters on their membrane) to the plasma membrane, it’s required that intracellular calcium concentration should increase...so any system which increases that will cause will cause translocation of GLUT to membrane
Super akka
😎😊
Mam will u pease explain jak stat pathway
Will surely do
@@PhysiologyOpen Thank u so much mam for ur kindness
Mam can you please provide us notes
Notes are on app. Kindly download. Both android and ios app available