Cellbiologi - cell signaling

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Flashcards on Cellbiologi - cell signaling, created by Tova A on 10/02/2021.
Tova A
Flashcards by Tova A, updated more than 1 year ago
Tova A
Created by Tova A almost 4 years ago
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Example of ligands • Small ions: ferric ion • Organic molecules: adrenalin • Polysaccharides: heparin • Peptides: insulin • Proteins: vascular endothelial growth factor
Signal transduction pathways Signal transduction pathways convert extracellular stimuli into specific cellular responses (Campbell and Reece, 2004). Typically, signal transduction begins with a signal to a receptor and ends with a change in cell function. Sometimes the signal can be amplified, so a small signal can result in a large response
cell signaling steps 1. signal reception 2. transduction pathway 3. response
TYPES OF EXTRACELLULAR SIGNALING SI Endocrine, paracrine, synaptic, contact-dependent
Cell surface receptors vs intracellular receptors Cell surface receptors: large, hydrophilic molecules Intracellular receptors: small hydrophobic molecule that can cross the membrane (tex steroid hormones)
GEF and GAP Two regulatory proteins (can swith enzymes on and off) GEF = guanine nucleotide exchange factors: exchange of GDP to GTP GAP: GTP-activating proteins: switch off by GTP hydrolysis
3 main classes of cell-surface receptors ion channels coupled receptors: Transduction of chemical signal into an electrical signal i.e. voltage change across the plasma membrane G-protein coupled receptors: 7-pass transmembrane helices, the G protein has 3 subunits. Signal molecule binds the GPCR => activate G-protein that lose GDP affinity and exchange to GTP enzyme coupled receptors
alfa subunit of G-protein Has intrinsic GTP-ase activity: Switches itself off by hydrolysing its bound GTP to GDP Linked to membrane by lipid tail
G-proteins interact with... ...ion channels: immediate change of the cell status and behaviour ...enzymes: slower and more complex → additional intracellular signalling molecules, second messengers such as cAMP, IP3, DAG, Ca2+
Enzyme-coupled receptors Upon binding of signal (often local mediators such as growth factors), the receptor usually converts from an inactive monomeric state to an active dimeric state Largest class of enzyme-coupled receptors: receptor tyrosine kinase (RTK) has a tyrosine protein kinase function in cytoplasmic domain
Receptor tyrosine kinase (RTK) 1. RTK forms a dimer in active state + phosphorylation on specific tyrosine of the kinase domains 2. Phosphorylated tyrosines will bind (many) intracellular signalling proteins with specialized interaction domains → signal transmission (biochemical changes) 3. Response ending by protein tyrosine phosphatases (removing phosphates on tyrosine of RTK) or destroyed in lysosomes
RAS a key member of intracellular signalling proteins • small GTP-binding protein = monomeric GTPase • mutation in RAS genes is most common oncogen
MAP mitogen-activated protein
Mitogen chemical substance that triggers the cell to start cell division (mitogenesis)
Responses by acetylcholine in heart pacemaker cell, salivary gland cell and skeletal muscle cell decreased heart rate of firing Secretion Contraction
Fast vs slow pathway fast: Alters proteins function Slow: Changes in gene expression witch alters protein synthesis
Steroid hormones For instance cortisol Are soluable in plasma membrane and can enter the cytosol and bind to an intracellular receptor in the cytosol or nucleas called nuclear receptors
Nuclear receptor can work as a transcription factor once a hormone binds to it
signaling by GTP-binding proteins - Trimeric G-proteins - monomeric GTPases Dont really know the difference...
Exampels of signalling by protein phophorylation serine/threonine kinase and tyrosine kinase
Dephosphorylation happens by... protein phosphatase
Gamma subunit Linked to membrane with lipid tail
Cholera activates alfa subunit G-protein and locking it with continuous adenylate cyclase stimulation and increase cAMP => increased cl- and water efflux => diarrheoa and dehydration
cell responses mediated by adrenaline heart cells: increased heart rate skeletal cells: glycogen breakdown adipose tissue: fat breakdown
Ca2+ canntrigger... ...egg cell development ...muscle contraction ...ca2+ responsive proteins
Example of a ca2+ responsive protein calmodulin dependent protein kinases
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