Glutamate neurotransmitter

Glutamate neurotransmitter

The metabolic roles of Glu

Glutamate (aspartate) The most important excitatory neurotransmitters Learning Neuronal development Epilepsy Ischemia Non essential aa-s – do not penetrate the BBB Metabolites + neurotransmitters – separate pool

Glutamatergic neurotransmission GLT-1 GLAST

NDMA – N-metil-D-aspartate AMPA – a-amino-3-hidroxi-5-metil-4-izoxazol propionic acid

Synaptic AMPA & NMDA receptors • Az AMPA & NMDA receptors colocalization • AMPA activation → depolarization→ • inhibition by Mg2+ onNMDA receptor↓ →NMDA activation

The synaptic AMPA & NMDA receptors AMPA activation à depolarizátion â Mg2+ inhibition NMDA â â NMDA activation Fast desensitization

NMDA receptor (Glu & Asp receptor) Strictly controlled Activators: Gluand Gly co-agonists Poliamines Inhibitors: Mg2+ Zn2+ H+ inhibit ion-flux èVoltage-dependent block of the open channel èpH 6 complet inhibition Ha van GluR2 subunit Nincs Ca2+ permeabilitás

NMDA receptor Activation à Na+, K permeability Ca2+ influx ↓↓ transient activation of Ca2+-dependent enzymes Ca2+-CAM dep. prot. kináz II. Calcineurin PKC Phospholipase A2 PLC NO synthase Endonuclease Synaptic plasticity Hippocampus LTP LTD

Metabotrop glutamatergic receptors mGluR- pre- and postsynaptic localization Modulation Ionic channels L-N type Ca2+ channelsâ K+-channel – â Receptors (NMDA, AMPA, DA, GABA, NA) á or â Presynaptic GABA, Glu transzm â (Ca2+channel inhibition)

Increased glutamateergic activity è neurotoxic Ischemia Neurodegeneration Epileptiform seizures

Neurotransmitter uptake systems in the presyzinaptic glutamatergic neurons

Neurotransmitter symport systems Na-dependent reuptake in the axon terminál (secondary active transport) Two subfamilies *GABA, glicin, noradrenalin, dopamin, serotonin transporters 12 transzmembrane regions Na (Cl-) dependent transporter *Na+-(-K+) dependent glutamate transporter (5 isoforms) GLAST (glutamate-aspartate transporter) GLT-1 Astrocytes ââ Glu clearance – from the synapse Hiányuk: [Glu]eá Lethal convulsions (mice)

Neurotransmitter symports Many isoforms in neurons 1 < Na+ influx - depolarization anion efflux – intracellular acidification [Glu]szinapszis < 0,6 uM (10 mM brain, 2-3 uM extracellular) Anoxia, long-lasting depolarization – reversal of function Glu release Toxic

AMPA & NMDA receptors in synapses

Initial steps of ischemic brain damage

Excitotoxic effect of Glu in ischemia

Ca2+homeostasis In mitochondria Ca2+ physiological effects PDH ICDH KGDH activation ↓ NADH ↑ ↓ increased ATP productioin Ca2+ pathological effects : - decrease in m ↓ decreased ATP production - increased ROS prodn - permeability tranzition pore opening -180 mV

Glutamate neurotransmitter

Glutamate neurotransmitter

Presentation Transcript

NEUROTRANSMITTER

Neurotransmitter Function

Neurotransmitter Release

Neurotransmitter Types

Neurotransmitter Effects

Synapse and Neurotransmitter

MONOSODIUM GLUTAMATE

Monosodium Glutamate

Synapse and Neurotransmitter

Neurotransmitter

Neurotransmitter Release

Neurotransmitter

Neurotransmitter Actions

Glutamate

glutamate

Synapse and Neurotransmitter

Nitric oxide…Neurotransmitter?

NEUROTRANSMITTER

BASIC NEUROTRANSMITTER

Neurotransmitter Receptors