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Synaptic Transmission. Lesson 12. Synapses. Communication b/n neurons Electrical Electrotonic conduction Chemical Ligand / receptor ~. Electrical Synapses. Tight junctions Connexons Passive current & larger molecules (e.g., ATP) Synchronous activity Breathing
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Synaptic Transmission Lesson 12
Synapses • Communication b/n neurons • Electrical • Electrotonic conduction • Chemical • Ligand / receptor ~
Electrical Synapses • Tight junctions • Connexons • Passive current • & larger molecules (e.g., ATP) • Synchronous activity • Breathing • Hormone release from hypothalamus ~
Synaptic Events • Action Potential reaches axon terminal • Chemical substance released • Neurotransmitter (NT) • Diffuses across synapse • Binds to receptor protein • EPSP or IPSP ~
Synaptic Transmission Model 1. Precursor transport 2. NT synthesis 3. Storage 4. Release 5. Activation 6. Termination ~
Postsynaptic Membrane Presynaptic Axon Terminal Dendritic Spine Terminal Button
1. Precursor Transport
2. Synthesis Enzymes & cofactors ~ E
3. Storage In vesicles Terminal Button Dendritic Spine Synapse
AP Ca++ 4. Release • via exocytosis • diffusion Synapse
Exocytosis: Membrane Fusion • Ca2+ influx • 2d messenger • Ca2+ -Calmodulin • SNAPs • soluble-NSF-attachment proteins • SNAREs • SNAP receptors ~
5. Activation • NT binds to receptor
Activation • NT binds to postsynaptic receptor • opens ion channel • EPSP • Na+ into cell • or IPSP • K+ out of cell ~
6. Termination • 4 Basic methods • Diffusion • Enzymatic degradation • Presynaptic reuptake • active transport • Autoreceptors ~
6. Termination • autoreceptors A
Autoreceptors • On presynaptic terminal • Binds NT • same as postsynaptic receptors • different receptor subtype • Decreases NT release & synthesis ~
Termination • Must have discrete signal • What if ion channels continually open? • ions move toward equilibrium • membrane no longer polarized • no EPSPs or IPSPs • Disrupts neural communication • Termination ---> neuron repolarizes ~
Axoaxonic Synapses • Modulation of NT release • *via or Ca2+ influx • Presynaptic Facilitation • Increases NT release • Presynaptic Inhibition • decreases NT release • Via modulation of Em • Ca2+, K+, and Cl- ~
Drug Interaction Terms • Drug’s effect on synaptic transmission • Direct at postsynaptic receptor • Indirect at any other step • Agonist (AG) • mimics or NT effects • Antagonist (ANT) • blocks or ¯NT effects ~