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  • 1. Autonomic Nervous System
  • 2. ORGANIZATION AND FUNCTION• The autonomic nervous system (ANS) functions largely below the level of consciousness and controls visceral functions.• The ANS consists of afferents, centre and efferents nerves.
  • 3. NEUROHOMORAL TRANSMISSION• Neurohumonal transmission implies that nerves transmit their message across synapses and neuroeffector junctions by the release of humoral (chemical) messengers.
  • 4. Steps in neurohumoral transmission• Impulse conduction:• The resting transmembrane potential (70 mV negative inside) is established by high K+ permeability of axonal membrane and high axoplasmic concentration of this ion coupled with low Na* permeability and its active extrusion from the neurone.• Stimulation or arrival of an electrical impulse causes a sudden increase in Na+ conductance thus depolarization and overshoot (inside becoming 20 mV positive).• Then K* ions move out in the direction of their concentration gradient and repolorization occurs.
  • 5. • Tetrodotoxin (from puffer fish) and saxitoxin (from certain shell-fish) selectively abolish release in Na+ conductance in nerve fibres and thus block impulse conduction.
  • 6. • Transmitter release – The transmitter(excitatory or inhibitory) is stored in prejunctional nerve endings within synaptic vesicles. – Nerve impulse promotes fusion of vesicular and axonal membranes through Ca+2 entry which fluidizes membranes. – All contents of the vesicle transmitter, enzymes and other proteins) are extruded (exocytosis) in the junctional cleft.
  • 7. • The release process can be modulated by the transmitter itself and by other agents through activation of specific receptors located on the pre- junctional membrane.• e.g. noradrenaline (NA) release is inhibited by NA (alfa- 2 receptor),• Dopamine, adenosine, prostaglandins and enkephalins -,While isoprenaline (B2 receptor) and angiotensin (AT1 receptor) increase NA release.• Similarly, alfa-2 and muscarinic agonists inhibit acetylcholine release at autonomic neuroeffector sites (but not in ganglia and skeletal muscles)
  • 8. • Transmitter action on postiunctional membrane – The released transmitter combines with specific receptors on the postjunctional membrane and depending on its nature induces an excitatory postsynaptic potential (EPSP) or an inhibitory postsynaptic potential (IPSP). • EPSP Increase in permeability of all cations so there is Na+ or Ca+2 influx (through fast or slow channels) causes depolarization followed by K+ efflux. • These ionic movements are passive as the flow is down the concentration gradients.
  • 9. • IPSP Increase in permeability to smaller ions, i.e. K+ and Cl- only, so that K+ moves out and Cl- moves in (in the direction of their concentration gradients) resulting in hyperpolarization.
  • 10. • Postjunctional activity – A suprathreshold EPSP generates a propagated postjunctional AP which results in nerve impulse (in neurone), contraction (in muscle) or secretion (in gland). – An IPSP stabilizes the postjunctional membrane and resists depolarizing stimuli.
  • 11. • Termination of transmitter action• Following its combination with the receptor, the transmitter is either locally degraded (e.g. ACh) or is taken back into the prejunctional neurone by active uptake or diffuses away (e.g. NA,GABA).• Specific carrier proteins like norepinephrine transporter (NET), dopamine transporter (DAT), serotonin transporter (SERT) are expressed on the axonal membrane for this purpose.• The rate of termination of transmitter action govems the rate at which responses can be transmitted across a junction (1 to 1000/sec)