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Synaptic Transmission

Control Coordination — Synaptic Transmission

Synaptic Transmission

Synaptic Transmission and Neurotransmitters

What is a Synapse?

A synapse is the junction between two neurons (or between a neuron and a muscle/gland). Electrical signals cannot jump the gap — they are converted to chemical signals.

There are two types:

  • Chemical synapse (most common): uses neurotransmitter molecules
  • Electrical synapse (gap junctions): ions flow directly — faster but less flexible

Steps of Synaptic Transmission

Step 1 — Action potential arrives

The electrical signal (action potential) travels down the axon to the presynaptic terminal (axon terminal / bouton).

Step 2 — Ca²⁺ enters

Depolarisation opens voltage-gated Ca²⁺ channels. Ca²⁺ rushes into the terminal (concentration is 10,000× higher outside).

Ca²⁺ is the trigger — without it, no neurotransmitter is released.

Step 3 — Vesicle fusion (exocytosis)

Ca²⁺ binds to proteins (synaptotagmin) on synaptic vesicles. Vesicles fuse with the presynaptic membrane and release neurotransmitter (NT) into the synaptic cleft by exocytosis.

Release is quantal — each vesicle releases a fixed packet ("quantum") of NT. Miniature end-plate potentials (mEPPs) are spontaneous single-vesicle releases.

Step 4 — Diffusion across the cleft

NT molecules diffuse across the synaptic cleft (~20–40 nm wide) — takes <1 ms.

Step 5 — Receptor binding on postsynaptic membrane

NT binds to receptors on the postsynaptic cell:

  • Ionotropic receptors (fast): NT directly opens ion channels → immediate response
  • Metabotropic receptors (slow): NT activates G-proteins → second messenger cascade → slower, longer response

Step 6 — Postsynaptic potential

  • EPSP (Excitatory Postsynaptic Potential): Na⁺ flows in → depolarisation → moves toward action potential threshold
  • IPSP (Inhibitory Postsynaptic Potential): Cl⁻ flows in or K⁺ flows out → hyperpolarisation → moves away from threshold

Step 7 — NT Removal (termination)

NT must be cleared so the signal can end cleanly:

  1. Reuptake — NT pumped back into the presynaptic neuron (most common for dopamine, serotonin, noradrenaline)
  2. Enzymatic degradation — e.g., acetylcholinesterase breaks acetylcholine into choline + acetate in the cleft
  3. Diffusion — NT drifts away from the synapse

Summation — How Signals Are Integrated

A single EPSP is rarely enough to fire a new action potential. The postsynaptic neuron adds up (integrates) inputs:

TypeDescription
Temporal summationSame presynaptic neuron fires rapidly → multiple EPSPs add up over time
Spatial summationMultiple different presynaptic neurons fire simultaneously → EPSPs add up across space

If the membrane reaches threshold (typically −55 mV), an action potential fires.

Key Neurotransmitters

NTMain roleWhere
AcetylcholineExcitatory at NMJ; both E and I in CNSAll motor neurons, many brain regions
GlutamateMain excitatory NT in brainMost CNS synapses
GABAMain inhibitory NT in brainThroughout CNS
DopamineReward, movementSubstantia nigra, striatum
SerotoninMood, sleepRaphe nuclei
NoradrenalineArousal, fight-or-flightLocus coeruleus

Drugs and Toxins at the Synapse

AgentMechanismEffect
SSRIs (Prozac)Block serotonin reuptakeMore serotonin in cleft → elevated mood
CaffeineBlocks adenosine receptorsPrevents drowsiness signal
NicotineBinds acetylcholine receptorsStimulates reward pathway
Botulinum toxinBlocks vesicle releaseNo acetylcholine → muscle paralysis
CurareBlocks acetylcholine receptor at NMJFlaccid paralysis (used in surgery)

NEET/JEE Focus Points

  • Ca²⁺ is the trigger for vesicle fusion — not depolarisation directly
  • EPSP vs IPSP: know which ions cause each and the direction of current flow
  • Temporal vs spatial summation — both needed for NEET MCQs
  • Acetylcholinesterase at NMJ — why myasthenia gravis and organophosphate poisoning are related
  • Reuptake inhibition → prolonged NT in cleft (basis of most psychiatric drugs)
  • Botulinum toxin blocks Ca²⁺-triggered exocytosis — not the channels themselves

Key Takeaways (TL;DR)

  • What is a Synapse?
  • Steps of Synaptic Transmission
  • Summation — How Signals Are Integrated
  • Key Neurotransmitters

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