13.5 Synapses

Question 1

what is a synapse

Answer 1

the junction between two neurones across which impulses are transmitted using neurotransmitters

Question 2

describe the structure of a synapse

Answer 2

• synaptic cleft = 20nm (gap separating axon of a neuron and dendrite of another neuron)
• presynaptic neuron (impulse arrives here)
• postsynaptic neuron (receives neurotransmitter)
• synaptic knob (swollen end of presynaptic neuron, has many mitochondria+endoplasmic reticulum to make neurotransmitters)
• synaptic vesicles (contain neurotransmitters and fuse with presynaptic membrane to release contents into synaptic cleft)
• neurotransmitter receptors (molecules which neurotransmitters bind to in postsynaptic membrane)

Question 3

describe excitatory neurotransmitters

Answer 3

• result in depolarisation of postsynaptic neuron
• if threshold is reached in postsynaptic membrane, an action potential is triggered
• e.g. acetylcholine

Question 4

describe inhibitory neurotransmitters

Answer 4

• result in hyperpolarisation of postsynaptic membrane
• prevents an action potential being triggered
• e.g. GABA

Question 5

describe the process of synaptic transmission

Answer 5

1. action potential reaches the end of the presynaptic neuron
2. depolarisation of the presynaptic membrane causes calcium ion channels to open
3. calcium ions diffuse into presynaptic knob
4. synaptic vesicles fuse with presynaptic membrane and release neurotransmitters into synaptic cleft by exocytosis
5. neurotransmitters diffuse across synaptic cleft and bind with receptors on postsynaptic membranes
6. causes sodium ion channels to open
7. sodium ions diffuse into postsynaptic neuron
8. triggers action potential and impulse is propagated along postsynaptic neuron
9. re-uptake occurs to remove neurotransmitters from the synaptic cleft and prevent the response from happening again

Question 6

what are cholinergic synapses

Answer 6

• use acetylcholine

- common in the CNS of vertebrates and at neuromuscular junctions (motor neuron and muscle (effector) meet)

Question 7

describe the process of transmission across cholinergic synapses

Answer 7

1. acetylcholine is released from vesicles in the presynaptic knob
2. diffuses across synaptic cleft and binds to specific receptors on postsynaptic membrane
3. triggers action potential in postsynaptic neuron (or muscle cell)
4. acetylcholine is hydrolysed by acetylcholinesterase (also on the postsynaptic membrane) to form choline and ethanoic acid
5. breakdown products are taken back to presynaptic knob to be reformed into acetylcholine

Question 8

explain the role of synapses

Answer 8

• ensure impulses are unidirectional
• allow an impulse from one neuron to be transmitted to a number of neurons at multiple synapses (single stimulus=many simultaneous responses)
• number of neurons go to the same synapse with one postsynaptic neuron (many stimuli=single result)

Question 9

define summation

Answer 9

amount of neurotransmitter builds up sufficiently to reach the threshold and trigger am action potential

Question 10

what is spatial summation

Answer 10

• many presynaptic neurons connect to one postsynaptic neuron
• enough neurotransmitters released to trigger an actionn potential in the postsynaptic neuron

Question 11

what is temporal summation

Answer 11

• single presynaptic neuron releases neurotransmitter due to action potential several times over a short period
• builds up in synapse until enough to trigger action potential

Question 12

how do drugs that stimulate the nervous system work

Answer 12

• mimicking shape of neurotransmitter
• stimulating release of more neurotransmitter
• inhibit enzyme responsible for breaking down neurotransmitter in the synapse

Question 13

how do drugs that inhibit the nervous system work

Answer 13

• blocking receptors so the neurotransmitter can longer bind to it
• binding to specific receptors on the post-synaptic membrane and changing the shape of the receptor so binding of neurotransmitter increases and this increases activity