Axonal Transmission

Question 1

What is the resting membrane potential? Give a value also.

Answer 1

When the inside of the cell is negatively charged with respect to outside.

Typically -70mV

Question 2

How is the resting membrane potential maintained?

Answer 2

By the sodium-potassium pump. 3Na+ ions are pumped out of the membrane for every 2K+ ions pumped in.

Leaky K+ channels lead to K+ diffusing out of the axon, further increasing the negativity of the inside of the membrane.

Question 3

Briefly outline the steps of an action potential.

Answer 3

1. Neurotransmitter binds to specific ligand-gated ion channels causing influx of Na+
2. Causes initial DEPOLARIZATION which stimulates opening of voltage gated Na+ channels resulting in further entry of Na+ ions
3. When the threshold potential (-55mV) is reached, a positive feedback loop is created
4. REPOLARIZATION occurs at +30mV. Na+ channels are inactivated. Sluggish voltage gated K+ channels open resulting in K+ diffusing out of the neurone and causing repolarization.
5. As the voltage gated K+ channels are slow to close, K+ continues to diffuse out resulting in HYPERPOLARIZATION - -75mV
6. Resting potential is restored. A second stimulus will not produce another action potential - the absolute refractory period.
7. In the relative refractory period, a second action potential can be induced if the stimulus strength is great

Question 4

How is conduction achieved?

Answer 4

Action potential generates local currents that depolarize adjacent membranes.

Question 5

How does fibre diameter and myelination effect propagation speed?

Answer 5

The larger the fibre diameter, the faster the action potential (less resistance).
Myelination increases propagation speed.

Question 6

What is saltatory conduction?

Answer 6

Myelinated neurones have nodes of Ranvier. Action potentials jump from one node to the next as they propagate along a myelinated fibre.

Question 7

What is multiple sclerosis? Give symptoms as well.

Answer 7

Degeneration of myelin which blocks neurotransmission.

Symptoms: Uncontrolled eye movements, slurred speech, tremor.

Question 8

What occurs at an excitatory synapse?

Answer 8

The membrane potential of a postsynaptic neurone is depolarised.

Question 9

What occurs at an inhibitory synapse?

Answer 9

The membrane potential of a postsynaptic neurone is hyperpolarised or stabilised.

Question 10

What are the two types of synapse?

Answer 10

Electrical and chemical (majority)

Question 11

Give the features of an electrical synapse.

Answer 11

1. Plasma membranes of the presynaptic and postsynaptic cells are joined by gap junctions
2. Very rapid communication
3. Synchronised transmission
4. Found in brainstem and hypothalamus neurones

Question 12

Give the features of a chemical synapse.

Answer 12

1. Plasma membranes of presynaptic and postsynaptic neurones are joined by the synaptic cleft
2. Presynaptic neurone ends as axon terminal which contains neurotransmitter molecules
3. Covered by astrocytes which reuptake excess neurotransmitter

Question 13

Outline the steps for neurotransmitter release.

Answer 13

1. Action potential arrives at pre synaptic neurone and cause calcium ion channels to open
2. Ca2+ ions cause vesicles containing neurotransmitter to fuse with the cell membrane
3. Neurotransmitter is released by exocytosis and diffuses across synaptic cleft
4. Neurotransmitter attaches to receptor sites on post synaptic membrane

Question 14

What is temporal summation?

Answer 14

Signals arrive from the same presynaptic cell at different times. Potentials summate as there is a greater number of open ion channels.

Question 15

What is spatial summation?

Answer 15

When two inputs occur at different locations in the postsynaptic neurone and combine.

Question 16

Name 3 fast neurotransmitters (short lasting, rapid effect)

Answer 16

Acetylcholine
Glutamate
GABA

Question 17

Name 3 neuromodulators (last longer, slow effect)

Answer 17

Dopamine
Noradrenalin
Serotonin

Question 18

Which molecules make acetylcholine?

Answer 18

Acetyl coenzyme A and choline

Question 19

Which enzyme breaks down acetylcholine? Which products are released?

Answer 19

Acetylcholinesterase. Produces choline and acetate.

Question 20

Name the two types of acetylcholine receptor.

Answer 20

1. Nicotinic - found in neuromuscular junction. Respond to nicotine as well, and are found in reward pathways which explains why tobacco is so addictive.
2. Muscarinic - couple with G proteins.

Question 21

What is noradrenaline affected by?

Answer 21

Antidepressants and stimulants. Imipramine and amphetamine blocks reuptake of noradrenaline.

Question 22

What is dopamine affected by?

Answer 22

Antipsychotic drugs e.g. chlorpromazine blocks receptor

Anti-parkisons drug e.g. L-DOPA increases dopamine production

Question 23

What is serotonin affected by?

Answer 23

Antidepressants. e.g. Prozac, increases serotonin

Question 24

Which is the main excitatory neurotransmitter?

Answer 24

Glutamate

Question 25

Which is the main inhibitory neurotransmitter?

Answer 25

GABA

Question 26

How do local anaesthetics work?

Answer 26

They block sodium channels in the membrane , preventing depolarisation so no action potential is developed. Results in pain relief as no pain is transmitted.

Question 27

Give the 4 parts of a neurone.

Answer 27

Dendrite
Cell body
Axon
Presynaptic terminal

Question 28

Which stain is used to see myelin?

Answer 28

Luxor fast blue

Question 29

What three functional types of neurone are there?

Answer 29

Afferent/sensory
Efferent/motor
Interneurons (CNS only)

Question 30

What is a nerve fibre and what is a nerve?

Answer 30

Nerve fibre = single axon

Nerve = bundle of axons

Question 31

Where are the peripheral and central processes of afferent neurones?

Answer 31

Cell body and axon is outside CNS. Part of the central process enters CNS.

Question 32

Where are the peripheral and central processes of efferent neurones?

Answer 32

Cell body and dendrites are within CNS. Axons extend out to the periphery.

Question 33

Which cells produce myelin in the CNS?

Answer 33

Oligodendrocytes

Question 34

Which cells produce myelin in the PNS?

Answer 34

Schwann cells

Question 35

What are glial cells?

Answer 35

Cells that surround the neurone and provide it with physical and metabolic support.

Question 36

Name the 5 types of glial cell

Answer 36

Oligodendrocyte
Schwann cell
Astrocyte 
Microglia
Ependymal cells

Question 37

What is the role of astrocytes?

Answer 37

Regulates composition of extracellular fluid in the CNS by removing K+ ions & neurotransmitters.

Question 38

What is the role of microglia?

Answer 38

Phagocytic, migrate to sites of damage and phagocytose microbes.

Question 39

What is the role of ependymal cells?

Answer 39

Line ventricles and regulate production of CSF. Provides barrier between CSF and brain.

Question 40

Are the following conditions diseases of the neurone, glia or both?
Epilepsy
Motor neurone disease
Depression
Alzheimers disease
MS

Answer 40

Epilepsy: Neurone 
Motor neurone disease: Neurone & glia
Depression: Neurone & glia
Alzheimer's: Neurone & glia 
MS: Neurone & glia