Introduction to Neurons, Nerve Conduction and Synaptic Transmission

Question 1

What do dendrites do?

Answer 1

• Receive input from other neurones
• Convey graded electrical signals to the soma
• Add surface area to the neurone

Question 2

How are electrical signals conveyed to the soma?

Answer 2

Graded

PASSIVELY

Question 3

What is the soma aka?

Answer 3

Perikaryon

Question 4

What is the soma the centre of?

Answer 4

Synthesis and metabolism

Question 5

What does the soma contain?

Answer 5

Nucleus
Ribosomes
Mitochondria
ER

Question 6

What does the soma integrate?

Answer 6

Incoming signals that are conducted passively to the axon hillock

Question 7

What occurs at the axon hillock?

Answer 7

Initiation of the ‘all or none’ action potential

Question 8

What does the axon do?

Answer 8

Conducts output signals as action potentials to other cells/neurons
Mediate transport materials between the soma and the presynaptic terminal

Question 9

What can viruses do to a neuron? Give examples of such viruses.

Answer 9

Affect retrograde transport

Herpes, Polio, Rabies

Question 10

What direction does the axon transport materials in?

Answer 10

ANTEROGRADE
or
RETROGRADE

Question 11

Dendrites can be either…..

Answer 11

Apical or Basal

Question 12

Unipolar

Answer 12

1 neutrite

e.g PNS

Question 13

Pseudounipolar

Answer 13

1 neutrite that bifurcates

Question 14

Bipolar

Answer 14

2 neutrites

Question 15

Multipolar

Answer 15

3/+ neutrites

e.g LMN

Question 16

How many functional regions do most neurones have?

Answer 16

4

Question 17

Name the 4 functional regions of a neurone.

Answer 17

Input
Integrative
Conductile
Output

Question 18

What causes the upstroke of an AP in neurones?

Answer 18

The opening of voltage activated Na+ channels

Question 19

What is ‘over-shoot’?

Answer 19

A brief period when polarity is reversed to inside positive

Question 20

What causes the downstroke of an AP in neurones?

Answer 20

The opening of voltage activated K+ channels

and the closure of activated Na+ channels

Question 21

Why does undershoot occur?

Answer 21

Because K+ channels don’t close immediately once membrane potential is reached

Question 22

The nerve cell membrane is ‘leaky’. Explain this.

Answer 22

Not a perfect insulator

Passive signals don’t spread far from their site of origin due to current loss across the membrane

Question 23

The amplitude of an AP is….

Answer 23

CONSTANT

Question 24

Current leaks back to what across the membrane resistance (rm)?

Answer 24

Extracellular space

Question 25

What does current leaking to the extracellular space generate?

Answer 25

Generates a potential change (Vm)

Question 26

For a given current (I), Vm increases linearly with rm

Answer 26

TRUE

Question 27

Describe the process of membrane potential change.

Answer 27

PASSIVE

Decays exponentially with distance

Question 28

What does the distance over which current spreads depend on?

Answer 28

Membrane resistance (rm)
AND
Axial resistance of the axoplasm (ri)

Question 29

What decreases resistance?

Answer 29

Increasing diameter

Decreasing distance of travel

Question 30

What is passive conduction a factor in?

Answer 30

The propagation of an AP

Question 31

What is the relationship between the length constant and local current spread?

Answer 31

The longer the length constant (λ) the greater the local current spread

Question 32

What does greater local current spread increase?

Answer 32

AP conduction velocity

Question 33

What does increasing axonal diameter do?

Answer 33

Decreases ri

Question 34

What does adding myelin do?

Answer 34

Increases rm

Question 35

Schwann cells surround a …… axon

Answer 35

SINGLE

Question 36

Oligodendrocytes surround …. axons

Answer 36

MANY

Question 37

Conduction in myelinated axons is THE SAME AS/ FASTER than in non-myelinated
axons of the same diameter

Answer 37

FASTER

Question 38

Where do AP’s ‘jump’ from?

Answer 38

One node of ranvier to another

Question 39

What do you find clusters of at NOR?

Answer 39

Voltage activated Na+ channels

Question 40

Name 2 demyelinating disorders?

Answer 40

MS

Guillian-Barre Syndrome

Question 41

Name the 3 types of synapse.

Answer 41

Axodendritis
Axosomatic
Axoaxonic

Question 42

Name the 3 types of synapse in order from most common to least common.

Answer 42

Axodendritis
Axosomatic
Axoaxonic

Question 43

What neurotransmitter is most frequently used for EXCITATORY synapse?

Answer 43

Glutamate

Question 44

What does glutamate activate?

Answer 44

Activates postsynaptic, cation selective, ionotropic, glutamate receptors.

Question 45

What is the outcome of glutamate activation?

Answer 45

This generates a local, graded excitatory (depolarizing) response: the excitatory postsynaptic potential (epsp).

Question 46

What does glutamate activate?

Answer 46

Activates postsynaptic, CATION selective, ionotropic, glutamate receptors.

Question 47

What neurotransmitter is most frequently used for INHIBITORY synapse?

Answer 47

-aminobutyric acid (GABA), or glycine

Question 48

What does y-aminobutyric acid (GABA) and glycine activate?

Answer 48

Activate postsynaptic, ANION selective, ionotropic, GABAA, or glycine, receptors.

Question 49

What do the INHIBITORY neurotransmitters generate?

Answer 49

This generates a local, graded, inhibitory (hyperpolarizing) response: the inhibitory postsynaptic potential (i.p.s.p.)

Question 50

What are the major amino acid neurotransmitters in the CNS?

Answer 50

Glutamate, glycine and GABA

Question 51

What are pre and post synaptic membranes separated by?

Answer 51

Synaptic cleft

Question 52

What is the synaptic cleft composed of?

Answer 52

A matrix of extracellular proteins

Question 53

What are the membrane differentiations i) presynaptically? Ii) postsynaptically?

Answer 53

i) the active zones around which vesicles cluster

ii) the postsynaptic density containing neurotransmitter receptors

Question 54

What is the information transfer sequence in the CNS?

Answer 54

1. Electrical
2. Chemical
3. Electrical

Question 55

Many inputs converge upon a neurone to determine its input is know as?

Answer 55

SPATIAL summation

Question 56

A single input may modulate output by variation in action potential frequency of that input

Answer 56

TEMPORAL summation

Question 57

Physiologically, spatial and temporal summation isolated/complementary processes

Answer 57

COMPLEMENTARY

Question 58

Name the 3 main types of neurotransmitter substance.

Answer 58

Amino acids
Amines
Peptides

Question 59

What type of neurotransmitter are released from synaptic vesicles?

Answer 59

Amino acids and amines

Question 60

What type of neurotransmitter is released from secretory vesicles?

Answer 60

Peptides

Question 61

What can Glutamate, GABA, glycine, acetylcholine, and 5-HT activate? What do these mediate?

Answer 61

Ionotropic ligand-gated ion channels (LGICs)

Mediate fast neurotransmission

Question 62

GPCRs mediate relatively slow neurotransmission

Answer 62

TRUE

Question 63

Glycine and Glutamate only occur in neurones

Answer 63

FALSE

They occur in all other cells

Question 64

What must be specifically synthesized by neurones that release glycine and glutamate? What does this require?

Answer 64

GABA and amines

They need specific enzymes

Question 65

What is neurotransmitter concentrated in the vesicles by?

Answer 65

Transporters embedded in the vesicle membrane

Question 66

At the terminal, what do enzymes mediate?

Answer 66

Synthesis of neurotransmitter from precursor substances within the cytoplasm

Question 67

Outline the process of synthesis and storage of peptide neurotransmitters

Answer 67

1. Synthesis of precursor peptide by ribosomes in the RER
2. Cleavage of precursor in Golgi by active neurotransmitter
3. Secretory vesicles budd off from Golgi
4. Secretory granules are transported to the presynaptic terminal by fast axoplasmic transport via microtubules