synaptic transmission

Question 1

what are the components of a neuron?

Answer 1

dendrite, cell soma, axon (with or without a myelin sheath0 and presynaptic terminals

Question 2

what is a dendrite and what does it do?

Answer 2

a dendrite are processes coming out of the cell body that increase the receptive surface of the cell. they receive transmitters and amplify the synaptic signal with voltage gated ion channels.

Question 3

what is the function of the neuronal cell body?

Answer 3

synthesizes protein, process it and degrades material. also has receptors that can bind chemical transmiters from affarent neurons

Question 4

where does the axon arise and what does it do?

Answer 4

arises from the cell body at the axon hillock. transmits action potential down to the terminals from transmitter mediated changes from the dendrites.

Question 5

what can axons be surrounded by and what does it do?

Answer 5

glial cells forming myelin sheath that increases the speed of impulse propagation

Question 6

what happens at the presynaptic terminals?

Answer 6

electrical signals from the axon are converted into chemical signals that are released into the synapse

Question 7

what is axoplasm?

Answer 7

parallel arrays of microtubules that provide structural stability and transport along the axon bidirectionally

Question 8

why do cancer patients receiving microtubule disrupting agents sometimes develop peripheral neuropathies?

Answer 8

because there is vesicle depletion of transmitters in the presynaptic terminal (especially in axons innervating distal muscles)

Question 9

which motors facilitate anterograde transport and which promote retrograde transport and what do they carry?

Answer 9

kinesin mediates anterograde transport of mitochondria and vesicles from the soma.
dynein mediates retrograde transport of degraded vesicular membranes and absorbed toxins, viruses and growth factors

Question 10

what connects cells at electrical synapses and what is facilitated?

Answer 10

gap junctions allow the direct passive flow of electronic current between cells to allow fast and bidirectional transmission (can cause action potential in the next cell)

Question 11

what are gap junctions made up of?

Answer 11

each membrane contains a connexon that is made up of six connexins (intramembrane channels) that combine to form a gap junction

Question 12

are gap junctions selective?

Answer 12

no, they are much larger than ion channels so they can transport ions and larger substances.

Question 13

are electrical or chemical synapses more common in the nervous system? which types of signals are more likely to have electrical synapse?

Answer 13

chemical synapses

electrical synapses control more synchronous activities such as breathing and smooth/cardiac muscle contraction.

Question 14

what are contained in synaptic vessels?

Answer 14

neurotransmitters

Question 15

what are the 4 criteria needed to be a chemical neurotransmitter?

Answer 15

1) located in presynaptic terminal
2) released in a voltage and Ca dependent manner
3) specific receptors are present in target cell
4) there is a mean to inactivate the transmitter

Question 16

what are the stops of synaptic transmission?

Answer 16

1) synthesis and packaging of transmitters into vesicles
2) action potential arrives and depolarization of terminal opens voltage gated Ca channels
3) increased calcium triggers vesicle fusion
4) transmitter diffuses across cleft and binds to postsynaptic receptors
5) a postsynaptic response occurs and transmitter is cleared

Question 17

how are transmitters cleared from synaptic clefts?

Answer 17

enzymatic degradation, uptake and diffusion

Question 18

what is contained within presynaptic terminals?

Answer 18

mitochondria and synaptic vesicles containing transmitter

Question 19

what are active zones?

Answer 19

a specialized site where some vesicles are docked. these vesicles are the ones that will be released when an action potential and influx of calcium occurs in the presynaptic terminal

Question 20

what is the postsynaptic density? how is it placed to increase efficiency?

Answer 20

an electron dense area with many transmitter receptors. it is alligned with presynaptic active zones to make it more efficient

Question 21

what is the major source of energy for neurons and where is it mainly consumed?

Answer 21

glucose

mainly consumed in presynaptic terminals

Question 22

what does fMRI measure and how is it interpreted?

Answer 22

measures changes in regional blood flow that is associated with changes in local cerebral glucose metabolism (that part of the brain is working)

Question 23

how are neurotransmitters released? describe the process.

Answer 23

exocytosis
vessicle membrane V-SNAREs (including synaptobrevin and calcium sensor synaptotagmin) interact with membrane T-SNAREs (including SNAP-25 and syntaxin)

Question 24

how are vesicle membranes recycled? why is it done?

Answer 24

endocytosis with the inclusion of V-SNAREs. This is done to prevent enlargement of the presynaptic membrane

Question 25

what is the function of Botulinum toxin?

Answer 25

cleaves SNAP-25 or synaptobrevin proteins in alpha motor neurons causing muscle weakness

Question 26

what is the range of time course action of chemical transmitters?

Answer 26

ranges from ms to days

Question 27

list 6 small chemical transmitters and one large one.

Answer 27

small: glutamate, acetylcholine, norepinephrine, dopamine, GABA and glycine
large: vasoactive intestinal polypeptide

Question 28

what types of neurotransmitters have a long time course and what are they used for?

Answer 28

peptides. they usually are modulators

Question 29

what is an iolotropic receptor and how fast is the response?

Answer 29

a receptor that contains an ion channel as part of its structure
rapid response- either hyperpolarizing or depolarizing

Question 30

what is a metabotropic receptor and how fast is the response?

Answer 30

a receptor that is commonly linked to G-proteins

slower biochemical signal- may sitll hyperpolarize or depolarize the cell

Question 31

what is acetylcholine and what are its rapid and slower responding receptors?

Answer 31

a molecule made from choline and acetate

rapid: nicotinic ACh receptor (nAChR)
slow: muscarinic ACh receptor (mAChR)

Question 32

what terminates the action of acetylcholine and how is it recycle?

Answer 32

acetyl cholinesterase (AChE) cleaves it and the presynaptic membrane contains a high affinity transport system that pumps choline back into the nerve terminal for reutilization

Question 33

what is the result of activation of a nAChR in skeletal muscle and mAChR in cardiac muscle? is there a similar amount of ACh needed?

Answer 33

nAChR- muscle contraction
mAChR- slowing the heart rate by hyperpolarizing the membrane
yes.

Question 34

how are postsynaptic potentials produced?

Answer 34

conductance changes (ion channels open or close) and the membrane potential changes.

Question 35

what is an EPSP?

Answer 35

an EPSP is an excitatory postsynaptic potential that increases the probability that an action potential will be triggered. (cell gets depolarized)
caused by sodium influx

Question 36

what is an IPSP?

Answer 36

an IPSP is an inhibitory postsynaptic potential that decreases the likelihood (cell gets hyperpolarized)
caused by potassium efflux, chloride influx or both

Question 37

what is the major excitatory transmitter in the brain?

Answer 37

glutamate

Question 38

describe AMPA receptor channels.

Answer 38

glutamate channels that are selectively activated by pharm agent AMPA, mediate fast EPSP in presence of glutamate because of Na and K flow

Question 39

describe NMDA receptor channels.

Answer 39

glutamate channels selectively activated by pharm agend NMDA and mediate slower EPSP via flow of K, Na and Ca ions.
do not open unless membrane is depolarized because they are voltage dependent-need stronger stimulus

Question 40

list the following receptors by speed of reaction and the reasoning: metabotrophic glutamate receptors, AMPA and NMDA

Answer 40

(fastest) AMPA, NMDA, and glutamate (slowest)
AMPA and NMDA are ionotropic
glutamate is metabotropic

Question 41

what would be the additive result of AMPA at -80 mV? at -40 mV?

Answer 41

only AMPA would work at -80 mV

they would have a greater stimulatory effect at -40 mV because both would take part

Question 42

what is the major inhibitory transmitter?

Answer 42

GABA (create IPSP hyperpolarizing responses)

Question 43

what mediates the fast IPSP and how?

Answer 43

GABA-A receptor

lets Cl ions flow down their electrochemical gradient

Question 44

what happens when pentobarbital acts in the presence of GABA?

Answer 44

there is a larger pSP because it increases the channel open time and current

Question 45

why are GABA-B receptors slower?

Answer 45

because they are metabotropic receptors

Question 46

how are small excitatory stimuli generated into an action potential?

Answer 46

if there are enough individual stimuli they may be able to depolarize the cell to the required threshold to create an action potential

Question 47

how can synapses become more effective?

Answer 47

more receptors can be present in the postsynaptic density

Question 48

what is the difference between vesicle fusion within other cells and within neurons?

Answer 48

neuronal exocytosis is calcium mediated. need the calcium signal to bind the synaptotagnin more tightly to fuse the membranes

Question 49

what is a synaptic bouton?

Answer 49

branches of the terminal regions of axons where myelination is lost and vesicles fuse with presynaptic membrane

Question 50

when a small depolarization occurs, what happens as it travels?

Answer 50

the signal will spread a short distance and fade as it moves away from the stimulus (temporal and spatial effects)

Question 51

what does the cable theory of temporal and spatial effects take into account?

Answer 51

membrane capacitance, membrane resistance and longitudinal cytoplasmic resistance between different neuron parts

Question 52

what is decremental conduction?

Answer 52

before an EPSP can reach the soma, a large amount of the potential is lost by leakage through the membrane

Question 53

what is the process of temporal stimulation?

Answer 53

stimuli can build upon each other if they are close enough in time or if there is a longer time constant. if they are not close enough, the signal will decay before the next stimulation (short time constant)

Question 54

what is the process of spatial stimulation?

Answer 54

an EPSP travels down a dendrite through passive conduction If there is another PSP down the dendrite, it will only summate with the first one if it has not dissipated by the time it reaches the second (it has a longer space constant)

Question 55

what happens to isolated synaptic potentials in dendrites usually? how is this combated?

Answer 55

they decline in strength before reaching the cell soma

can be combated by multiple ESPSs combining to generate large potentials

Question 56

what are two other names for the axon hillock? and what is in high density there?

Answer 56

initial segment or trigger zone

high density of voltage gated Na channels