Chapter 46: Organization of the Nervous System...

Question 1

T/F: Most neuronal synaptic signal normally passes in the forward direction

Answer 1

T

Question 2

Most activities of the nervous system are initiated by __________ experiences

Answer 2

Sensory experiences that excite sensory receptors

Question 3

The most important eventual role of the nervous system is to control:

Answer 3

motor functions of the effectors

Question 4

These are actual anatomical structures that perform the functions directed by the nerve signals

Answer 4

effectors

Question 5

Which regions of the CNS are concerned primarily with automatic, instantaneous muscle responses to sensory stimuli?

Answer 5

Lower regions

Question 6

Which regions of the CNS are concerned with the deliberate complex muscle movements controlled by the thought process of the brain?

Answer 6

Higher regions

Question 7

This is the channeling and processing of information of the central nervous system

Answer 7

integrative function of the CNS

Question 8

These determine the directions that the nervous signals will spread through the nervous system

Answer 8

synapses

Question 9

Where in the nervous system does most storage of information occurs?

Answer 9

cerebral cortex

Question 10

Each time certain types of sensory signals pass through sequences of synapses, these synapses become more capable of transmitting the same type of signal the next time, a process calle:

Answer 10

facilitation

Question 11

This is the part of the nervous system for the subconscious control of arterial pressure and respiration

Answer 11

medulla and pons

Question 12

Control of equilibrium is a combined function of:

Answer 12

older portions of the cerebellum (archicerebellum) and reticular substance of the brainstem

Question 13

Which major level of the central nervous system initiate wakefulness in the cerebral cortex?

Answer 13

lower brain centers

Question 14

Information is transmitted in the central nervous system mainly in the form of nerve action potentials, called:

Answer 14

nerve impulse

Question 15

Most of the synapses used for signal transmission in the central nervous system of the human being are:

Answer 15

chemical synapses

Question 16

This is the chemical substance secreted by the neuron at its nerve ending synapse

Answer 16

neurotransmitter or transmitter substance

Question 17

These are clusters of ion channels that allow free movement of ions from the interior of one cell to the interior of the next cell

Answer 17

gap junctions

Question 18

True or False:

Electrical synapses have bidirectional transmission

Answer 18

True

Question 19

Which type of synapse that always transmit signals in one direction?

Answer 19

chemical synapse

*principle of one-way conduction

Question 20

Electron microscopic studies of the presynaptic terminals show that they have varied anatomical forms, but most of them resemble small round or oval knobs and therefore are sometimes called

Answer 20

terminal knobs, boutons, end-feet, synaptic knobs

Question 21

How wide is a synaptic cleft?

Answer 21

200-300 angstroms

Question 22

These are the two important internal structures at the synaptic terminal for excitatory and inhibitory functions of the neuron

Answer 22

transmitter vesicles and mitochondria

Question 23

What protein channels found in the presynaptic membrane opens when an action potential depolarizes the membrane?

Answer 23

voltage-gated calcium channels

Question 24

To which special proteins in the presynaptic membrane do calcium ions bind causing them to open through the membrane, and allowing a few transmitter vesicles to release their transmitter into the cleft after each single action potential

Answer 24

release sites

Question 25

What are the two components of receptor proteins in post-synaptic neurons?

Answer 25

Binding component and intracellular component

Question 26

This is a molecule that protrudes into the cell cytoplasm and activates one or more substances inside the postsynaptic neuron

Answer 26

second messenger

Question 27

These are neurotransmitter neurons that directly gate ion channels

Answer 27

ionotropic receptors

Question 28

These are neurotransmitters that act through second messenger systems

Answer 28

metabotropic receptors

Question 29

Between cation and anion channels, which channel is known to be excitatory?

Answer 29

cation channels (entry of sodium)

Question 30

Prolonged postsynaptic neuronal excitation or inhibition is achieved by activating a ___________ system inside the postsynaptic neuronal cell, and then it is this that causes the prolonged changes in neurons after the initial transmitter substance is gone

Answer 30

second messenger chemical system

Question 31

Which component of the G protein in the activator component?

Answer 31

alpha component

Question 32

What is the most widely used means of excitation of postsynaptic receptors?

Answer 32

Opening of sodium channels to allow large numbers of positive electrical charges to flow to the interior of the postsynaptic cell

Question 32

What is the most widely used means of excitation of postsynaptic receptors?

Answer 32

Opening of sodium channels to allow large numbers of positive electrical charges to flow to the interior of the postsynaptic cell

Question 33

What are the 2 groups of chemical synaptic transmitters?

Answer 33

small-molecule, rapidly acting transmitters and

neuropeptides

Question 34

Which type of chemical synaptic transmitters usually cause more prolonged actions such as long-term changes in numbers of neuronal receptors, long-term opening or closure of certain ion channels, and possibly even long-term changes in numbers of synapses or sizes of synapses?

Answer 34

neuropeptides

Question 35

Give the Class I small-molecule, rapidly acting transmitter

Answer 35

acetylcholine

Question 36

Give the Class II small-molecule, rapidly acting transmitters

Answer 36

THE AMINES:
norepinephrine
epinephrine
dopamine
serotonin
histamine
melatonin

Question 37

Give the Class III small-molecule, rapidly acting transmitters

Answer 37

THE AMINO ACIDS
gamma-aminobutyric acid
glycine
glutamine
aspartate

Question 38

Give the Class IV small-molecule, rapidly acting transmitters

Answer 38

"ANAC"
ATP
nitric oxide
arachidonic acid
carbon monoxide

Question 39

This is the enzyme responsible for the synthesis of acetylcholine from acetyl coenzyme A and choline

Answer 39

choline acetyltransferase

Question 40

This is the enzyme present in the proteoglycan reticulum that fills the space of the synaptic space between synaptic neurons, and splits the acetylcholine to acetate and choline

Answer 40

cholinesterase

Question 41

What is the neurotransmitter for the inhibition of the heart via the vagus nerve?

Answer 41

acetylcholine

Question 42

This is the nucleus of the pons for the physiologic response to stress and panic, and control of overall activity and mood of the mind, such as increasing levels of wakefulness via the neurotransmitter norepinephrine

Answer 42

locus ceruleus [coeruleus]

Question 43

Where is the main termination of the neurotransmitter dopamine?

Answer 43

striatal region of the basal ganglia

Question 44

This is the inhibitory neurotransmitter found mainly in the synapses of the spinal cord

Answer 44

glycine

Question 45

This is the primary inhibitory neurotransmitter of the adult central nervous system

Answer 45

gamma-aminobutyric acid

Question 46

In the early stages of brain development, including the embryonic period and first week of postnatal life, GABA is thought to serve as an __________ neurotransmitter.
A. inhibitory
B. excitatory

Answer 46

B. excitatory

Question 47

This excitatory neurotransmitter is secreted by the presynaptic terminals in many of the sensory pathways entering the central nervous system, as well as in many areas of the cerebral cortex.

Answer 47

glutamate

Question 48

Which part of the brainstem contains the nuclei that secretes serotonin?

Answer 48

median raphe

Question 49

This neurotransmitter acts as an inhibitor of pain pathways in the cord; an inhibitor action in the higher regions of the nervous system is believed to help control the mood of the person, perhaps even to cause sleep.

Answer 49

Serotonin

Question 50

This is the neurotransmitter produced by nerve terminals in areas of the brain responsible for long-term behavior and memory.

Answer 50

Nitric oxide

Question 51

This neurotransmitter is not preformed and stored in vesicles in the presynaptic terminal, as are other transmitters. Instead, it is synthesized almost instantly as needed and then diffuses out of the presynaptic terminals over a period of seconds rather than being released in vesicular packets.

Answer 51

nitric oxide

Question 52

Where are neuropeptides synthesized compared to the small-molecule, rapidly acting transmitters that are synthesized in the cytosol?

Answer 52

The neuropeptides are not synthesized in the cytosol of the presynaptic terminals. Instead, they are synthesized as integral parts of large-protein molecules by ribosomes in the neuronal cell body

Question 53

How are neuropeptide transmitter vesicles transported from the cell body all the way to the tips of the nerve fibers?

Answer 53

axonal streaming

traveling at the slow rate of only a few centimeters per day

Question 54

Which type of synaptic transmitters are contained in vesicles that are autolyzed and not utilized after secretion?

Answer 54

neuropeptides

Question 55

This is the type of secretion of Neuropeptide and Small-Molecule Transmitters coexisting in the Same Neurons wherein both transmitters are stored in the same set of synaptic vesicles and released together when an action potential reaches the presynaptic terminal.

Answer 55

co-release

Question 56

This is the type of secretion of Neuropeptide and Small-Molecule Transmitters coexisting in the Same Neurons wherein the transmitters are stored in different populations of synaptic vesicles with differential release mediated by different calcium ion (Ca2+) sensitivities, or contained in spatially segregated vesicle populations to different boutons, allowing uniform information to be transmitted to different postsynaptic targets

Answer 56

co-transmission

may be:

• differential Ca2+ sensitivity
• spatial segregation

Question 57

Which neurotransmitters are co-released from the raphe nucleus of the brainstem, and play an important role in the cycle of sleep and wakefulness?

Answer 57

serotonin and glutamate

Question 58

These are the 3 ions that are most important for neuronal function

Answer 58

sodium ions
potassium ions
chloride ions

Question 59

This is the positive increase in voltage above the normal resting neuronal potential of the neuronal cell membrane eliciting an action potential in the postsynaptic neuron, thus exciting it in cases of +20 mV.

Answer 59

excitatory postsynaptic potential

Question 60

This is the process of simultaneous discharge of many nerve terminals at the same time or rapid succession

Answer 60

summation

Question 61

This is the segment of the axon where action potential is generated due to the seven times greater concentration of voltage-gated sodium channels in the membrane.

Answer 61

initial segment of the axon

**other sources: Axon Initial Segment (AIS)

Question 62

What is the threshold for excitation of the neuron?

Answer 62

-45mV

Question 63

This refers to an increase in negativity beyond the normal resting membrane potential level

Answer 63

inhibitory postsynaptic potential

Question 64

What neurotransmitter causes the opening of anion channels in the presynaptic neurons, allowing large numbers of chloride ions to diffuse into the terminal fibril, thus inhibiting the presynaptic neuron

Answer 64

gamma-aminobutyric acid

Question 65

This is the effect of summing simultaneous postsynaptic potentials by activating multiple terminals on widely spaced areas of the neuronal membrane

Answer 65

spatial summation

Question 66

When the EPSP becomes great enough, the ______ will be reached

Answer 66

threshold for firing

Question 67

Successive discharges from a single presynaptic terminal, if they occur rapidly enough, can add to one another; that is, they can summate. This type of summation is called:

Answer 67

temporal summation

Question 68

Often, the summated postsynaptic potential is excitatory but has not risen high enough to reach the threshold for firing by the postsynaptic neuron. When this situation occurs, the neuron is said to be _________

Answer 68

facilitated

Question 69

How can dendrites transmit signals within the same neuron?

Answer 69

electrotonic conduction

Question 70

This is the decrease in membrane potential as it spreads electrotonically along dendrites toward the soma

Answer 70

decremental conduction

Question 71

This is the summated degree of excitatory drive to the neuron

Answer 71

excitatory state

Question 72

The phenomenon of progressively decreasing number of discharges by the postsynaptic neuron in succeeding repetitive stimulation at rapid rate.

Answer 72

fatigue of synaptic transmission

Question 73

This is a protective mechanism against excess neuronal activity, and the most important means whereby the excess excitability of the brain during an epileptic seizure is finally subdued so that the seizure ceases

Answer 73

fatigue [of synaptic transmission]

Question 74

Part of the fatigue process of synaptic transmission probably results from two other factors apart from the exhaustion of stores of transmitters, and these are:

Answer 74

(1) progressive inactivation of many postsynaptic receptors

(2) slow development of abnormal concentration of ions in the postsynaptic neuronal cell

Question 75

Hyperventilation is most likely to have which of the following effects on a typical neuron in the central nervous system?

Answer 75

increased neuronal excitability

• hyperventilation causes alkalosis which greatly increases neuronal excitability

Question 76

Cessation of oxygen for only a few seconds can cause _____________ of some neurons

Answer 76

complete inexcitability

Question 77

This is one of the best known of all agents that increase excitability of neurons. However, it does not do this by reducing the threshold for excitation of the neurons; instead, it inhibits the action of some normally inhibitory transmitter substances, especially the inhibitory effect of GLYCINE in the spinal cord. Therefore, the effects of the excitatory transmitters become overwhelming, and the neurons become so excited that they go into rapidly repetitive discharge, resulting in severe tonic muscle spasms.

Answer 77

strychnine

Question 78

The minimal period of time required for the events of neuronal signal transmission to take place, even when large numbers of excitatory synapses are stimulated simultaneously, is about 0.5 millisecond, called the

Answer 78

synaptic delay

Question 79

Equilibrium potential of sodium

Answer 79

+62 mV

Question 80

Equilibrium potential of potassium

Answer 80

-86 mV

Question 81

Equilibrium potential of chloride

Answer 81

-70 mV