Chapter 2: Synapses

Question 1

What evidence led Sherrington to conclude that transmission at a synapse is not the same as transmission along an axon?

Answer 1

Sherrington found that the velocity of conduction through a reflex arc was slower than the velocity of an action potential along an axon. Therefore, some delay must occur at the junction between one neuron and the next.

Question 2

What is the difference between temporal summation and spatial summation?

Answer 2

Temporal summation is the combined effect of quickly repeated stimulation at a single synapse. Spatial summation is the combined effect of several nearly simultaneous stimulations at several synapses onto one neuron.

Question 3

What was Sherrington’s evidence for inhibition in the nervous system?

Answer 3

Sherrington found that a reflex that stimulates a flexor muscle prevents contraction of the extensor muscles of the same limb. He therefore inferred that an interneuron that excited motor neurons connected to the flexor muscle also inhibited the input to the extensor muscle.

Question 4

What ion gates in the membrane open during an EPSP? What gates open during an IPSP?

Answer 4

During an EPSP, sodium gates open. During an IPSP, potassium or chloride gates open.

Question 5

Can an inhibitory message flow along an axon?

Answer 5

No. Only action potentials propagate along an axon. Inhibitory messages—IPSPs—decay over time and distance

Question 6

What was Loewi’s evidence that neurotransmission depends on the release of chemicals?

Answer 6

When Loewi stimulated a nerve that increased or decreased a frog’s heart rate, he could withdraw fluid from the area around the heart, transfer it to another frog’s heart, and thereby increase or decrease its rate also

Question 7

Blood flow increases to the most active brain areas. How does the blood “know” which areas are most active?

Answer 7

In a highly active brain area, many stimulated neurons release nitric oxide, which dilates the blood vessels in the area and thereby makes it easier for blood to flow to the area.

Question 8

Name the three catecholamine neurotransmitters.

Answer 8

Epinephrine, norepinephrine, and dopamine. Do not confuse the term catecholamine with acetylcholine.

Question 9

When the action potential reaches the presynaptic terminal, which ion must enter the presynaptic terminal to evoke release of the neurotransmitter?

Answer 9

Calcium

Question 10

How do ionotropic and metabotropic synapses differ in speed and duration of effects?

Answer 10

Ionotropic synapses act more quickly and more briefly

Question 11

What are second messengers, and which type of synapse relies on them?

Answer 11

Second messengers are chemicals that alter metabolism or gene expression within a postsynaptic neuron. At metabotropic synapses, the neurotransmitter attaches to a receptor and thereby releases a second messenger

Question 12

How do neuropeptides compare to other transmitters?

Answer 12

Neuropeptides are released only after prolonged stimulation, but when they are released, they are released in large amounts by all parts of the neuron, not just the axon terminal. Neuropeptides diffuse widely, producing long-lasting effects on many neurons.

Question 13

How do LSD, nicotine, and opiate drugs influence behavior?

Answer 13

LSD binds to one type of serotonin receptor. Nicotine binds to one type of acetylcholine receptor. Opiates bind to endorphin receptors.

Question 14

What happens to acetylcholine molecules after they stimulate a postsynaptic receptor?

Answer 14

The enzyme acetylcholinesterase breaks acetylcholine molecules into two smaller molecules, acetate and choline, which are then reabsorbed by the presynaptic terminal.

Question 15

What happens to serotonin and catecholamine molecules after they stimulate a postsynaptic receptor?

Answer 15

Most serotonin and catecholamine molecules are reabsorbed by the presynaptic terminal. Some of their molecules are broken down into inactive chemicals, which then diffuse away.

Question 16

How do amphetamine and cocaine influence synapses?

Answer 16

They block reuptake of released dopamine, serotonin, and norepinephrine.

Question 17

Why is methylphenidate generally less disruptive to behavior than cocaine is despite the drugs’ similar mechanisms?

Answer 17

The effects of a methylphenidate pill develop and decline in the brain much more slowly than do those of cocaine.

Question 18

How do cannabinoids affect neurons?

Answer 18

Cannabinoids released by the postsynaptic neuron attach to receptors on presynaptic neurons, where they inhibit further release of both glutamate and GABA.

Question 19

Which part of the pituitary—anterior or posterior—is neural tissue, similar to the hypothalamus? Which part is glandular tissue and produces hormones that control the secretions by other endocrine organs?

Answer 19

The posterior pituitary is neural tissue, like the hypothalamus. The anterior pituitary is glandular tissue and produces hormones that control several other endocrine organs

Question 20

Regarding a synapse, the ____ neuron delivers the transmission and the _____ receives it.
a. sensory; interneuron
b. postsynaptic; presynaptic
c. presynaptic; postsynaptic
d. motor; sensory

Answer 20

Presynaptic; postsynaptic
Correct. The majority of neurotransmission occurs when calcium enters the presynaptic terminal. This triggers the vesicles to release neurotransmitter into the synapse where it diffuses and is picked up by the postsynaptic receptors.

Question 21

Charles Scott Sherrington’s research involved pinching a dog’s foot. After a fraction of a second, the dog would flex the pinched leg and extend the other legs. He called this event a _____.
a. reflex arc
b. motor neuron pathway
c. spinal cord pathway
d. sensory neuron pathway

Answer 21

reflex arc

Correct. Charles Sherrington studied reflexes in dogs by pinching one leg and watching the dog lift the leg. He discovered that a reflex arc traveled at about 15 m/s instead of the previously discovered nerve impulse that traveled at 40 m/s. Because of this slower process, he inferred that there must be a gap between neurons, and he coined the term synapse.

Question 22

To produce an action potential, ____ must combine such that the neuron reaches threshold.
a. multiple EPSPs
b. multiple IPSPs
c. more IPSPs than EPSPs
d. equal numbers of IPSPs and EPSPs

Answer 22

multiple EPSPs

Correct. EPSPs (excitatory postsynaptic potentials) are brief depolarizations that move the neuron closer to threshold. They can occur in quick succession (temporal summation) or by activating multiple, nearby locations (spatial summation).

Question 23

Cecil has just finished eating a large turkey dinner. He is feeling full and happy. Shortly, he should have a spike in _____ due to the large amount of ____ in the turkey.
a. serotonin; tryptophan
b. dopamine; tyrosine
c. serotonin; tyrosine
d. dopamine; tryptophan

Answer 23

dopamine; tyrosine

Correct. Protein like turkey contains a large amount of tyrosine. Tyrosine is the precursor to dopamine (as well as norepinephrine and epinephrine).

Question 24

Most neurotransmitters are typically stored in ____ located in the axon terminals. When stimulated, the neurotransmitter is released via ____ into the synapse.
a. vesicles; exocytosis
b. vesicles; endocytosis
c. mitochondria; osmosis
d. vesicles; osmosis

Answer 24

vesicles;exocytosis

Correct. Neurotransmitters are made and packaged into vesicles so that they are ready for release. When activated by an influx of calcium, the vesicle fuses with the cell membrane to release the contents into the synapse (a form of exocytosis).

Question 25

Dedra has diabetes. As such, she needs to take the hormone _____ because her ____ does not produce enough on its own.
a. glucagon; adrenal cortex
b. glucagon; pancreas
c. insulin; pancreas
d. insulin; adrenal cortex

Answer 25

insulin;pancreas

Correct. Insulin is made by the pancreas and is secreted following a meal. It helps to lower blood sugar by encouraging cells to take up the sugar from the bloodstream. In this case, Dedra must supplement her insulin levels because her pancreas isn’t making enough.