Chapter 11 Nervous System

Question 1

KNOW THE ORGANIZATION AND FUNCTIONS OF EACH DIVISION OF THE NERVOUS SYSTEM:
CENTRAL NERVOUS SYSTEM (CNS)

PERIPHERAL NERVOUS SYSTEM (PNS)

**not in lecture WHAT DO SOMATIC AND AUTONOMIC DIVISIONS OF THE PNS INNERVATE?

not in lectureWHAT ARE THE TWO DIVISIONS OF THE AUTONOMIC NERVOUS SYSTEM?

Answer 1

CNS = brain and spinal chord
-integration and command center

PNS =. paired spinal (31) and cranial nerves (12)
-carry messages to and from the brain

• somatic division innervate skeletal muscles
• autonomic divisions innervate smooth muscles, cardiac muscles, glands
• Parasympathetic: conserves energy
• Sympathetic: mobilizes

Question 2

KNOW FUNCTIONS OF NEUROGLIAL “SUPPORTING CELLS”.

WHICH ARE IN THE CNS?
WHICH ARE IN THE PNS?

Answer 2

CNS = astrocytes, microglia, ependymal cells, oligodendrocytes
PNS = satellite cells, Schwann cells

Question 3

astrocytes

Answer 3

CNS - support & brace neurons and their capillarie

Question 4

microglia

Answer 4

CNS - phagocytize microorganisms and neuronal debris

Question 5

ependymal cells function & location

Answer 5

CNS - has cillia that moves and circulate the cerebral spinal fluid
-lines cavitites of the brain and spinal column

Question 6

oligodendrocytes

Answer 6

wrap CNS axons forming insulating myelin sheaths

Question 7

Satellite cells. What is its function? What is it similar to in the CNS?

Answer 7

PNS

• surround cell bodies in the PNS
• similar to astrocytes in the CNS

Question 8

Schwann cells What do they form? They are vital to _____. What is it similar to in the CNS?

Answer 8

• form myelin sheaths
• vital to regeneration of damaged peripheral nerves
• similar to oligodendrocytes in the CNS

Question 9

WHAT IS THE FUNCTION OF THE MYELIN SHEATH? (2)

WHAT CELLS PRODUCE IT IN THE CNS?

IN THE PNS?

Answer 9

• protects and insulates neuron
• increase speed of nerve impulse transmission
• CNS = oligodendrocyte
• PNS = schwann cells

Question 10

What is the node of Ranvier?

Why does the action potential (AP) travel faster in myelinated fibers?

What is this process called

Answer 10

• myelin sheath gaps between schwann cells

- voltage Na channels in nodes of ranvier allows Na to rush in (called saltatory conduction)

Question 11

What part receives incoming stimuli and generates a graded potential (GP)?

What part generates an action potential (AP)?

Answer 11

• dendrites

- axon

Question 12

What are Nissl bodies in the cell body?

Answer 12

RER in neurons

Question 13

What is a neuron? Know the anatomy (3) and general characteristics (3) of a neuron. (We used a motor neuron as our example.)

Answer 13

-excitable cells that transmit electrical impulses

• structural unit of the nervous system
• large, highly specialized cells that conduct impulses
• have cell body and processes
• extreme longevity
• amiototic/do not regenerate (damage = paralysis)
• high metabolic rate (requires continsous glucose & O2)

Question 14

Which neurons are structurally unipolar?

Which are bipolar?

What neurons are multipolar?

Answer 14

unipolar = sensory neurons (like temperature from touch)
biopolar = retina of the eye & organs of sensory organs
multipolar = motor neurons & interneuron

Question 15

What is the function of a: motor neuron; sensory neuron ; interneuron

Answer 15

• motor neurons = carry impulses from CNS to the effectors
• sensory = transmits impulses from sensory receptors to CNS
• interneurons = shuttle signals between motor and sensory neurons (most neurons are this type)

Question 16

What creates the resting membrane potential? (3, 4) What voltage is it?

Answer 16

• differences in ionic makeup of ICF and ECF &
• ICF has high Cl- and Na+
• ECF has high K+ and - proteins
• differential permeability of the plasma membrane
• impermeable to negative proteins
• slightly permeable to Na+ & K+ (leakage proteins)
• freely permeable to Cl-

-70mV

Question 17

What is depolarization? (2)

The entry of what ion causes depolarization?

Answer 17

• decrease in membrane potential
• inside of cells becoming less negative
• voltage gated Na+ opens

Question 18

What is repolarization? (2)

The exit of what ion causes repolarization?

Answer 18

• increase in membrane potential
• becomes more negative
• K+ voltage gated channels open

Question 19

What is hyperpolarization?

The exit of what ion causes hyperpolarization?

Answer 19

• influx of excessive K+

- becomes more negative than resting membrane potential

Question 20

What are 3 types of gated channels in neuron membranes?

Answer 20

1. ligand-gated: open when neurotransmitters attach to the receptors
2. voltage-gated: receptors open with change in voltage
3. leakage channels: always open, allows Na+ and K+ (more K+ leakage channels than K+) to wiggle through

Question 21

What are the absolute and relative refractory periods of a neuron? Are neurons able to respond to stimuli?

What does an absolute refractory period ensure? (2)

Repolarization/hyperpolarization/depolarization is occurring during a relative refractory period?

Answer 21

absolute refractory period

• time from opening of Na channels until reset
• neuron unable to respond to stimuli
• ensures reaching of AP
• ensures one way transmission of impulses

relative refractory period

• Na return to resting state & some K channels still open
• repolarization occurring
• only exceptionally strong stimulus could generate an AP

Question 22

What is a synapse?

Answer 22

-junction that mediates information transfer from one neuron to another neuron of an effector cell

Question 23

Know what happens at a chemical synapse.

The entry of what ion through voltage-gated channels in the axonal terminal stimulates the vesicles containing neurotransmitter (NT) to fuse with the axonal membrane of a presynaptic membrane?

By what process is the NT released into the synaptic cleft?

NT binds to receptors on the _______________ neuron.

The NT causes the generation of what kind of potential on the postsynaptic neuron?

Answer 23

• Ca
• exocytosis
• post-synaptic neuron
• graded potential

Question 24

Presynaptic and postsynaptic neurons transmits impulses to/away from synapse?

Answer 24

• presynaptic - conducts impulses toward the synapse

- postsynaptioc - transmits impulses away from synapse

Question 25

not in lecture What are 3 ways the neurotransmitter is removed from the synaptic cleft?

Answer 25

1. diffusion away from synaptic cleft
2. degradation - by enzymes
3. reuptake - by astrocytes or axon terminal

Question 26

What is a graded potential? What do depolarization and hyperpolarization mean in terms of the neuron being likely to “fire”?

Answer 26

• short-lived, localized changes in membrane potential
• depolarization means neuron fired
• during hyperpolarization, neurons do not fire

Question 27

What is an action potential? Where does it occur?

Answer 27

• brief reversal of membrane potential

- occurs in sarcolemma of muscles & AXONS of neurons

Question 28

How are graded potentials and action potentials different and where on the neuron is each usually generated?

Answer 28

• graded potential = dendrites, local change

- action potential = axons of neuron, spreads through neuron

Question 29

An AP is generated when voltage gated _______________ channels open.

Where does the voltage come from?

Answer 29

Na+

influx of Na+ ions into the cell

Question 30

Speed of AP transmission depends on what 2 factors? They are faster when _____.

Answer 30

diameter (bigger is faster) & degree of myelination (more insulation is faster)
of nerve fibers

Question 31

What are A (just know this), B, and C nerve fibers?

Answer 31

thickest, quickest nerve fiber

Question 32

Where are electrical synapses found in the body?

In electrical synapses, ions can rapidly enter cells to depolarize them because they move through membrane junctions called ____________________________ .

Answer 32

• embryonic nervous tissues & some brain regions

- gap junctions

Question 33

What is an IPSP and an EPSP?

***Are they a graded or an action potential?

Is each generated by depolarization or hyperpolarization?

Answer 33

IPSP = inhibitory post synaptic potential
-hyperpolarization when K leaves the cell or Cl- enters cell

EPSP = excited post synaptic potential

• inside becomes positive as ligand gated channels open and Na enters and K leaves (net +)
• graded potential (depolarization) that helps trigger AP if threshold is reached

-both graded potential

Question 34

Dopamine is a neurotransmitter (NT) that is deficient in ___________________ disease.

Answer 34

parkinson’s disease

Question 35

The antidepressant Elavil acts as selective ____________________ (2) uptake inhibitor, allowing the NT to remain in the synaptic cleft longer.

Answer 35

norepinephrine/adrenaline/epinephrine, serotonin

Question 36

What NT is excitatory at the neuromuscular junction?

Answer 36

acetylcholine

Question 37

What neurotransmitter is thought to play a role in sleep and appetite disorders, migraines, and its re-uptake is blocked by the antidepressant Prozac?

Answer 37

seratonin

Question 38

What is the main inhibitory NT in the brain?

Answer 38

GABA

Question 39

Why is glutamate called “the stroke NT”?

Answer 39

excessive release from damaged neuron is toxic to brain

Question 40

What NT is a mediator of pain signals? How?

Answer 40

endorphins, inhibiting substane P

Question 41

What are the effects of the endorphin? What are they naturally? What 2 drugs mimick this?

Answer 41

• natural opiates that reduce pain by inhibiting substance B

- mimicked by heroin & morphine

Question 42

What do Na/K pumps do? How many Na pumped? K? In which direction?

Answer 42

create resting potentials

3 Na out, 2 K in

Question 43

What causes multiple sclerosis? What does it form? What are its symptoms? (5)

Answer 43

• demyelinations of CNS neurons
• forms thick scars (nonfunctional sclerosis)
• visual disturbances, weakness, loss of muscular control, speech disturbances, urinary incontinence

Question 44

What are the 2 different types of synapses?

Answer 44

• axodendritic - between axon & dendrite

- axosomatic - between axon & soma

Question 45

LSD blocks the inhibitory activity of _____.

Answer 45

serotonin

Question 46

Excessive dopamine causes _____.

Answer 46

scizophrenia

Question 47

The reuptake of these 2 neurotransmitters are blocked by cocaine to produce a feel good effect.

Answer 47

norepinephrine and dopamine

Question 48

Acetylcholine is _____ in skeletal muscle but _____ in cardiac muscle (_____ receptors)

Answer 48

excitatory, inhibitory, beta-1 receptor

Question 49

action potential numbers

• resting membrane potential
• graded potential
• action potential
• hyperpolarization

Answer 49

-70
-55
+35

Question 50

Small/big/polar/non-polar molecules are allowed through leakage/ligand gated/voltage gated channels. (2)

Answer 50

• leakage channels: small, non-polar

- gated channels (ligand and voltage channels): big, polar

Question 51

What are the 4 main voltage-gated channels used for muscle contraction and sending neuro impulses?

Answer 51

Na+, K+, Cl-, Ca++

Question 52

**What is diffusion? What are 3 different kinds of diffusion?

Answer 52

• movement of molecules from high to low concentration
• simple diffusion of small/nonpolar molecules through leakage proteins
• facilitated diffusion for larger molecules
• receptor-mediated difussion: molecules (like aa and glucose) bind to receptor and open the pathway

Question 53

What are the 2 kinds of excitatory cells? What does that mean?

Answer 53

muscles (myocyte), neurons

-can be excited to do something

Question 54

5 steps of action potential (2 pre-step)

Answer 54

1. action potential opens voltage-gated Ca++ on the neuron. the Ca++ goes to the terminal button
2. acetylcholine released into the synaptic cleft
3. RMP - negative on the inside, positive on the outside
4. Graded potential - Acetyl choline attaches to the ligand gated Na+ channel, the receptor opens and lets Na+ inside, making the charge more positive. Creates graded potential, which is a local change
5. Depolarization - once the threshold is reached, the graded potential opens up the voltage-gated Na+ channels, to let even more Na+ inside, rapidly. This makes all of the cell membrane positive. In this stage, action potential has occurred.
6. Repolarization - voltage-gated Na+ channels close, and voltage-gated K+ channels open and let K+ go outside, making the inside negative again.
7. Hyperpolarization - cell becomes more negative than original as K+ channel remains open. Here, cells cannot do anything and become inhibited

Question 55

Not in objectives

What is the pathway of nervous system (3)

Answer 55

1. sensory input - information about changes gathered via afferent pathway
2. integration - interpretation of sensory input
3. motor output - activation of effector organs to produce a response

Question 56

Not in objectives

Where are interneurons located? What brain functions is it used to do? (3)

Answer 56

• CNS (brain)

- memory, thinking, decision making

Question 57

What are the 2 types of nerve cells?

Answer 57

neurons & neuroglia (supporting celles)

Question 58

Quiz

Long axons are called _____.

Answer 58

nerve fibers

Question 59

talked about in class

neurons can form synapses with these 3 things

Answer 59

muscle, galnds, neurons

Question 60

What is a neurilemma?

Answer 60

peripheral bulge of Schwann cell cytoplasm

Question 61

_____ creates an electrical current and voltage changes across the cell membrane

Answer 61

ion flow

Question 62

chemical/electrical synapses are more common

Answer 62

chemical

Question 63

chemical synapses are highly _____

Answer 63

specialized

Question 64

A synaptic cleft ensures _____ between neurons.

Answer 64

unidirectional communication

Question 65

The cell membrane is 75 times more permeable to _____ than _____ through leakage channels

Answer 65

K+, Na+

Question 66

changes in _____ are signals.

Answer 66

membrane potential

Question 67

Talked about in class

give 3 sentences of graded potentials

Answer 67

1. local change
2. short distance signals
3. decrease in magnitude with distance because ions diffuse through leakage channels

Question 68

AP does/does not decrease in magnitude over long distance.

Answer 68

does not

Question 69

AP is a brief reversal of membrane potential with a total amplitude of _____ mV.

Answer 69

100

Question 70

True or false

AP is an all or none phenomenon.

Answer 70

true

Question 71

Meylination prevents _____ of charge.

Answer 71

leakage

Question 72

The strength of graded potentials depend on _____. (2)

Answer 72

amount of neurotransmitter released, time the neurotransmitter is in the area

Question 73

a signle EPSP can/cannot induce an action potential. EPSP must ____ to reach threshold by either increasing the ____ or _____. IPSP ____ EPSP summation

Answer 73

• cannot
• EPSP must summate by increasing the frequency of stimuli or gathering multiple stimuli from different sources
• IPSP and EPSP cancels each other out

Question 74

_____ are the language of the nervous system.

Answer 74

neruotransmitters

Question 75

True or false. Most neurons make 2 or more neurotransmitters

Answer 75

true

Question 76

Which neurotransmitters produce the feel good effect? (4)

Answer 76

norepinephrine, dopamine

Question 77

_____ cells are vital for damaged peripheral nerves

Answer 77

schwann cells