A&P 11: Fundamentals of the Nervous System & Nervous Tissue

Question 1

Nervous system

Answer 1

master controlling and communicating system of the body

Question 2

Sensory input

Answer 2

information gathered by the nervous system

Question 3

Integration

Answer 3

process of the nervous system processing and interpreting sensory input and deciding what should be done at each moment

Question 4

Motor output

Answer 4

the nervous system activates effector organs (muscles and glands) to cause a response, called this

Question 5

Central nervous system

Answer 5

brain and spinal cord; integrating and control center of the nervous system; interprets sensory input and dictates motor output based on reflexes, current conditions, and past experience

Question 6

Peripheral nervous system

Answer 6

part of the nervous system outside the CNS; consists mainly of nerves that extend from the brain and spinal cord

Question 7

Sensory (afferent) division

Answer 7

part of the PNS; consists of nerve fibers (axons) that convey impulses TO the CNS from sensory receptors located throughout the body

Question 8

Motor (efferent) division

Answer 8

part of the PNS; transmits impulses FROM the CNS to effector organs (muscle and glands)

Question 9

Somatic nervous system

Answer 9

composed of somatic motor nerve fibers that conduct impulses from the CNS to skeletal muscles; often referred to as the voluntary nervous system because it allows us to consciously control our skeletal muscles

Question 10

Autonomic nervous system (ANS)

Answer 10

consists of visceral motor nerve fibers that regulate the activity of smooth muscles, cardiac muscles, and glands; AKA the involuntary nervous system

Question 11

Sympathetic division

Answer 11

division of the ANS that prepares the body for activity or to cope with some stressor (danger, excitement, etc.); the fight, fright, and flight subdivision

Question 12

Parasympathetic division

Answer 12

division of the ANS that oversees digestion, elimination, and glandular function; the resting and digesting subdivision

Question 13

Neuroglia

Answer 13

nonexcitable cells of neural tissue that support, protect, and insulate the neurons; glial cells

Question 14

Astrocytes

Answer 14

shaped like delicate branching sea anemones, these are the most versatile glial cells; numerous radiating processes cling to neurons and their synaptic endings, and cover nearby capillaries; support/brace neurons and anchor them to their nutrient supply line

Question 15

Microglial cells

Answer 15

small and ovoid with relatively long thorny processes, which touch nearby neurons, monitoring their health; phagocytizes microorganisms or neuronal debris

Question 16

Ependymal cells

Answer 16

range in shape from squamous to columnar, and many are ciliated; line the central cavities of the brain and spinal cord, where they form a fairly permeable barrier between the cerebrospinal fluid that fills those cavities and the tissue fluid bathing the cells of the CNS

Question 17

Oligodendrocytes

Answer 17

branch, but with fewer processes than astrocytes; line up along the thicker nerve fibers in the CNS and wrap their processes tightly around the fibers, producing an insulating covering (myelin sheath)

Question 18

Satellite cells

Answer 18

surround neuron cell bodies in the PNS; thought to have the same function as astrocytes

Question 19

Schwann cells

Answer 19

AKA neurolemmocytes; surround all nerve fibers in the PNS and form myelin sheaths around the thicker nerve fibers; functionally similar to oligodendrocytes; vital to regeneration of damaged peripheral nerve fibers

Question 20

Neurons

Answer 20

nerve cells; structural units of the nervous system; typically large, specialized cells that conduct messages in the form of nerve impulses from one part of the body to another

Question 21

Neuron cell body

Answer 21

consists of a spherical nucleus with a conspicuous nucleolus surrounded by cytoplasm

Question 22

Perikaryon (soma)

Answer 22

another name for the neuron cell body; major biosynthetic center of a neuron; contains the usual organelles

Question 23

Chromatophilic substance

Answer 23

rough ER of a neuron; AKA Nissl bodies; stains darkly with basic dyes; most active and best developed rough ER in the body

Question 24

Neurofibrils

Answer 24

bundles of intermediate filaments; important in maintaining cell shape and integrity; form a network throughout the cell body

Question 25

Nuclei

Answer 25

clusters of cell bodies in the CNS

Question 26

Ganglia

Answer 26

cell bodies that lie along the nerves in the PNS

Question 27

Processes

Answer 27

armlike ___ extend from the cell body of all neurons

Question 28

Tracts

Answer 28

bundles of neuron processes in the CNS

Question 29

Nerves

Answer 29

bundles of neuron processes in the PNS

Question 30

Dendrites

Answer 30

short, tapering, diffusely branching extensions; convey incoming messages TOWARD the cell body

Question 31

Receptive (input) regions

Answer 31

dendrites; provide an enormous surface area for receiving signals from other neurons

Question 32

Axon

Answer 32

each neuron has a single one of these

Question 33

Axon hillock

Answer 33

the initial region of the axon arises from a cone-shaped area of the cell body called this; then narrows to form a slender process that is uniform in diameter for the rest of its length

Question 34

Nerve fiber

Answer 34

any long axon

Question 35

Axon collaterals

Answer 35

branches of an axon; extend from the axon at right angles

Question 36

Terminal branches

Answer 36

terminal arborizations; profuse branching at the end of an axon (10,000+)

Question 37

Axon terminals (terminal boutons)

Answer 37

the knoblike distal endings of the terminal branches of an axon

Question 38

Conducting region

Answer 38

axon is the ___ ___ of the neuron - it generates nerve impulses and transmits them, typically away from the cell body, along the plasma membrane

Question 39

Axolemma

Answer 39

plasma membrane of the neuron

Question 40

Secretory region

Answer 40

axon terminals are the ___ ___ of the neuron

Question 41

Myelin sheath

Answer 41

many nerve fibers, particularly those that are long or large in diameter, are covered with this whitish, fatty (protein-lipoid), segmented ___ ___

Question 42

Myelinated fibers

Answer 42

axons bearing a myelin sheath; conduct nerve impulses rapidly

Question 43

Nonmyelinated fibers

Answer 43

axons without a myelin sheath; conduct impulses slowly; dendrites are always _____

Question 44

Nodes of Ranvier

Answer 44

myelin sheath gaps; occur at regular intervals (1 mm apart) along a myelinated axon

Question 45

White matter

Answer 45

regions of the brain and spinal cord containing dense collections of myelinated fibers; primarily fiber tracts

Question 46

Gray matter

Answer 46

contains mostly nerve cell bodies and nonmyelinated fibers

Question 47

Multipolar neurons

Answer 47

have 3+ processes - one axon and the rest dendrites; most common neuron type in humans (>99%); major type of neuron in the CNS

Question 48

Bipolar neurons

Answer 48

neurons with 2 processes (axon and dendrite); extend from opposite sides of the cell body; rare; found in some of the special sense organs (retina, olfactory mucosa)

Question 49

Unipolar neurons

Answer 49

neurons with a single short process that emerges from the cell body and divides T-like into proximal and distal branches; found chiefly in ganglia in the PNS, where they function as sensory neurons

Question 50

Peripheral process

Answer 50

the more distal process of a unipolar neuron; often associated with a sensory receptor

Question 51

Central process

Answer 51

proximal process of a unipolar neuron; enters the CNS

Question 52

Pseudounipolar neurons

Answer 52

unipolar neurons are more accurately called this, because they originate as bipolar neurons

Question 53

Sensory (afferent) neurons

Answer 53

transmit impulses from sensory receptors in the skin or internal organs toward or into the CNS

Question 54

Motor (efferent) neurons

Answer 54

carry impulses away from the CNS to the effector organs (muscles and glands) of the body periphery; multipolar; except for some neurons of the ANS, their cell bodies are located in the CNS

Question 55

Interneurons (association neurons)

Answer 55

neurons that lie between motor and sensory neurons in neural pathways and shuttle signals through CNS pathways where integration occurs; most are confined within the CNS; make up over 99% of the neurons of the body, including most of those in the CNS

Question 56

Voltage

Answer 56

measure of potential energy generated by separated charge; measured in volts (V) or millivolts (1 mV)

Question 57

Potential difference (potential)

Answer 57

voltage is always measured between 2 points and is called the ___ or the __ ___ between the points

Question 58

Current

Answer 58

flow of electrical charge from one point to another; can be used to do work

Question 59

Resistance

Answer 59

hindrance to charge flow provided by substances through which the current must pass; if high = insulator; if low = conductor

Question 60

Ohm’s Law

Answer 60

current (I) = voltage (V)/resistance (R); current is directly proportional to voltage; there is no net current between points that have the same potential; current is inversely related to resistance

Question 61

Leakage (nongated) channels

Answer 61

channels that are always open

Question 62

Chemically gated (ligand-gated) channels

Answer 62

channels that open when the appropriate chemical (in this case a neurotransmitter) binds

Question 63

Voltage-gated channels

Answer 63

channels that open and close in response to changes in the membrane potential

Question 64

Mechanically-gated channels

Answer 64

channels that open in response to physical deformation of the receptor (as in sensory receptors for touch and pressure)

Question 65

Electrochemical gradient

Answer 65

together, electrical and concentration gradients constitute this; ions flowing along these underlie all electrical events in neurons

Question 66

Resting membrane potential

Answer 66

potential difference in a resting neuron

Question 67

Polarized

Answer 67

state of a plasma membrane of an unstimulated neuron or muscle cell in which the inside of the cell is relatively negative in comparison to the outside; the resting state

Question 68

Sodium-potassium pump (Na+ - K+ ATPase)

Answer 68

stabilizes the resting membrane potential by maintaining the concentration gradients for sodium and potassium

Question 69

Depolarization

Answer 69

a decrease in membrane potential; the inside of the membrane becomes less negative (moves closer to zero) than the resting potential; also includes events in which the membrane potential reverses and moves above zero to become positive

Question 70

Hyperpolarization

Answer 70

an increase in membrane potential; the inside of the membrane becomes more negative (moves further from zero) than the resting potential

Question 71

Graded potentials

Answer 71

short-lived, localized changes in membrane potential that can be either depolarizations or hyperpolarizations; cause current flows that decrease in magnitude with distance

Question 72

Action potential (AP)

Answer 72

a brief reversal of membrane potential with a total amplitude (change in voltage) of about 100 mV

Question 73

Nerve impulse

Answer 73

in a neuron, an action potential; typically generated only in axons

Question 74

Threshold

Answer 74

when depolarization at the stimulation site reaches this certain critical level (often between -55 & -50 mV), depolarization becomes self-generating

Question 75

Repolarization

Answer 75

restoration of the internal negativity of the resting neuron; both the abrupt decline in Na+ permeability and the increased permeability to K+ contribute to repolarization

Question 76

All-or-none phenomenon

Answer 76

an action potential either happens completely or doesn’t happen at all

Question 77

Propagated

Answer 77

if it is to serve as the neuron’s signaling device, an AP must do this along the entire axon’s length

Question 78

Absolute refractory period

Answer 78

the period, from the opening of the Na+ channels until the Na+ channels begin to reset to their original resting state; ensure that each AP is a separate, all-or-none event and enforces one-way transmission of the AP

Question 79

Relative refractory period

Answer 79

interval following the absolute refractory period

Question 80

Continuous conduction

Answer 80

AP propagation involving nonmyelinated axons

Question 81

Saltatory conduction

Answer 81

AP’s are triggered only at the myelin sheath gaps; the electrical signal appears to jump from gap to gap along the axon; 30x faster than continuous conduction

Question 82

Multiple sclerosis

Answer 82

demyelinating disease; autoimmune; gradually destroys myelin sheaths in the CNS, reducing them to nonfunctional hardened lesions called scleroses

Question 83

Group A fibers

Answer 83

mostly somatic sensory and motor fibers serving the skin, skeletal muscles, and joints; have the largest diameter and thick myelin sheaths; conduct impulses at speeds ranging up to 150 m/s (>300mph)

Question 84

Group B fibers

Answer 84

lightly myelinated fibers of intermediate diameter; transmit impulses at an average rate of 15m/s (30mph)

Question 85

Group C fibers

Answer 85

smallest diameter; nonmyelinated; incapable of saltatory conduction and conduct impulses at a leisurely pace (1m/s or 2mph or less)

Question 86

Synapse

Answer 86

junction that mediates information transfer from 1 neuron to the next or from a neuron to an effector cell

Question 87

Axodendritic synapses

Answer 87

synapses between the axon endings of 1 neuron and the dendrites of other neurons

Question 88

Axosomatic synapses

Answer 88

synapses between axon endings of 1 neuron and cell bodies (soma) of other neurons

Question 89

Presynaptic neuron

Answer 89

the neuron conducting impulses toward the synapse

Question 90

Postsynaptic neuron

Answer 90

the neuron transmitting the electrical signal away from the synapse

Question 91

Electrical synapses

Answer 91

less common type of synapse; consist of gap junctions like those found between certain other body cells; contain protein channels (connexons) that intimately connect they cytoplasm of adjacent neurons and allow ions and small molecules to flow directly from 1 neuron to the next

Question 92

Chemical synapses

Answer 92

synapses specialized to allow the release and reception of chemical neurotransmitters

Question 93

Synaptic vesicles

Answer 93

tiny, membrane-bounded sacs, each containing thousands of neurotransmitter molecules

Question 94

Synaptic cleft

Answer 94

presynaptic and postsynaptic membranes are always separated by this fluid-filled space approximately 30-50 nm wide

Question 95

Synaptic delay

Answer 95

time required for a signal to cross a synapse between 2 neurons; rate-determining step of neural transmission

Question 96

Excitatory postsynaptic potentials (EPSPs)

Answer 96

local graded depolarization events that occur at excitatory postsynaptic membranes

Question 97

Inhibitory postsynaptic potentials (IPSPs)

Answer 97

hyperpolarizing changes in potential

Question 98

Summate

Answer 98

add together

Question 99

Temporal summation

Answer 99

occurs when 1 or more presynaptic neurons transmit impulses in rapid-fire order and bursts of neurotransmitter are released in quick succession

Question 100

Spatial summation

Answer 100

occurs when the postsynaptic neuron is stimulated simultaneously by a large number of terminals from one (or more commonly) many presynaptic neurons

Question 101

Facilitated

Answer 101

partially depolarized neurons are more easily excited by successive depolarization events because they are already near threshold

Question 102

Synaptic potentiation

Answer 102

repeated or continuous use of a synapse (even for short periods) enhances the presynaptic neuron’s ability to excite the postsynaptic neuron, producing larger-than-expected EPSPs

Question 103

Presynaptic inhibition

Answer 103

occurs when the release of excitatory neurotransmitter by one neuron is inhibited by the activity of another neuron via an axo-axonal synapse

Question 104

Acetylcholine (ACh)

Answer 104

1st neurotransmitter identified; best understood neurotransmitter because it is released at neuromuscular junctions (easier to study than synapses buried in the CNS)

Question 105

Acetylcholinesterase (AChE)

Answer 105

enzyme that releases ACh and degrades it to acetic acid and choline; located in the synaptic cleft and on postsynaptic membranes

Question 106

Biogenic amines

Answer 106

include the catecholamines (dopamine, norepinephrine, and epinephrine) and indolamines (serotonin, histamine)

Question 107

Catecholamines

Answer 107

dopamine, norepinephrine (NE), and epinephrine

Question 108

Indolamines

Answer 108

serotonin and histamine

Question 109

Amino acids (as neurotransmitters)

Answer 109

glutamate, aspartate, glycine, gamma-aminobutyric acid

Question 110

Neuropeptides

Answer 110

strings of amino acids; include a broad spectrum of molecules with diverse effects

Question 111

Substance P

Answer 111

neuropeptide; important mediator of pain signals

Question 112

Endorphins

Answer 112

include beta ____, dynorphin, and enkephalins; act as natural opiates, reducing our perception of pain under stressful conditions

Question 113

Gut-brain peptides

Answer 113

neuropeptides produced by nonneural body tissues; widespread in the gastrointestinal tract; examples: somatostatin and cholecystokinin

Question 114

Adenosine triphosphate (ATP)

Answer 114

cell’s universal form of energy; major neurotransmitter (perhaps the most primitive one) in both the CNS and the PNS

Question 115

Adenosine

Answer 115

part of ATP; acts outside of cells on adenosine receptors; potent inhibitor in the brain; caffeine’s well-known stimulatory effects result from blocking these receptors

Question 116

Nitric acid (NO)

Answer 116

activates guanylyl cyclase (enzyme that makes the 2nd messenger cyclic GMP; participates in a variety of processes in the brain, including the formation of new memories by increasing the strength of certain synapses; neurotransmitter binding to the postsynaptic receptors indirectly activates ___ ___ synthase, the enzyme that makes ___ ___; acts as a retrograde messenger that sends a signal to increase synaptic strength

Question 117

Carbon monoxide (CO)

Answer 117

activates guanylyl cyclase (enzyme that makes the 2nd messenger cyclic GMP; mode of action similar to NO

Question 118

Hydrogen sulfide (H2S)

Answer 118

most recently discovered gasotransmitter; appears to act directly on ion channels and other proteins to alter their function

Question 119

Endocannabinoids

Answer 119

natural neurotransmitters made by the brain; act at the same receptors as THC (active ingredient in marijuana); their receptors (cannabinoid receptors) are the most common G protein-linked receptors in the brain

Question 120

Neuromodulator

Answer 120

term used to describe a chemical messenger released by a neuron that does not directly cause EPSPs or IPSPs but instead affects the strength of synaptic transmission

Question 121

Channel-linked receptors

Answer 121

ionotropic receptors; ligand-gated ion channels that mediate direct neurotransmitter action; composed of several protein subunits in a rosette around a central pore; as the ligand binds to 1+ receptor subunits, the proteins change shape; this event opens the central channel and allows ions to pass; as a result the membrane potential of the target cell changes; always located precisely opposite sides of neurotransmitter release

Question 122

G protein-linked receptors

Answer 122

activity mediated by these is indirect, complex, slow, and often prolonged; receptors in this class are transmembrane protein complexes - include muscarinic ACh receptors and those that bind the biogenic amines and neuropeptides

Question 123

Second messengers

Answer 123

cyclic AMP, cyclic GMP, diaclglycerol, or Ca2; act as go-betweens to regulate (open/close) ion channels or activate kinase enzymes that initiate a cascade of enzymatic reactions in the target cells

Question 124

Neural integration

Answer 124

neuronal pools and their patterns of communicating with other parts of the nervous system

Question 125

Neuronal pools

Answer 125

functional groups of neurons that integrate incoming information received from receptors or different __ ___ and then forward the proceeded info to other destinations

Question 126

Circuits

Answer 126

patterns of synaptic connections in neuronal pools; determine the pool’s functional capabilities

Question 127

Serial processing

Answer 127

the whole system works in a predictable all-or-nothing manner

Question 128

Reflexes

Answer 128

rapid, automatic responses to stimuli, in which a particular stimulus always causes the same response

Question 129

Reflex arcs

Answer 129

reflexes occur over neural pathways called this that have 5 essential components - receptor, sensory neuron, CNS integration center, motor neuron, and effector

Question 130

Parallel processing

Answer 130

inputs are segregated into many pathways and different parts of the neural circuitry deal simultaneously with the information delivered by each pathway

Question 131

Neuroblasts

Answer 131

potential neurons

Question 132

Growth cone

Answer 132

the growing tip of an axon; a prickly fanlike structure that gives the axon the ability to interact with its environment