Chapter 5.2: Central Nervous System

Question 1

the CNS receives input about external and internal environments from the ___ neurons

Answer 1

afferent

Question 2

___ cells serve as connective tissue in the CNS.

Answer 2

glial

Question 3

T/F: glial cells are less branched than normal neurons

Answer 3

true

Question 4

Discuss glial cell concentration and brain size relationship

Answer 4

densities of glial cells positively correlate with brain size. increase brain size = increase glial density.

Question 5

2 ways glial cells modulate synaptic function

Answer 5

1) takes up and destroys neurotransmitters

2) invovled in memory and learning.

Question 6

generally, how do glial cells support the neurons metabolically?

Answer 6

the help maintain the composition of the specialized extracellular environments.

Question 7

4 Major types of glial cells

Answer 7

1) astrocytes
2) oligodendrocytes
3) ependymal cells
4) microglia

Question 8

most abundant type of glial cell

Answer 8

astrocyte

Question 9

which cell helps establish blood brain barrier?

Answer 9

astrocyte

Question 10

6 roles of astrocytes

Answer 10

1) act as main glue of CNS; maintain proper spatial relationships
2) help establish blood brain barrier
3) important for neural scar formation: help repair brain injuries
4) take up excess K+ from the brain ECF when there is HIGH ACTION POTENTIAL activity
5) enhances synapse formation and modifies synaptic transmission
6) neurotransmitter modulation.

Question 11

How do astrocytes communicate with other neurons?

Answer 11

through gap junctions.

Question 12

what is the role of astrocytes during fetal development

Answer 12

guides neurons to proper final destination during featal brain development.

Question 13

T/F: Astrocytes store glycogen

Answer 13

true

Question 14

how do astrocytes air in neurotrasmitter modulation?

Answer 14

helps takes up GABA and Glutamate.

Question 15

Why is it so important that excess ECF K+ is taken up by astrocytes when there is high action potential activity? What happens if there is a deficiency in astrocytes?

Answer 15

• there is excess K+ becuase the Na+/+ATPASE pump is out paced and cannot work fast enough to pump K+ back into the neuron/
• helps maintain proper ion concentration in brain ECF
• prevents cell from getting closer to threshold potential during periods of increase activity.
• astrocytes deficiency linked to epilepsy

Question 16

how do astrocytes create new synapses?

Answer 16

extensions from astrocytes wedge themselves between pre and post synaptic neurons and has the ability to retract extensions using actin filaments.

also can release a large protein that can trigger synapse formation when stimulated by Ca2+ influx into the cell.

Question 17

main functions of oligodendrocytes

Answer 17

an oligodendrocyte contains projections which wrap spirally around a section to form a MYELIN. only one oligodendrocyte per neuron.

Question 18

MS arises due to a deficiency of which type of glial cell?

Answer 18

oligodendrocytes.

Question 19

Where can you find ependymal cells? What do they do?

Answer 19

Ependymal cells line internal cavities of the vertebrate CNS and brain ventricles.

• forms cerebrospinal fluid
• propels CSF through ventricles using cilia
• acts as neural stem cells: forms both new neurons and glial cells.

Question 20

Microglia are formed by _____. What are they?

Answer 20

formed by MONOCYTES: type of white blood cell that exits the blood and set up residence as the frontline defense agents in various bodily tissue.

Question 21

Differences between inactive and active states of microglia

Answer 21

inactive state: microglia appear wispy with radiations of branches. They secrete NERVE GROWTH FACTOR: helps neurons and other glial cells survive and thrive

active state: branches retract and they become MOBILE. the move to affected area and remove foreign invaders or tissue debris by releasing destructive chemicals.

Question 22

Characteristics of ganglia

Answer 22

1) serves limited regions or segments
2) homogenous mixture of neurons and fibers
3) few interneurons
4) predominately MONOSYNAPTIC
5) all neurons and fivers in ganglia serve a similar function.

Question 23

4 Major features that protect vertebrate CNS

Answer 23

1) CNS is enclosed by bone structures
2) meninges
3) CSF
4) blood brain barrier.

Question 24

the brain is enclosed by the ___, the ___ __ surrounds the spinal cord

Answer 24

brain enclosed by cranium

vertebral column surrounds the spinal cord.

Question 25

two parts of the cranium

Answer 25

1) cranial vault: superior, lateral and posterior aspects of the skull
2) cranial base: inferior aspect of the skull

Question 26

3 parts of the meninges

Answer 26

1) dura mater: most outer layer, attached to the inner skull
2) arachnoid layer: middle later.
3) pia mater: delicate inner most tissue.

Question 27

which part of the meninges has the most blood vessels?

Answer 27

the pia mater

Question 28

How is the brain able to float in the CSF?

Answer 28

CSF actually has the same density as the brain

Question 29

ionic makeup of CSF.

Answer 29

lower in K+ and higher in Na+ compared to blood. allows for gradient movement.

Question 30

T/F: there is plasma in CSF

Answer 30

false

Question 31

What makes CSF? What js this region made of?

Answer 31

CSF made by transport mechanisms across the membranes of the choroid plexus of the ventricular regions

the choroid plexus itself is made up of vascularized PIA MATER, which was formed by EPENDYMAL CELLS.

Question 32

Anatomical features of the BBB

Answer 32

SINGLE LAYER of ENDOTHELIAL cells forms capillary walls and joined by TIGHT JUNCTIONS that seal the capillary walls so nothing can be exchanged.

Question 33

Transport across brain capillary walls between endothelial cells is prevented ____, and transport through cells is restricted _____.

Answer 33

Transport across brain capillary walls between endothelial cells is prevented ANATOMICALLY (tight junctions), and transport through cells is restricted PHYSIOLOGICALLY (only possible way to passively exchange something is through the capillary bed itself.

Question 34

What is neuroglobin

Answer 34

a protein (like Hb) that binds O2 and aids with diffusion and storage of O2 in neurons

Question 35

Why is hypoxia detrimental? outline the process of neuronal death

Answer 35

O2 depletion prevents respiration and the formation of ATP. No ATP = no pumping of neurotransmitters or maintenance of gradients.

• if the gradients are not maintained, the neurons will DEPOLARIZE and release excessive levels of excitotoxic NTs such as glutamate.
• overstimulation of glutamate receptors increases Ca2+ levels and triggers internal cascades that result in cell damage and death.

Question 36

Themes in Hypoxic Brains

Answer 36

1) key mechanism is to enter a hypo-metabolic state

2) Functional nature of specialization:
a) improved O2 delivery or using O2 buffers like NEUROGLOBIN to reduce hypoxic effects
b) reduction of energy consumption
c) alterations of cellular metabolism in glia and neurons
d) protection against excitotoxic damage
e) protection against anoxic stress induced necrosis and apoptosis
f) prevention of oxidative stress during re-oxygenation
g) promotion of restorative processes

Question 37

MEMORIZE ONE HYPOXIC ANIMAL CHARACTERISTIC

Answer 37

Turtles that spend winter under the ice

1) they enter a state of deep reversible HYPOMETABOLSIM using ANAEROBIC GLYCOLYSIS
2) increased neural inhibiton: GABA interneuron activation depresses glutaminergic neurons.
3) Increases in neural protection such as antioxidant production, heat shock proteins and antiapoptotic factors
4) Ca2+ IN SHELL CAN BE USED TO BUFFER BLOOD AGAINST pH CHANGES FROM ANAEROBIC METABOLISM

Question 38

Primary regions of the brain with plastic features retained in adulthood

Answer 38

1) hippocampus. Agranular surrounding tissue are sites of cell proliferation
2) subventricular zone. site of neurogenesis that is associated with the lateral ventricles
3) Hypothalamus: grows in response to environmental signals
4) spinal cord. Capable of neurogenesis and can repair itself to an extent after injury

Question 39

3 distint areas of the brain. How were they formed relative to each other?

Answer 39

1) hindbrain
2) midbrain
3) forebrain

newer and more sophisticated regions are piled on top of older and more primitive regions.

Question 40

2 hypotheses to explain brain size in primates

Answer 40

1) expensive tissue hypothesis: neural tissue is energetically costly. The costs need to be offset; big brained primates must eat higher quality food
2) maternal investment hypothesis: ultimate brain size depends on the allocation of maternal resources to fetal and post natal development.

Question 41

Main function of brain stem

Answer 41

coordinates reflex responses to sight and sound. Plays role in sleep wake cycle and receives and integrates all synaptic input from the spinal cord.

Question 42

which brain region to cranial nerves stem from

Answer 42

the brain stem

Question 43

2 regions of the forebrain

Answer 43

1) diencephalon: includes thalamus and hypothalamus

2) cerebrum: includes cerebral cortex and basal nuclei

Question 44

the spinal cord extends from the __ ___ and is enclosed by the protective ___ ___ that extends through the ___ ___

Answer 44

the spinal cord extends from the BRAIN STEM and is enclosed by the protective VERTEBRAL COLUMN that extends through the VERTEBRAL CANAL

Question 45

We have 31 paired human nerves. How are they allocated?

Answer 45

8 cranial nerves
12 thoracic nerves
5 lumbar nerves
5 sacral nerves
1 coccygeal nerve (cauda equina)

Question 46

white matter of spinal cord is organized into ____

Answer 46

tracts

Question 47

white matter tracts relay messages from ___ to ____

Answer 47

from brain to efferent neurons

Question 48

each horn of grey matter houses a different ___ ___ ___

Answer 48

neuronal cell body

Question 49

3 primary grey matter horns

Answer 49

1) dorsal root
2) ventral horn
3) lateral horn

Question 50

what cell body does the dorsal horn house

Answer 50

the cell body of INTERNEURON on which afferent enruons terminate. Posteriorly positioned. Recall that the afferent neuron cell body is not actually in the CNS

Question 51

what cell body does the ventral root horn house

Answer 51

the efferent cell body, outgoing signals. Anteriorly positioned.

Question 52

what cell body does the lateral horn house

Answer 52

autonomic nerve fibers supplying cardiac and smooth muscle.

Question 53

___ matter is made of tightly packed cell bodies, dendrites and glial cells that are divided into dorsal, ventral and lateral horns

Answer 53

GREY MATTER

Question 54

____ matter is bundled into tracts of myelinated nerve fibers and are both ascending and decending

Answer 54

WHITE MATTER

Question 55

What is a dermatome? what’s its role in referred pain?

Answer 55

a specific region of the body surface supplied by a particular spinal nerve.

sometimes the same spinal nerve also branches off to internal organs, and sometimes pain originating from an organ might by referred to the dermatome (ex/ heart pain felt in arm)

Question 56

most spinal reflexes are ___ and ___ movement.

Answer 56

patterned and stereotyped movement. response is predictable because pathway between receptor and effector is always the same.

Question 57

___ ___ and ____ integrate basic reflexes

Answer 57

spinal cord and brainstem

Question 58

In the withdrawal reflex, when the afferent neuron gets stimulated and propagates the signal to the spinal cord, what are the 3 interneurons it diverges on?

Answer 58

1) the excitatory interneuron that stimulates the effent bicep motor neuron to withdraw the hand
2) the inhibitory interneuron that inhibits the antagonistic muscle of the bicep (the tricep) to facilitate movement in appropriate direction
3) interneurons that carry signal up the spinal cord to the brain via an ascending pathway.

Question 59

____ synaptic stretch reflexes utilize an interneuron between afferent and efferent neurons in the spinal cord

Answer 59

polysynaptic.

Question 60

reciprocal innervation:

Answer 60

a neuronal connection type involving stimulation of nerve supply to one muscle and simultaneous inhibition of the nerves to its antagonistic muscle.

Question 61

what is the crossed extensor reflex?

Answer 61

coupled with the withdrawal reflex, there are two additional interneurons that the afferent neuron innervates which allows the animal to put weight on the other limb while withdrawing the affected limb from the aversive stimulus

the two additional interneurons are involved in reciprocal innervation of the other leg to bear weight.

Question 62

What is a fixed action pattern?

Answer 62

instinctive behavrioal sequence that is generated in response to specific stimuli. Once activated, the complete sequence of movement is carried out.