1. Neurocytology

Question 1

General Organization of the Nervous System
Anatomically:
• Central – CNS:
– \_\_\_\_.
– Spinal cord.
– Neural parts of the \_\_\_\_.

• Peripheral – PNS:
– ____ nerves.
– ____.
– ____.

Answer 1

brain
eye
peripheral nerves
ganglia
nerve endings

Question 2

Function of Nervous System
• Peripheral – PNS
– Receive information: sensory - \_\_\_\_.
– Transmit response to effector organ:
motor – \_\_\_\_.

• Central – CNS
– Integration
– Analysis
– Response

Answer 2

afferent

efferent

Question 3

General Organization of the Nervous System
Cell components
• CNS:
- Neurons
- Glia
--- \_\_\_\_
--- Oligodendrocytes
--- \_\_\_\_

• PNS:
– Neurons
– ____ Cells.
– ____ Cells.

• Only common cell type: ____

Answer 3

astrocytes
microglia
satellite
schwann
neurons

Question 4

Cell types: Neuron

• Highly specialized, excitable. 
• Structure:
– \_\_\_\_:
• Nucleus and most organelles.
– Dendrites:
• Tree-like processes: dendritic
tree. 
– Axon:
• \_\_\_\_ process.
• Originates at the \_\_\_\_.
• Ends in the \_\_\_\_.
• Telodendron endings: \_\_\_\_.

• In response to NT, cell responds by changing the cxn of ions, resulting in a change of currents 
◦ Can respond in a specific way
• \_\_\_\_ terminals of telodendron 
◦ Synaptic terminals
• 3 divisions are related to the three regions: 
◦ Dendrites/soma = \_\_\_\_ region
◦ Axon = \_\_\_\_ region
‣ Transmits the AP
◦ Synaptic terminal = \_\_\_\_ region
‣ Releases a NT

Answer 4

soma
single
axon hillock
telodendron
synaptic terminals

cytoplasmic
receptor
conductive
effector

Question 5

The Neuron: Soma

• Soma:
– Nucleus (with prominent
____) + cytoplasm (a.k.a. ____ [“around the nucleus”]).
– Abundant ribosomes: often associated with the ER → ____ or ____ substance.
– Prominent Golgi apparatus.
– Abundant mitochondria.

• \_\_\_\_ active neurons
• Soma contains all components of secretory
pathways
• ER is easily stainable and visible
  ◦ \_\_\_\_ stain in many neurons

Answer 5

nucleolus
perikaryon
Nissl bodies
Nissl's substance
metabolically
granulated

Question 6

The Neuron: Dendrites

• Dendrites:
– \_\_\_\_ (“tree-like”).
– Primary receiving site for synaptic
information.
– Surface may show dendritic spines: increase \_\_\_\_.

Answer 6

arborescent

surface area

Question 7

The Neuron: Axon

• Axon:
– Starts at the \_\_\_\_.
– Initial segment: proximal region of the
axon where \_\_\_\_ start.
– Diameter usually remains \_\_\_\_.
– May be myelinated: myelin sheath from
initial segment to telodendron.
– May have \_\_\_\_ branches.

• Axon hillock = area where AP begins
◦ Cxn of \_\_\_\_ is different here
from the rest of the axon
• Aren't always myelinated
• Only the \_\_\_\_ are myelinated (not soma or dendrites)

Answer 7

axon hillock
AP
constant
collateral

ion channels
axons

Question 8

Types of Neurons
• Based on the number of ____ emerging from the soma:

– ____ neurons:
• Two processes.

– ____ neurons:
• One short process that divides into two branches.

– ____ neurons:
• Many processes.
• Single axon.
• More than one dendrite.

Answer 8

processes
bipolar
pseudounipolar
multipolar

Question 9

Types of Neurons

• Bipolar neuron:
• Two processes.
• \_\_\_\_ axon emerges from either side of the soma.
•Common in \_\_\_\_ structures: 
– \_\_\_\_
– Olfactory epithelium
– \_\_\_\_ and \_\_\_\_systems

• Either side is similar \_\_\_\_
• Place where input and output is produced
is not \_\_\_\_
◦ Bottom: effector; but upper process
would then be the sensory part

Answer 9

single
sensory
retina
vestibular
auditory
visually
equivalent

Question 10

Types of Neurons

• Pseudounipolar neuron:
• Single axon divides a ____ distance from the
soma.
• Axon branches:
– ____: information from the periphery.
– ____: ends in the spinal cord or brainstem.
• ____ of cranial and spinal nerves.

• Good at transmitting information ____
• One branch: transmits information from ____; would induce a response in the other end of branch which would reside in ____
• Transmits information without any form of ____

Answer 10

short
peripheral
central
sensory ganglia
quickly
PNS
CNS
integration

Question 11

Types of Neurons

• Multipolar neurons:
– Many ____.
– ____ axon.

– Examples:
• ____ cell of the cerebral cortex.
• ____ cell of the cerebellar cortex.

Answer 11

dendrites
single
pyramidal
purkinje

Question 12

Synaptic Terminals and Synapses

• Synapse:
– Junction between the ____ terminal
of an axon and the ____ membrane receptor surface (a dendrite or a muscle cell).

• Synaptic terminal:
– Specialized neuronal structure for the
transmission of a ____ (neurotransmitter) in response to an action
potential.

• Postsynaptic membrane does not have to belong to another ____

Answer 12

presynaptic
postsynaptic
chemical message
neuron

Question 13

Classification of Synapses

• Based on their location on the  \_\_\_\_ neuron:
–  \_\_\_\_ synapse:
• Axon terminal ending on the soma of a
neuron.
–  \_\_\_\_ synapse:
• Axon terminal ending on another axon terminal.
–  \_\_\_\_ synapse:
• Axon terminal ending on a dendrite.
–  \_\_\_\_ synapse:
• Axon terminal facing a dendritic spine

• Axoaxonic are common
◦ Postsynaptic controlled in activity by controlling the releaser of NT
◦ Typical of neurons that are ____ on the PSN
• Axodendritic are the most ____ contact

Answer 13

postsynaptic
axosomatic
axoaxonic
axodendritic
axospinous

inhibitory
“traditional”

Question 14

Designation of groups of neurons and axons

 PNS:
– \_\_\_\_: Cluster of neurons. 
• Sensory
• Motor
– Nerves, rami (sing. ramus), or roots: Axons derived from a ganglion.

• CNS:
– ____: Aggregate of functionally and structurally related neurons.
– ____: Clusters of neurons arranged in a layer.
– ____ (cerebral cortex): Clusters of neurons arranged in longitudinal groups.
– ____, fasciculus, or ____: Bundles of axons.
– ____: darker tissue of the brain and spinal cord, consisting mainly of nerve cell bodies and
branching dendrites.
– ____: lighter tissue of the brain and spinal cord, made of axons connecting different parts
of grey matter to each other.

Answer 14

ganglia
nucleus
stratum
lamina
tract
lemniscus
gray matter
white matter

Question 15

Support Cells

PNS
• ____ cells
• ____ cells (ganglion glia)

CNS (Glial Cells)
• Oligodendrocytes
– \_\_\_\_ - gray matter
– \_\_\_\_ - white matter
• Astrocytes
– \_\_\_\_ - white matter
– \_\_\_\_- grey matter
• Microglia – macrophages

Answer 15

schwann
satellite

perineuronal
interfascicular

fibrous
protoplasmic

Question 16

Schwann Cells and Myelination

• Derive from the \_\_\_\_.
• Cover most of the surface of all axons in
\_\_\_\_ nerves.
• Envelop axons in a sheath of myelin:
facilitates transmission of action potentials.
• One axon: myelin sheaths from \_\_\_\_
Schwann cells
• \_\_\_\_:
– Segments of axons covered with myelin.
• Nodes of Ranvier:
– Gaps without \_\_\_\_ between internodes
– Function: nerve signal boost; \_\_\_\_.

• Similar embryological origin to ____ (derive from neural crest)
• Some of the axon will be covered by the ____ itself, and the myelin sheath
• Need many Schwann cells to cover an axon in myelin

Answer 16

neural crest
peripheral
multiple
internodes
myelin
saltatory conduction

neural crest
schwann cell

Question 17

Development of the Myelin Sheath

• During ____, the axon is close to a schwann cell
• After Schwann cell precursor attaches, it begins to ____ around

Answer 17

development

wrap

Question 18

Development of the Myelin Sheath

____ movement
• Wrapping creates consecutive ____
◦ Embed ____ of Schwann cell

Answer 18

clockwise
layers
cytoplasm

Question 19

Development of the Myelin Sheath

• Closer to axon - the more ____
• Outside layer, the ____ still present

Answer 19

compacted

cytoplasm

Question 20

Development of the Myelin Sheath

• Formation of ____: most of ____ of Schwann cell is removed, and deposition of specific ____ that form the sheath

Answer 20

spiral
cytoplasm
proteins

Question 21

Schwann Cells and Myelination

 • Bands that are more and less \_\_\_\_
Repetitive structure
◦ Cytoplasm bordered by \_\_\_\_
◦ Extracellular space bordered by outer
leaflet of \_\_\_\_
‣ \_\_\_\_
‣ Very small

Answer 21

electron dense
inner leaflets
PM
intraperiod line

Question 22

Development of the Myelin Sheath

Compact myelin is formed by the ____-mediated apposition of the external leaflets of the bilayer membrane (forming the ‘____’), which will further facilitate ____-mediated apposition of the internal leaflets and the extrusion of the cytoplasm (forming the ‘____’).

• Two proteins that Schwann cells deposit:
• Green = PLP
◦ \_\_\_\_ leaflets
◦ Interact with \_\_\_\_ domain
• Red = MBP
◦ \_\_\_\_ leaflet
◦ Interact with \_\_\_\_
• \_\_\_\_ is important for transmission of AP
in neurons

Answer 22

proteolipid protein (PLP)
double intraperiod line
myelin basic protein (MBP)
major dense line

outer
EC
inner
cytoplasm
structure

Question 23

Schwann Cells and Myelination

• Myelin sheath is electron dense due to ____

Answer 23

layering

Question 24

Organization of the Peripheral Nerves

Nerve \_\_\_\_: structural component
of peripheral nerves.
– Axon.
– +/- Schwann cells → +/- Myelin
sheath.
– Surrounded by \_\_\_\_ (CT).

\_\_\_\_: group of nerve fibers.
– Surrounded by \_\_\_\_ (CT):
forms the \_\_\_\_ barrier.
– Fascicles contain \_\_\_\_ and
\_\_\_\_ nerve fibers. 

____: group of fascicles:
– Surrounded by ____ (CT).

In PNS, you will only find ____ of neurons; therefore all the nuclei are from the ____ cells
Capillaries are located outside of the ____

Answer 24

fiber
endoneurium

fascicles
perineurium
nerve-blood barrier
myelinated
unmyelinated

nerve
epineurium

axons
schwann
perineurium

Question 25

Organization of the Peripheral Nerves: Myelin and the Nodes of Ranvier

• Processes of myelin sheath are \_\_\_\_ at NR
• Sheaths are \_\_\_\_ at NR
• Surrounding whole structure, basal
domain, is the \_\_\_\_
◦ Produced by the \_\_\_\_ cell
• Bottom:
◦ Myelin is highly stained
◦ Single nerve contains fibers of many \_\_\_\_

Answer 25

interdigitated
thinner
basal lamina
schwann cell
diameters

Question 26

Peripheral nerves

• ____ acid
◦ ____
with high affinity for myelin

Answer 26

osmic

heavy metal

Question 27

Peripheral nerves (H&E)

• ____ is outside basal lamina, produced by fibroblasts

Answer 27

endoneurium

Question 28

Development of Myelinated and Unmyelinated Peripheral Nerves

1. ____ axons get surrounded by Schwann cells.
2. Axons enlarge, become sheathed by myelin: ____ nerve fiber.
3. Unmyelinated nerve fibers: axons remain ____ and embedded in recesses of the Schwann cell ____

• Both axons are present with Schwann cells
◦ If not, they would be too ____
• Axons that are ____ are usually the ones that are being myelinated (they grow in diameter)
◦ Depositing PLP and MBP
• Smaller ones are moved to periphery of schwann cells and
embedded in ____ of the PM of the schwann cell
◦ The ____ of the schwann cell protects both the axon and itself

Answer 28

embryonic
myelinated
small
membrane

fragile
larger
infoldings
BL

Question 29

Ganglia: Sensory Ganglia

• Sensory ganglia: e.g. \_\_\_\_ nerve and trunks of \_\_\_\_, facial, \_\_\_\_, and vagal cranial nerves.
• Surrounded by \_\_\_\_(CT).
• Clustered \_\_\_\_ neurons.
• \_\_\_\_ nerve fibers.
• Satellite cells:
– \_\_\_\_cell-like cells.
– Associated with the \_\_\_\_.

• Part of the ____ nerves, transmitting sensory information

Answer 29

posterior spinal
trigeminal
glossopharyngeal
epineurium
pseudounipolar
myelinated
schwann
basal lamina

afferent

Question 30

Sensory Ganglia

• Here, we see the ____ of neurons
◦ Nuclei of ____ are visible
• Whole ganglion is surrounded by ____

Answer 30

somas
neurons
epineurium

Question 31

Sensory Ganglia

• Soma of ____ neuron surrounded by ____ cells
Surrounding the complex of the neuron and satellite cells is the ____
◦ Separating one neuron from the next

Answer 31

pseudounipolar
satellite
BL

Question 32

Autonomic Ganglia

• Typical of ganglia in the autonomic (sympathetic and parasympathetic) system.
• Surrounded by ____.
• ____ arranged, small ____
neurons.
• Small ____ axons, mostly ____.
• Fewer ____ cells than spinal ganglia: no
____.

Answer 32

epineurium
randomly
multipolar
diameter
unmyelinated
satellite

Question 33

Autonomic Ganglia

• Not as well organized as ____ ganglia
• Some similarities
◦ Somas
◦ Whole thing is surrounded by ____

Answer 33

sensory

epineurium

Question 34

Autonomic Ganglia

• Less ____ in terms of population of neurons
• Soma of each neuron surrounded by ____
cells
◦ Organization is not as well defined as
____ ganglia
• Absence of ____ surrounding the entire structure
• ____ between connective tissue and satellite cells → not separated
neatly by basal lamina

Answer 34

dense
satellite
sensory
continuation

Question 35

Support Cells of CNS

LETS GO!

Answer 35

YAY

Question 36

CNS Support Cells: Oligodendrocyte (OD)

• A.k.a. Oligodendroglia.
• Axon myelination in the ____.
• Protruding cytoplasmic ____ wrap the axons
and produce myelin.
• Each OD provides a myelin sheath to ____ axons.
• Post-____.
• Loss of ODs:
– ____: loss of myelin in areas of brain and spinal cord, impairment of axonal conductance.

• No Schwann cells in CNS
◦ These only wrap around axon of single cell; OD
does ____
• Mechanism of myelination is different
• Post-mitotic - cannot ____ (important in degeneration)

Answer 36

CNS
"paddles"
several
mitotic
multiple sclerosis

multiple
divide

Question 37

CNS Support Cells: Oligodendrocyte Myelination in the CNS

• Myelinated CNS:
– Cell body of oligodendrocyte not in close ____ to the myelin sheath.
– Each oligodendrocyte provides a sheath for ____ axons.
– No ____ associated with the myelin.
– No ____ cytoplasmic processes.
– Nodes are contacted by cytoplasmic processes from ____.

Answer 37

proximity
several
BL
interdigitating
astrocytes

Question 38

CNS Support Cells: Astrocytes

• Branching cells with cytoplasmic processes:
– ____: exchange of nutrients, gases and metabolites with capillaries.
Support CNS.
Help maintain ____.
Two types:
– ____.
– ____.

Connect capillaries in CNS with ____ cells
Substances that have to be sent to neurons must be absorbed first by ____, then xported to the neuron

Answer 38

end-feet
BBB
protoplasmic
fibrous
neuronal
astrocyte

Question 39

CNS Support Cells: Astrocytes

Two types:
– Protoplasmic:
• \_\_\_\_ matter.
• processes \_\_\_\_ with
\_\_\_\_ branches.
– Fibrous:
• \_\_\_\_ matter.
• processes \_\_\_\_ with
\_\_\_\_ branches.

Grey matter - protoplasmic
◦ ____; rich in bodies of neurons
◦ Cell is in close proximity to ____

White matter - fibrous
◦ Mostly ____

Answer 39

grey
short
many

white
long
few

CNS
BV
axons

Question 40

The Blood-Brain Barrier

• CNS capillaries: \_\_\_\_ endothelium.
• Substances can reach the nervous tissue only by \_\_\_\_ through the endothelial cells.
• Main components:
– \_\_\_\_ endothelium with \_\_\_\_.
– \_\_\_\_.
– Perivascular astrocyte \_\_\_\_.

Answer 40

continuous
crossing
continuous
tight junctions
basal lamina
end-feet

Question 41

CNS Support Cells: Microglia

• Resident ____ of the CNS:
– Phagocytosis of injured and dead neurons.
• Main cells to respond to injury.
• Produce ____ for leukocytes:
crossing of the brain-blood barrier.
• Cell-cell interaction Microglia/Astrocytes:
modulation ____ responses.

• Control immune response of brain in response to inflammation
• ____ elongated cytoplasmic processes

Answer 41

macrophage
chemoattractants
immune

long

Question 42

Peripheral Nerve Regeneration I

• Intact motor neuron:
– Innervation of skeletal muscle:
\_\_\_\_.
– Myelin sheath. 
– \_\_\_\_. 
– \_\_\_\_.

Answer 42

NMJ
basal lamina
endoneurium

Question 43

Peripheral Nerve Regeneration II

1. Injury to the nerve fiber: Proliferation of ____ cells to bridge the gap.
2. Phagocytosis of myelin fragments by ____ cells and ____.
3. ____ and swelling of the soma; degeneration of the distal (____) and proximal (____) axon segments.

• Schwann cells can ____ upon stimulation (not post-mitotic)
◦ Reason why we can regenerate PNS nerves
• Chromatolysis
◦ Reorganization of ____; reorganizing the secretory pathway
‣ Cannot be ____ as well anymore
◦ Swelling of the neuronal ____
• Axon degenerates in both ____ (retrograde for part connected to soma; anterograde for the other end up to telodendrum)

Answer 43

schwann
schwann
macrophages
chromatolysis
anterograde
retrograde

divide
Nissl substance
stained
soma
directions

Question 44

Peripheral Nerve Regeneration III

4. Axon sprouts:
– One sprout grows \_\_\_\_ to
re-innervate the muscle.
– Remaining sprouts \_\_\_\_. 
– \_\_\_\_ cells guide the
growth of the regenerating axon.

• Cytoplasmic processes produced from the part still attached to ____
◦ Most will degenerate, but if one reaches the other end: uses preexisting ____ cell structure to regenerate the complete axon

Answer 44

distally
degenerate
schwann
soma
schwann

Question 45

Peripheral Nerve Regeneration IV

5. Regenerated axon reaches
the muscle (several
\_\_\_\_).
– Schwann cells produce myelin. 
– Internodal segments are
\_\_\_\_.
– Diameter of axon is ≈ \_\_\_\_ of
original: \_\_\_\_ conduction of nerve impulse

Answer 45

months
shorter
80%
slower

Question 46

CNS Nerve Regeneration: Is it possible?

– Regeneration process starts as in the ____:
- ____ cells remove debris by phagocytosis.

• Regeneration process than stops:
  • Absence of ____.
  • Absence of mitotically active ____ cells: oligodendrocytes (myelinating cells in the CNS) do not ____.

____ is needed to tell the sprouts where to go

Answer 46

PNS
microglial
endoneurium
schwann
proliferate
endoneurium