Lecture 3 NS - Cells of the Nervous System

Question 1

What is a neuron and what is it supported by?

Answer 1

Basic structural and functional unit of the NS, information processing unit Supported by neuroglia, comprising several different cell types

Question 2

How is diversity in cellular structure of neurons achieved?

Answer 2

All neurons have similar structures - diversity is achieved by differences in number and shape of their processes and where they project to in the brain

Question 3

What is the structure of neurons?

Answer 3

Very large nucleus, prominent nucleolus, abundant RER, well developed GA, abundant mitochondria, highly organised cytoskeleton, highly organised metabolically active cell

Question 4

What are dendrites and what is their function?

Answer 4

Spread from cell body and branch frequently - function: major area of reception of incoming information, as they greatly increase SA of neuron

Question 5

What is the structure of dendrites?

Answer 5

Often covered in dendritic spines, which receive majority of synapses

Question 6

What are axons and their function?

Answer 6

Emerge at axon hillock, ONE per cell - conduct impulses away from cell body, may branch after leaving cell body and at target

Question 7

What is the structure of axons?

Answer 7

Prominent in microtubules and neurofilaments (intermediate filaments), can be myelinated/unmyelinated, cable properties, Nodes of Ranvier when exposed

Question 8

How do paranodes help with transmission of AP?

Answer 8

Keeps ion channels separate to allow AP to propagate

Question 9

What is the structure of axon terminals?

Answer 9

Either boutons or varicosities - axons often branch extensively close to target, forming synaptic terminals with target

Question 10

What is the structure of a synapse?

Answer 10

There are synaptic densities where the vesicles fuse and release NT, and synaptic vesicles which hold the NT are packaged in GA and shipped by fast anterograde transport, w/specialised mechanisms for association to the plasma membrane MANY MITOCHONDRIA - so sensitive to O2 deprivation

Question 11

How are the synapses organised?

Answer 11

Neurons receive multiple synaptic inputs, neurons use a diversity of chemical transmitters (excitatory and inhibitory), w/competing inputs integrating in the postsynaptic neuron (Neuronal integration)

Question 12

What are the 3 types of synapse and are they often excitatory or inhibitory?

Answer 12

Axo-dendritic (often excitatory) Axo-somatic (often inhibitory) Axo-axonic (often modulatory)

Question 13

What type of synapse is an axo-dendritic synapse?

Answer 13

Axon to dendritic spine

Question 14

What type of synapse is an axo-somatic synapse?

Answer 14

Axon to cell body

Question 15

What type of synapse is an axo-axonic synapse?

Answer 15

Axon to node of ranvier

Question 16

How is the neuronal cytoskeleton arranged?

Answer 16

Highly organised as axons can be really long - inc. microfilaments, intermediate filaments and microtubules

Question 17

What do neurofilaments do in the neuronal cytoskeleton?

Answer 17

They play a critical role in determining axon caliber

Question 18

How does fast axonal transport occur?

Answer 18

It’s the transport of membrane associated materials, where vesicles with associated motors are moved down the axon Different membrane structures targeted to different compartments Retrograde moving organelles are morphologically and biochemically distinct from anterograde vesicles

Question 19

What are the 4 different morphological subtypes of neurons?

Answer 19

Pseudounipolar, bipolar, golgi type I multipolar, Golgi type II multipolar

Question 20

What does pseudounipolar morphological subtype mean?

Answer 20

Sensory neurons that have 2 fused processes which are axonal in structure

Question 21

What does bipolar morphological subtype mean?

Answer 21

1 dendritic and one axonal process, such as retinal bipolar cells

Question 22

What does Golgi type I multipolar morphological subtype mean?

Answer 22

Highly branched dendritic trees, axons extending long distances

Question 23

What are some examples of Golgi type I multipolar neurons?

Answer 23

Pyramidal cells of the cerebral cortex, Purkinje cells of the cerebellum, anterior horn cells of the spinal cord, retinal ganglion cells

Question 24

What does Golgi type II multipolar morphological subtype mean?

Answer 24

Highly branched dendritic trees, short axons - axons terminate quite close to cell body of origin

Question 25

What is an example of a golgi type II multipolar cell?

Answer 25

Stellate cells of the cerebral cortex and cerebellum

Question 26

What are the 3 functional classifications of neurons?

Answer 26

Sensory, motor and interneuron

Question 27

What does an interneuron do?

Answer 27

Responsible for modification, coordination, integration, facilitation and inhibition of sensory input

Question 28

What are neuroglia and what do they do?

Answer 28

Support cells of the NS, collection of random cells and have many/varied functions. They are essential for correct functioning of neurons

Question 29

What are the cells that make up the neuroglia?

Answer 29

Astroglia, oligodendroglia, microglia, immature progenitors, ependymal cells, schwann cells, satellite glia

Question 30

What are astroglia?

Answer 30

Have multiprocessed star-like shape and they are the most numerous cell type. Have numerous intermediate filament bundles in cytoplasm of fibrous astroglia - Gap junctions suggest astroglia signalling

Question 31

What are 10 functions of astroglia?

Answer 31

Scaffold for neuronal migration and axonal growth during development. Formation of blood brain barrier. Transport of substances from blood to neurons. Segregation of neuronal processes. Removal of NT. Synthesis of neurotrophic factors. Neuronal-glial and glial neuronal signalling. K+ buffering. Glial scar formation.

Question 32

What are the functions of neurons?

Answer 32

Responsible for generation and conduction of electrical signals, communicate with one another via chemicals released at synapse

Question 33

What are the different types of axon terminals?

Answer 33

Question 34

How do astrocytes interact with blood vessels?

Answer 34

They form an ordered arrangement of astrocytes with minimal overlap, with each cell forming a specific territory that interfaces with microvasculature

Question 35

What are oligodendroglia?

Answer 35

Myelin forming cells of CNS - interfasicular/perineuronal oligodendroglia

Question 36

What is the structure of oligodendroglia?

Answer 36

Small spherical nuclei, few thin processes, prominent ER and golgi, metabolically highly active

Question 37

What are the functions of oligodendroglia?

Answer 37

Production and maintenance of the myelin sheath, of which each cell produces 1-40

Question 38

What is myelin?

Answer 38

A lipid rich insulating membrane of up to 50 lamellae

Question 39

What happens if oligodendroglia and myelin are lost?

Answer 39

Disastrous consequences -> diseases like MS and adrenoleucodystrophy

Question 40

Where are microglia derived from?

Answer 40

Bone marrow during early development

Question 41

What are microglia?

Answer 41

Resident macrophage popn of CNS

Question 42

What is the role of microglia?

Answer 42

Involved in immune surveillance, present Ag to invading immune cells, first cells to react to infection/damage, role in tissue modelling, synaptic stripping

Question 43

What do the microglia become activated to?

Answer 43

Question 44

What are schwann cells?

Answer 44

They are part of peripheral NS producing myelin -> but only one sheath

Question 45

What are the functions of schwann cells?

Answer 45

Surrounding unmyelinated axons, promote axon regeneration

Question 46

How do astrocytes remove neurotransmitters?

Answer 46

Astrocyte processes have active transport to transport it into the cell where the NT is broken down and recycled

Question 47

How do astrocytes remove K+ and why?

Answer 47

Remove K+ from synapse, into astrocyte processes to allow for diffusion of K+ away from the neuron

Question 48

What is the difference between interfasicular and perineuronal oligodendroglia?

Answer 48

Interfasicular are found in the white matter and are more common than the perineuronal which are found in the grey matter