Lecture 4 Myelin and Autoimmune Conditions

Question 1

Myelin Sheath

Answer 1

Lipid material
* Covers and insulates nerve fibers
* Produced by
Oligodendroglia celss in CNS and Scwann cells in PNS
* Forms segments separated by nodes of Ranvier

Question 2

Myelin Sheath (cont.)
* Acts as

Answer 2

Acts as insulator of axon
* Facilitates speed of nerve conduction
* ___Saltatory Conduction_______________: propagation of signal through
depolarization at each node of Ranvier
* Myelin insulates signal so the charge at each node is
enough to depolarize the following segment/node to
propagate the signal toward the terminal boutons.

Question 3

Saltatory conduction

Answer 3

propagation of signal through
depolarization at each node of Ranvier

the rapid method by which nerve impulses move down a myelinated axon with excitation occurring only at nodes of Ranvier
from google

Question 4

Myelin and Autoimmune Disease
* Multiple sclerosis (MS)

Answer 4

Multiple sclerosis (MS)
* Autoimmune condition, onset 30–40 years, females two times as likely as males
* Antibodies attack CNS myelin  myelin degenerates but initially spares axon
* Glial proliferation and myelin debris contribute to plaque formulation in CNS
* Plaques may cause axon to degenerate  more severe, progressive disability
* Relapse-remit pattern (not with all patients), variable symptoms
* No cure, treatment with corticosteroids, anti-inflammatories, other
pharmaceuticals

Question 5

Myelin and Autoimmune Disease
Guillain-Barre syndrome (GBS)

Answer 5

Guillain-Barre syndrome (GBS)
* Peripheral myelin—demyelinating auto-immune condition—recoverable!
* Slows speed of nerve conduction
* Ascending deficits in sensorineural information

Question 6

Transmission of Information
* Neurotransmitters

Answer 6

Neurotransmitters
* Chemicals that transmit signals across the neurons
* Help to regulate brain mechanisms that control
* Cognition – Attention
* Language – Memory
* Speech – Personality
* Hearing – Motivation
* Mood – Physiological tuning of brain

Question 7

Neurons transmit nerve
impulses by

Answer 7

Neurons transmit nerve
impulses by synaptic
transmission
* Synapse
* Connection point that
permits a neuro to pass a
signal to another neuron
* The receptive ends of the
cell are chemically
activated and generate
electric impulses

Question 8

Acetylcholine

Answer 8

Primary neurotransmitter in PNS
* In PNS: controls voluntary movement of spinal and
cranial nerves
* Implications  Myasthenia gravis (deficient ACH at
neuromuscular junction)
* Also in CNS: forebrain and reticular formation
* Implications  Alzheimer’s disease (deficient
cholinergic projections in hippocampus and
orbitofrontal cortex—atrophy of neocortex—but
questionable cause)

Question 9

Dopamine

Answer 9

Dopamine
* Produced by substantia nigra cells in midbrain and
project ipsilaterally to basal ganglia structures
* Degeneration of substantia nigra reduces dopamine
production (associated with Parkinson disease)
* Projections to cortex involved in cognition
* Excessive dopamine in forebrain associated
with Schizophrenia
* Drug abuse and addiction-related
* Part of reward system

Question 10

Norepinephrine

Answer 10

Norepinephrine
* A primary neurotransmitter in PNS: fight or flight
* In CNS: in pons and medulla—paradoxical sleep, random
eye movement, attention

Question 11

Serotonin

Answer 11

Serotonin
* In CNS and PNS
* Levels vary with sleep/wake cycle—associated with
arousal, contributes to pain-control system; associated
with depression

Question 12

Glutamate

Answer 12

Glutamate
* Excitatory neurotransmitter in CNS and mediates fast
synaptic transmission

Question 13

GABA:

Answer 13

Major transmitter for CNS
* Inhibitory (a calming effect) – reduce stress, relieve
anxiety
* Implicated in Huntington’s disease/chorea
* Reduction of GABA produces abnormal movement

Question 14

Important neurotransmitters

Answer 14

Acetylcholine in both PNS and CNA
Dopamine in the Cns
GABA in the Cns
Norepinephrine in both PNS and CNS
Serotonin in the CNS and PNS
Glutamate in the CNS