voltage-gated ion channels in health and disease jdk3 principles of neural science, chapter 9
TRANSCRIPT
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Voltage-Gated Ion Channels inHealth and Disease
jdk3
Principles of Neural Science, chapter 9
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Voltage-Gated Ion Channels inHealth and Disease
I. Multiple functions of voltage-gated ion channels
II. Neurological diseases involving voltage-gated ion channels
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Squid Giant Axon According to Hodgkin & Huxley
But....
Only Two Types of Voltage-Gated Ion Channels are Required to Generate the Action Potential
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Mammalian Neurons Have Several Types of Voltage-Gated Ion Channels
Why do neurons need so many types of voltage-gated ion channels?
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I. Ca++ as a Second Messenger
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[Ca++]i Can Act as a Regulator of VariousBiochemical Processes
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e.g., modulation of enzyme activity, gene expression, and channel gating; initiation of transmitter release
[Ca++]i
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II. Fine Control of Membrane Excitability
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Early Computers Were Made of Thousands ofIdentical Electronic Components
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ENIAC’s Computational Power Relied on the Specificity of Connections Between Different Identical Elements
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Electronic Devices Are Made of a Variety of Specialized Elements With Specialized Functional Properties
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Each Class of Neuron Expresses a Subset of the Many Different Types ofVoltage-Gated Ion Channels, Resulting in a Unique Set of
Excitability Properties
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Each Class of Voltage-Gated Ion ChannelHas a Unique Distribution Within the
Nervous System
e.g., consider a single gene that encodesvoltage-gated K+ channels
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Variation of Alternative Splicing of pre-mRNA From One Gene Results in Regional Variation in Expression of Four
Different Isoforms of a Voltage-Gated K+ Channel
PNS Fig 6-14
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HVA Channels Affect Spike-ShapeLVA Channels Affect Spike-Encoding
Time
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Neurons Differ in Their Responsiveness to Excitatory Input
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Thalamocortical Relay NeuronsBurst Spontaneously
HCN currentT-type Ca++ current
PNS, Fig 9-11
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Synaptic Input Can Modulate a Neuron’sExcitability Properties by Modulating
Voltage-Gated Ion Channels
RestingFollowing
Synaptic Stimulation
PNS, Fig 13-11C
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Neurons Vary as Much in Their Excitability Properties as in Their Shapes
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Ion Channel Distributions Differ Not Only Between Neurons, but also
Between Different Regions of an Individual Neuron
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Input
Integrative
Conductile
Output
Each Functional Zone of the Neuron Has a Special Complement of Voltage-Gated Ion Channels
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Dendrites Are NOT Just Passive CablesMany Have Voltage-Gated Channels That Can Modulate
the Spread of Synaptic Potentials
PNS, Fig 8-5
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Distribution of Four Types of Dendritic Currents inThree Different Types of CNS Neurons
(S = soma location)
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Voltage-Gated Ion Channels inHealth and Disease
I. Multiple functions of voltage-gated ion channels
II. Neurological diseases involving voltage-gated ion channels
![Page 24: Voltage-Gated Ion Channels in Health and Disease jdk3 Principles of Neural Science, chapter 9](https://reader036.vdocument.in/reader036/viewer/2022062305/5697bfa11a28abf838c95ac7/html5/thumbnails/24.jpg)
How Voltage-Gated Ion ChannelsGo Bad
Mutations Autoimmune diseases Defects in transcription Mislocation within the cell
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Various Neurological Diseases Are Caused by Malfunctioning Voltage-Gated Ion Channels
Acquired neuromyotonia Andersen’s syndrome Becker’s myotonia Episodic ataxia with
myokymia Familial hemiplegic migraine Generalized epilepsy with
febrile seizures
Hyperkalemic periodic paralysis Malignant hyperthermia Myasthenic syndrome Paramyotonia congenita Spinocerebellar ataxia Thompson’s myotonia
Na+, K+, Ca++, Cl-
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Phenotypic Variability
Mutations in the Same GeneLead to Different Symptoms
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Different Point Mutations in the Same -Subunit Lead to Three Different Classes of Symptoms
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Genetic Variability
Mutations in Different GenesLead to Similar Symptoms
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Mutations in Either or -SubunitsCan Lead to Similar Symptoms
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Myotonic Muscle is Hyperexcitable
Vm Vm
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Mutations in Voltage-Gated Cl- Channels in Skeletal Muscle Can Result in Myotonia
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Mutations in Voltage-Gated Na+ Channels in Skeletal Muscle Can Also Result in Myotonia
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Mutations Often Affect Gating Functions
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Many of These Point Mutations AffectKinetics orVoltage-Range of Inactivation
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Increasing Degree of Persistent Inactivation Can Move the Muscle Fiber from Hyperexcitable to Inexcitable
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Voltage-Gated Na+ Channels in Skeletal Muscle Can Have Point Mutations That Lead to:
Potassium Aggravated MyotoniaParamyotonia Congenita Hyperkalemic Periodic Paralysis
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e.g., Voltage-Gated Na+ Channels Found in the CNS And Those Found in Skeletal Muscle
Are Encoded by Different Genes
Regional Differences in Gene ExpressionAccount for Much of the Specificity of
Ion Channel Diseases
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Mutations in Na+ Channels in the CNSGive Rise to Epilepsy - Not to Myotonia
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Understanding Ion Channel Subunit Structure Helps to Explain Aspects of
Heritability of Disease
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•Pharmacological block of 50% of Cl- channels produces no symptoms.
•Heterozygotes with 50% normal Cl- channel gene product are symptomatic (autosomal dominant myotonia congenita).
Paradox
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Because Cl- Channels are Dimers, Only 25 % of Heterozygotic Channels are Normal
Mutant
Wild Type
Genes Channels
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