Download Glutamate

Neurotransmitters
•Neuropeptides
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•Dopamine (DA)
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•Gamma-aminobutyric acid (GABA)
•Glutamate (GLU)
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•Oxytocin (Oxy)
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•Brain-derived Neurotrophic factor
•Hypothalamic Releasing Hormones
•GnRH
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•Lipids
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•Nitric Oxide (NO)
Glutamate
Synthesis
• Glutamine
• Glutaminase
• Glutamic Acid
• Glutamate
• Aspartic Acid
• Aspartate
Distribution of VGLUTs
Glutamate Synapse
Glutamate
Receptors
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AMPA receptors
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Kainate receptors
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GluK1-5
NMDA receptors
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GluA1-4
GluN1
GluN2A-C
GluN3A-B
Metabotropic receptors
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mGluR1-8
Iontotropic
Metabotropic
AMPA Receptor
All ionotropic glutamate receptor channels
conduct Na+ ions into the cell
NMDA
receptor
properties
Types of Memory
(iconic memory)
(7 bits for 30seconds)
Cellular Mechanism for Learning
Hebbian Synapse:
Frequent stimulation can change the efficacy of a synapse
Enrichment Protocol
Impoverished
Enriched
Quantifying Dendritic Arborization
Hippocampal Brain Slicing
Hippocampal Pathways
Long-Term Potentiation (LTP)
each triangle represents a single
action potential
Slope of
the EPSP
(one
characteristic
measure of an
action potential)
baseline response
potentiated response
Hippocampus has a three synaptic pathway
Stimulate one area (mossy fibers) and record the action potentials in another (CA1)
Stimulate multiple times to get a baseline response
Once a stable baseline is established give a brief high frequency stimulating pulse
Use the same stimulating pulse as in baseline but now see a potentiated response
This potentiated response can last hours, days, or even weeks (LTP)
Normal
Synaptic
Transmission
Glutamate Channels:
NMDA
Mg2+ block
no ion flow
AMPA
Na+ flows in
depolarizes cell
LTP
Induction
With repeated activation
the depolarization drives the
Mg2+ plug out of the NMDA
channels
Ca2+ then rushes in through
the NMDA channels
Ca2+ stimulates a retrograde
messenger to maintain LTP
Ca2+ also stimulates CREB to
activate plasticity genes
LTP-induced Neural Changes
Neurobiological Changes via Learning
Dendritic changes:
•Increased dendritic arborization
•Increased dendritic bulbs
Synaptic changes:
•More neurotransmitter release
•More sensitive postsynaptic area
•Larger presynaptic areas
•Larger postsynaptic areas
•Increased interneuron modulation
•More synapses formed
•Increased shifts in synaptic input
Physiological changes:
•Long-Term Potentiation
•Long-Term Depression
Learning Requires Protein Synthesis!
Anisomycin: (protein synthesis inhibitor) blocks long term memory
GABA
Synthesis
• Glutamate
• Glutamic Acid
Decarboxylase
(GAD)
• GABA
GABA Synapse
GABA
Receptors
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GABAA receptors
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GABAB receptors
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GABAC receptors
Iontotropic
Metabotropic
GABAA Receptor
GABAA
receptor
properties
Anxiety Disorders
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feelings of concern or worry
increased muscle tension
restlessness
impaired concentration
sleep disturbances
irritability
increased heart rate
Increased sweating
other signs of “fight-or-flight” response
ThreeComponent
Model of
Anxiety
• General Anxiety Disorder
(GAD)
• Panic Attacks
• Panic Disorder
• Phobias
• Social Anxiety Disorder
(SAD)
• Posttraumatic Stress Disorder
(PTSD)
• Obsessive Compulsive
Disorder (OCD)
Neurobiology of Anxiety
Neurobiology of Anxiety
Neurochemistry of Anxiety
• Corticotropin-releasing factor (CRF)
• Norepinephrine (NE)
• Serotonin (5-HT)
• Dopamine (DA)
• GABA
GABA and Anxiety
• Benzodiazepines (BDZ) and
barbiturates cause sedation
and reduced anxiety by
binding to modulatory sites
on the GABA receptor
complex
• BDZ binding sites are
widely distributed in the
brain.
• They are in high
concentration in the
amygdala and frontal lobe.
GABA and Anxiety
• Inverse agonists bind to BDZ
sites and produce actions
opposite of BDZ drugs—
increased anxiety, arousal, and
seizures.
• The β-carboline family
produces extreme anxiety and
panic. They are presumed to
uncouple the GABA receptors
from the Cl– channels so that
GABA is less effective.
GABA and Anxiety
• Animal studies have found
that natural differences in
anxiety levels are correlated
with the number of BDZ
binding sites in several
brain areas.
• PET scans of patients with
panic disorder show less
benzodiazepine binding in
the CNS, particularly in the
frontal lobe.
Drugs for Treating Anxiety
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Anxiolytics
Sedative–hypnotics
Benzodiazepines
Barbiturates
Antidepressants
Benzodiazepines
BDZ binding and antianxiety effect
Barbiturates
Antidepressants