COGNITIVE SCIENCE 17 The Chemical Brain Part 1
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COGNITIVE SCIENCE 17 The Chemical Brain Part 1 Jaime A. Pineda, Ph.D.
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COGNITIVE SCIENCE 17 The Chemical Brain Part 1 Jaime A. Pineda, Ph.D. Neurotransmitters I. The Life Cycle of a Conventional NT. Biosynthesis & Storage Release Receptor Action Inactivation. Transmitter. Enzyme(s). Biosynthesis. Precursor(s). Storage. - PowerPoint PPT Presentation
Transcript of COGNITIVE SCIENCE 17 The Chemical Brain Part 1
COGNITIVE SCIENCE 17
The Chemical Brain
Part 1
Jaime A. Pineda, Ph.D.
Neurotransmitters I
The Life Cycle of a Conventional NT
• Biosynthesis & Storage
• Release
• Receptor Action
• Inactivation
Biosynthesis
Precursor(s) Transmitter
Enzyme(s)
Storage
• Synaptic vesicles made by Golgi apparatus in cell body
• Precursors, enzymes, and vesicles are transported from cell body down axon to terminal
• At terminal, NTs are synthesized and packaged into vesicles
• Filled vesicles dock onto proteins in terminal
Release
• Action potential opens channels for Ca++ to enter terminal membrane
• Vesicles to undock and move to membrane
• Vesicles fuse with membrane and empty transmitter into synapse (exocytosis)
Receptor Action
• Ionotropic– Opens ion channel in receptor itself– Ions produce either excitation or inhibition– Fast action
• Metabotropic– Sets off cascade of chemical events– Can lead to ion channel opening on another protein– Can lead to other, long-term changes– Slower action
Inactivation
Breakdown Products
Transmitter
Enzy
me(
s)
• Destruction • Reuptake
More on Receptors
• Gating– Ligand (activated by NT or drug)– Voltage (activated by depolarization)
• Location– Postsynaptic– Presynaptic
• Autoreceptor• Heteroreceptor
PresynapticAutoreceptor=
PresynapticHeteroreceptors
Some Receptor and Other Changes
• Receptor number (up/down-regulation)
• Receptor affinity (low/high)
• Reuptake transporter number/affinity
• Enzyme levels
• Transmitter synthesis
• Axon growth
• Dendrite growth
• Etcetera
Hierarchy of NTs of Interest
Amino AcidsGlutamate (Glu)GABA
Biogenic AminesQuaternary Amines
Acetylcholine (Ach)Monoamines
CatecholaminesDopamine (DA)Norepinephrine (NE)
IndolaminesSerotonin (5-HT)
NeuropeptidesOpioid Peptides
EnkephalinsEndorphinsDynorphins
(Others: lipids, nucleosides, soluble gases)
Amino Acid NTs
• High concentration in brain (micromolar)• Small vesicles• Point-to-point communication• Mostly cortex-to-cortex• Sensory-motor functions• Consistently excitatory or inhibitory• Mainly ionotropic receptors• Fast acting, short duration (1-5 ms)• Examples: Glutamate, Aspartate, GABA, Glycine
Biogenic Amines
• Medium concentration in brain (nanomolar)• Small vesicles• Single-source divergent projections• Mainly midbrain to cortex• Modulatory functions• Excitatory or inhibitory by receptor• More metabotropic receptors than ionotropic, but plenty of
both• Slow acting, long duration (10-1000 ms)• Examples: Acetylcholine, Epinephrine, Norepinephrine,
Dopamine, Serotonin
Neuropeptides
• Low concentration in brain (picomolar)• Large vesicles• Packaged in vesicles before transport to terminal• Co-localized with other transmitters• Interneuronal• Modulatory functions• Mostly inhibitory• Virtually all metabotropic• Slow acting, long duration (10-1000 ms)• Examples: Enkephalins, Endorphins, Oxytocin,
Vasopressin
Modulatory Functions
• State-dependent effects
• Regulate influence of extrinsic vs. intrinsic activity
• Synchronization of areas/functions
• Motivational/emotional recruitment of mental resources
