Med Phys Pharm 551 L21 Neuropharm Glutamate PDF

Summary

This document contains lecture notes on Neuropharmacology – Glutamate, including learning objectives, Glutamatergic Neurotransmission, Glutamate Receptors, and Pathophysiology. The primary instructor is Julia Hum, PhD, and the lecture is part of a course at Marian University.

Full Transcript

Lecture #21:
Neuropharmacology –
Glutamate
Julia Hum, PhD
Primary Course Instructor
Course Meets: Monday/Wednesday/Friday: 2:00-2:50pm

Office Hours: Monday/Wednesday/Friday 11:00am-12:00pm (317B or WebEx)
 L21: Learning Objectives
1. Compare and contrast glutamate and GABA neurotransmission
2. How is glutamate ”recycled” and how do glutamate receptors signal?
3. Relate the pathological process of excitotoxicity and how it connects to
the to symptoms of neurodegenerative diseases
4. Connect the mechanism of action of pharmacological interventions for
neurodegenerative diseases to their underlying pathophysiology
5. Define neuroglia and describe their role in health and disease

Unless otherwise noted, figures in today’s lecture are from: Principles of Pharmacology 3e Baca, Golan (Ch. 12,14),
Lippincott Illustrated Reviews: Pharmacology 6e Yellepeddi (Ch. 8,10,12)
 Glutamatergic Neurotransmission
Glutamatergic synapses exist throughout the
CNS

Binding of glutamate to its receptors
initiates excitatory neuronal responses

Clinical applications of glutamate
ht tp:/ /clinicalgate.com/wp-conten t/u ploads/ 2015/06/ B9780443103216000072_f007-003-9780443103216.jpg

pharmacology are currently limited
Becoming an increasingly important area of
neuropharmacology

LO1
 Glutamate Receptors
Divided into ionotropic and metabotropic
subgroups

Ionotropic Glutamate Receptors
Mediate fast excitatory synaptic responses
Cation-selective channels
permit the flow of Na+, K+, Ca2+ ions across
plasma membranes

Three main subtypes classified by selective
agonists: AMPA, kainate, and NMDA (N-
LO2
methyl-D-aspartate)
 Glutamate Receptors - Ionotropic

NMDA receptors
Expressed primarily in the hippocampus,
cerebral cortex, and spinal cord

Activation requires simultaneous binding of
glutamate and glycine
opens a channel that allows K+ efflux as well as
Na+ and Ca2+ influx

LO2
 Glutamate Receptors - Ionotropic

NMDA receptors
When receptors occupied by glutamate
and glycine, Mg2+ ions blocks the channel
pore in the resting membrane

Depolarization of the membrane
concurrent with agonist binding is required
to relieve this voltage-dependent Mg2+
block

LO2
 Pathophysiology and Pharmacology of
Glutamatergic Neurotransmission
Increased release or decreased reuptake
of glutamate in pathologic states can lead
to a positive feedback cycle
Increased intracellular Ca2+ levels, cellular damage,
and further glutamate release

Process can lead to excitotoxicity -
neuronal death caused by excessive
cellular excitation from glutamate (or
other excitatory NTs)
Implicated mechanism in many diseases:
Rutin im prove s g lutam ate upta ke a nd i nhibits glutam ate e xcitotoxic ity in ra t bra in slic es - S cie nti fic Fi gure on Re se archG ate. Av aila ble
from : https://www.res ea rchga te. net/figure/Rutin -protects-the-brain -a ga inst-g luta ma te-exci totoxic ity-by-im provement-in-
GL AST _ fig 4_348758309 neurodegenerative syndromes (HD, PD,
ALS), stroke, and epilepsy
LO3,4
 Neuroglia – The Support Staff
Two major types of cells that
serve as building blocks of
the nervous system:
1. Neurons
2. Neuroglia

Neuroglia
Unexcitable cells that support
the neuronal function
Form and maintain myelin
Control local ion concentrations Junquiera’s Basic Histology, Mescher (2018)
Recycle neurotransmitters
Provide neurons with nutrients
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 Neuroglia – The Support Staff

LO5 Blau sen.com sta ff. "Blau sen ga llery 20 14". Wikiver sity Journ al o f Medicine. DOI:10.153 47/wjm/2014.010. ISSN 200 18762.
 Neuroglia – The Support Staff

Spatial Buffering

Blau sen.com sta ff. "Blau sen ga llery 20 14". Wikiver sity Journ al o f Medicine. DOI:10.153 47/wjm/2014.010. ISSN 200 18762.

LO5
 How does neuroglia assist with NT spillover?

LO2,5
 Pathophysiology and Pharmacology of
Glutamatergic Neurotransmission
Increased release or decreased reuptake
of glutamate in pathologic states can lead
to a positive feedback cycle
Increased intracellular Ca2+ levels, cellular damage,
and further glutamate release

Process can lead to excitotoxicity -
neuronal death caused by excessive
cellular excitation from glutamate (or
other excitatory NTs)
Implicated mechanism in many diseases:
Rutin im prove s g lutam ate upta ke a nd i nhibits glutam ate e xcitotoxic ity in ra t bra in slic es - S cie nti fic Fi gure on Re se archG ate. Av aila ble
from : https://www.res ea rchga te. net/figure/Rutin -protects-the-brain -a ga inst-g luta ma te-exci totoxic ity-by-im provement-in-
GL AST _ fig 4_348758309 neurodegenerative syndromes (HD, PD,
ALS), stroke, and epilepsy
LO3,5
 Neurodegenerative Diseases: ALS
Progressive neurodegenerative disease that
afflicts ~16,000 people in the United States

Average life expectancy is three to five years
after diagnosis
Only 10 percent of patients survive for more than
10 years

Death is usually due to respiratory failure

Few treatment options exist for these
patients
LO3
 Neurodegenerative Diseases: ALS
Motor neurons degenerate in the ventral
horn of the spinal cord, brainstem, and
motor cortex, resulting in weakness and
atrophy of skeletal muscles

The CNS areas affected in ALS express
diverse populations of AMPA and NMDA
receptors

https://amyotrophiclateralsclerosis.files.wordpress.com/2012/11/url3.gif?w=930
Patients with ALS have impaired
glutamate transporters in the spinal cord
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and motor cortex
 Neurodegenerative Diseases: ALS
Ri∙lu∙zole is a voltage-gated sodium channel
blocker

Appears that riluzole acts in part by reducing
Na+ conductance and thereby decreasing
glutamate release
May also directly antagonize NMDA receptors

http: //www.mdpi.c om/mole cule s/m ol ec ul es-20-07775/a rtic le _de ploy/html/im ag es /mole cule s-20-07775-g 002-1024.png
Delays the onset of ventilator-dependence or
tracheostomy in some people
May increase survival by two to three months
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 Neurodegenerative Diseases: Alzheimer’s Disease
Three distinguishing features:
1) accumulation of β-amyloid plaques
2) formation of numerous Tau
neurofibrillary tangles
3) loss of cortical neurons - particularly
cholinergic

Pharmacologic intervention is only
palliative and provides modest short-
term benefit
None of the available therapeutic agents
B rei jyeh Z, K aram an R. Comprehensive Review on Alzheim er’ s Disease: Causes and T reat ment. M olecul es. 2020; 25(24):5789. ht tps:/ /doi. org/ 10.3390/ molecules25245789
alter the underlying neurodegenerative
LO3,4 process – UNTIL 2021!
 Neurodegenerative Diseases: Alzheimer’s
Disease
Mem∙an∙tine
NMDA receptor antagonist
Indicated for moderate to
severe Alzheimer's disease

Clinical studies - slows the
rate of clinical deterioration
in patients
Can be given in combination
with an AChE inhibitor
LO3,4 http://slideplayer.com/slide/8015356/25/images/11/Memantine:+Mechanism+of+Action.jpg
 Neurodegenerative Diseases: Alzheimer’s Disease

Sevigny, J., Chiao, P., Bussière, T. et a l. The antibody aducanumab reduces Aβ plaques in Alzheimer’s

Aducanumab (Aduhelm) disease. Nature 537, 50–56 (2016). https ://doi.org/10.1038/nature19323

Antibody directed against aggregated soluble and insoluble forms of
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amyloid beta – approved Summer 2021 via FDA accelerated approval