Title: Lecture 6 amino acid NTs GABA Glutamate
1Lecture 6 amino acid NTsGABA
Glutamate
2Amino acid NTs
- GABA (gamma-aminobutyric acid) the principal
inhibitory NT, found throughout the brain and
spinal cord - glutamate (also called glutamic acid) the
principal excitatory NT, found throughout the
brain
3Glutamate
- the principal excitatory NT in the brain -
- used in about 20 of synaptic connections between
neurons - MSG monosodium glutamate
- some people experience mild neurological symptoms
(dizziness, numbness) after eating food
containing high levels of MSG
4Glutamate
- there are different sub-types of glutamate
receptor, but the most studied is the NMDA
(N-methyl-D-aspartate) receptor - - important role in learning memory responsible
for initiating long-term changes in the brain
associated with memory formation, - also implicated in drug addiction (especially
alcoholism), - and in schizophrenia
5- NMDA receptor antagonists inhibit excitatory
effects of glutamate - ketamine phencyclidine (PCP) -
- have sedative anaesthetic effects at high doses
- hallucinogenic dissociative effects at lower
doses - low dose effects replicate both positive and
negative symptoms of schizophrenia - alcohol also acts as an NDMA antagonist
6Ketamine PCP
- early studies with PCP showed it could produce an
extended psychotic breakdown in some individuals,
and this drug is no longer used in human research - ketamine is used in research with human subjects
although its acute effects are similar, they
are less intense and have a shorter duration
adverse reactions are rare and follow-up of
participants show no long-term effects (Perry et
al, 2007)
7Acute effects of ketamine
- feeling drunk- euphoria, dizziness, nausea
- disordered thought and speech
- memory impairment
- perceptual distortions and dissociation-objects
and surroundings seem unreal - delusional thinking - often of a paranoid nature
8Brief Psychiatric Rating Scale (BPRS)
1 Somatic concern NA 1 2 3 4 5 6 7 2 Anxiety
NA 1 2 3 4 5 6 7 3 Depression NA 1 2 3 4 5 6 7
4 Guilt NA 1 2 3 4 5 6 7 5 Hostility NA 1 2 3
4 5 6 7 6 Suspiciousness NA 1 2 3 4 5 6 7 7
Unusual thought content NA 1 2 3 4 5 6 7 8
Grandiosity NA 1 2 3 4 5 6 7 9 Hallucinations
NA 1 2 3 4 5 6 7 10 Disorientation NA 1 2 3 4 5 6
7 11 Conceptual disorganisation NA 1 2 3 4 5 6
7 12 Excitement NA 1 2 3 4 5 6 7 13 Motor
retardation NA 1 2 3 4 5 6 7 14 Blunted affect NA
1 2 3 4 5 6 7 15 Tension NA 1 2 3 4 5 6 7 16
Mannerisms and posturing NA 1 2 3 4 5 6 7 17
Uncooperativeness NA 1 2 3 4 5 6 7 18 Emotional
withdrawal NA 1 2 3 4 5 6 7
- Instructions
- Circle the number that best describes the
patients present condition. If a specific
symptom is not being assessed, circle NA. - 1 not present
- 2 very mild
- 3 mild
- 4 moderate
- 5 moderately severe
- 6 severe
- 7 extremely severe
9BPRS scores during double-blind
placebo-controlled intravenous ketamine infusion
(Newcomer et al, 1999)
10Ketamine memory
- studies consistently show impairment of episodic
memory following sub-anaesthetic doses of
ketamine, across a wide variety of tasks - recognition memory, recall of spoken prose,
recall of word lists, spatial learning, source
memory tasks
11GABA
- the principal inhibitory NT in the brain -
- used in about 40 of synaptic connections between
neurons - GABA receptors are complex -
- binding sites for different chemicals on the same
receptor
12(No Transcript)
13GABA agonists
- benzodiazepines, barbiturates alcohol all
enhance the inhibitory effects of GABA - these drugs all have anxiolytic, sedative
hypnotic effects - i.e. they reduce anxiety, produce physical
relaxation promote sleep
14GABA antagonists
- picrotoxin a poisonous plant alkaloid with
stimulant properties - flumazenil benzodiazepine antidote
- blocks benzodiazepine site binds but does not
activate - used to treat overdose, and to reverse the
sedative effects of benzodiazepines in
post-operative patients
15Anxiolytics
- anxiolytic drug used to reduce anxiety
- barbiturates are direct GABA receptor agonists
bind to and activate GABA receptors - benzodiazepines do not directly activate GABA
receptors they enhance the effects of
endogenous GABA, but GABA must also bind to
receptor for drug to have effect
16Barbiturates
- amobarbital, pentobarbital, secobarbital,
phenobarbital, etc. - first available in 1903 (Barbital)
- euphoric effects of these drugs mean they have
high potential for abuse, dependence addiction - increasing dose leads to increased central
nervous system depression - sedation ? sleep ? coma ? death
- pronounced respiratory depression (especially
when mixed with alcohol) means high risk of fatal
overdose
17Benzodiazepines
- first available in 1960 (Librium)
- have replaced barbiturates in treatment of
anxiety disorders and insomnia - - produce less respiratory depression
- have pronounced sedative effect, but less
euphoric - lower incidence of dependence (but may still
occur in 10-30 of long-term users)
18Benzodiazepines
- many different benzodiazepines (BDZs) are now
available - - diazepam (Valium), temazepam (Restoril),
lorazepam (Ativan, Temesta), alprazolam (Xanax),
midazolam (Dormicum), etc. - these differ in potency, primary effect
(anxiolytic, hypnotic, muscle relaxant), time to
produce effect, and duration of effect
19Benzodiazepines
- the most commonly prescribed psychotropic drugs
in the world - estimated 20-30 of adult population are
prescribed BDZ at some time - up to 5 of adult population on long-term (one
year or more) prescriptions - used in treatment of anxiety disorders, insomnia,
drug alcohol withdrawal - also used as pre-anaesthetics muscle-relaxants
in surgical operations
20Benzodiazepines
- side-effects
- drowsiness (e.g. following day when BDZ is used
for insomnia) - impaired motor co-ordination balance
- slowed reaction times
- impaired vigilance task performance
- impaired memory performance
21Benzodiazepines memory
- effects are found mainly for long-term episodic
memory short-term memory is less affected
semantic memory is generally intact (see Curran,
1999) - studies consistently show anterograde amnesia
i.e. memory impairment for information presented
after the drug has been administered - but not retrograde amnesia i.e. no impairment
for information learned before drug
administration - suggests impairment of encoding processes rather
than retrieval
22Measuring drug effects in on-the-road driving
(Verster et al 2005, Current Psychiatry Reviews
1, 215-225)
23Alprazolam (Xanax) driving - Verster et al
(2002)
- (A) Weaving (SDLP)
(B) Speed variability
24Alcohol
25- alcohol any drink containing ethanol (ethyl
alcohol) - produced by fermentation (conversion of sugar to
alcohol by yeast) - probably the oldest recreational drug -
archaeological evidence for beer wine since
about 10,000 years - acute subjective effects of alcohol are biphasic
- - low doses are mildly stimulating
- high doses have the opposite effect i.e. are
sedating or depressant
26Biphasic effect of alcohol
- BAL (U.S.) measured in grams of alcohol per 100ml
of blood - BAC measured in grams per litre, or mg per 100ml
(U.K.) - U.K. legal driving limit .08g/100ml (BAL)
0.8g/l 80mg/100ml
27Alcohol neurotransmitters
- alcohol is a pharmacologically messy drug
- acute effects on NT systems are wide-ranging and
complex - - increases inhibitory NT activity (GABA)
- decreases excitatory NT activity (glutamate)
- this causes knock-on effects on other NT systems
throughout the entire brain
28Alcohol abuse dependence
- chronic alcohol abuse leads to adaptations in
physiological processes that act in opposition to
drug effects in order to maintain homeostasis - sudden withdrawal of alcohol leads to rebound
effects, which are opposite to the effects of
drug - these are experienced as an unpleasant withdrawal
syndrome, which can only be alleviated by
reinstating alcohol use - so individual becomes dependent on alcohol for
normal functioning
29Opponent processes in alcohol abuse(see
Valenzuela, 1997)
30- acute withdrawal effects in long-term alcoholics
- anxiety, delirium, hallucinations potentially
fatal seizures - these reflect state of excessive neural
excitation - alcohol withdrawal symptoms are reduced by
administering benzodiazepines (to enhance
inhibitory GABA-ergic activity)
31Alcohol task performance
- although acute subjective responses to alcohol
are biphasic, effects on psychomotor performance
appear to be linear - i.e. even low-to-moderate doses (which may be
subjectively stimulating) can impair task
performance - impairment in psychomotor tasks (simple choice
reaction time, vigilance) is evident before
subject is drunk and at BAC levels that are
below the legal driving limit - impairment increases with increasing dose -
32Effects at different blood alcohol concentrations
(BAC in grams of alcohol per litre of blood)
33Alcohol task performance
- performance is most affected on more complex
tasks (see Kerr Hindmarch, 1998) - so a low dose that doesnt impair performance on
simple psychomotor tasks may still have a
negative effect on more complex tasks (e.g.
driving) - alcohol also produces anterograde amnesia in
memory tasks
34Effects of 0.8g/kg alcohol on Tower of London
task ITT log. initial thinking time, STT
log. subsequent thinking time (from Weissenborn
Duka 2003, Psychopharmacology 165, 306-312)
35Alcohol TOL task - Weissenborn Duka (2003)
- all differences are plt.05
- time to first move (ITT) is shorter in subjects
given alcohol - but subsequent thinking times (STT) are longer
- and fewer perfect solutions are achieved
- shorter ITT may reflect increased impulsivity
- mean BAC in alcohol group at time of testing was
lt 0.6 g/l - legal driving limit is 0.8 g/l
36Glutamate GABA - summary
- glutamate - the principal excitatory NT in the
brain - NMDA glutamate receptors have an important role
in learning memory, schizophrenia addiction - ketamine NMDA receptor antagonist that produces
acute dissociation schizophrenic-like symptoms - GABA - the principal inhibitory NT in the brain
- GABA agonists (benzodiazepines, barbiturates,
alcohol) have anxiolytic, sedative hypnotic
effects - benzodiazepines are the most widely prescribed
psychoactive drugs in the world used to treat
anxiety insomnia, side-effects include impaired
reaction time, attention memory - alcohol is both a GABA agonist a glutamate
antagonist - long-term alcohol abuse alters balance of
inhibitory/excitatory neurotransmission, which
can lead to alcohol dependence withdrawal
syndromes - acute subjective effects of alcohol are biphasic
(low doses feel stimulating, high doses
sedating), but even low doses can impair
cognitive performance especially on complex
tasks (problem solving, driving)
37Learning outcomes
- Be able to describe the acute effects of ketamine
intoxication, and how these are related to the
positive and negative symptoms of
schizophrenia. - Know the main conditions for which benzodiazepine
drugs are prescribed, and understand the
neuro-chemical basis of the therapeutic effects
and side-effects of these drugs. - Understand the psychopharmacological basis for
the acute effects of alcohol, and the mechanisms
underlying alcohol dependence and withdrawal
syndromes.
38Recommended reading
- GLUTAMATE KETAMINE
- JW Newcomer et al (1999) Ketamine-induced NMDA
receptor hypofunction as a model of memory
impairment and psychosis. Neuropsychopharmacology
20, 106-118 - EB Perry et al (2007) Psychiatric safety of
ketamine in psycho-pharmacology research.
Psychopharmacology 192, 253-260 - GABA ANXIOLYTICS
- HV Curran (1999) Effects of anxiolytics on
memory. Human Psychopharmacology 14, S72-S79 - JC Verster et al (2002) Effects of alprazolam on
driving ability, memory functioning and
psychomotor performance. Neuropsychopharmacology
27, 260-269
39- ALCOHOL
- JS Kerr I Hindmarch (1998) The effects of
alcohol alone or in combination with other drugs
on information processing, task performance and
subjective responses. Human Psychopharmacology
13, 1-9 - CF Valenzuela (1997) Alcohol and neurotransmitter
interactions. Alcohol Health Research World 21,
144-148