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History of Psychopharmacology

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Title: History of Psychopharmacology


1
History of Psychopharmacology
  • In most cultures psychotropic plant drugs have
    played a role in religious practices, magic
    rituals and healing
  • In Europe best known opium, hashish and
    hellebore.
  • Opium is the solidified juice of the opium poppy,
    traces of poppy have been found in stone age lake
    dwellings in Italy Switzerland. In early 19th
    century isolated active morphine from opium, used
    in military as analgesic and anaesthetic
  • Hashish is the resin of hemp, widely consumed in
    islamic world but not used medicinally
  • Hellebore root plant of the Ranunculaceae. White
    hellebore used as emetic and back as laxative,
    demonstrated guiding principle that a mental
    illness has a physical cause that can be treated
    by removal of pathogenic substances.Used in
    mania, melancholy,mental retardation,epilepsy.Ment
    ioned in Aristophanes go drink hellebore
    youre crazy.

2
History of Psychopharmacology(2)
  • Start of scientific approach to mental health 6BC
    Greeks.Post mortem studies showing link between
    eyes,ears and brain, suggesting that brain seat
    of reason and the soul.
  • Humoral theory of Hippocrates most influential in
    history of Psychology and Psychiatry.
  • Middle ages not a high spot in history of
    Psychiatry, possession by the devil,
    demons,science could not develop further in that
    climate.

3
Hippocrates - Treatments
4
History of Psychopharmacology(3)
  • In the age of enlightenment psychiatry developed
    in different directions in the different European
    countries depending on local political and social
    circumstances. Essential features
  • a)Spatial segregation of the insane outside
    cities
  • b)Gradual rediscovery of the medical model
  • c)Attempts to return the insane to a normal life
    through work etc.

5
History of Psychopharmacology(4)
  • Earliest compendia Schneider (1824).
  • Early 19C considerable advances in England and
    France. Classification of illnesses . Esquirol
    (1838) used the term maladie mentale instead of
    alienation. Marked triumph of medical model
    over spiritualistic accounts.
  • German school underwent similar, Kraeplin
    (1899)created psychiatric classification still
    used today.
  • Modern psychopharmacology linked to discovery of
    chlorpromazine as an antipsychotic drug.Laborit
    safer anaesthetic, drug company Rhone-Poulenc in
    Paris looking for antihistamines,psychiatrists
    interested in biology ready to try drugs.
  • Delay Deniker(1952) read Laborits reports and
    asked company for samples. Beneficial effects.

6
Behavioural Pharmacology
  • Study of how drugs affect behaviour
  • Test novel compounds as potential new treatments
  • Ascertain mechanism of action of current
    treatments
  • Establish biological/toxicological effects of
    drugs of abuse/food

7
Drug A Drug B
  • Increased activity
  • Increased alertness
  • insomnia
  • tachycardia
  • diuresis
  • high doses seizures
  • Increased activity
  • increased alertness
  • increased respiration
  • insomnia
  • tachycardia

8
Drug C Drug D
  • Relaxation
  • elevation of mood
  • increased appetite
  • loss of inhibition
  • anxiolytic
  • fatal at high doses
  • Increased alertness
  • tachycardia
  • increases respiration rate
  • fatal at high doses

9
Hallucinogenic Drugs
  • PCP, LSD,Psilocybin,MDMA,Mescaline
  • Ability to markedly alter sensory perception,
    awareness, thoughts
  • With the exception of MDMA use is now low approx
    8 of population have tried at some time in their
    lives

10
Hallucinogenic Drugs
  • Consist of a number of different drugs with
    varying chemical structures and behavioural
    effects
  • Ability to alter sensory perception, awareness,
    thoughts
  • Other terms have been phantasticants,psychotomimet
    ic, Psychedelic

11
Nomenclature
  • Belong to several chemical classes
  • 1. Phenethylamines (mescaline)
  • 2. Indolealkylamines (psilocibin)
  • 3. Lysergamides (LSD)
  • Amphetamine derivatives (MDMA)
  • Also dissociative anaesthetics produce
    hallucinogenic effects but pure hallucinogens don
    not produce anaesthesia at high doses. (PCP,
    Ketamine).

12
LSD(D-Lysergic acid diethylamide) (1)
  • Synthetic drug related to a number of compounds
    found in ergot fungus
  • In 1940s Hofman discovered hallucinogenic
    properties
  • Produced a distortion of perceived reality,
    Visual and auditory illusions and synesthesias.

13
Chemical structure of hallucinogenic drugs
14
Drug Discrimination procedure 1)Repeated
pairings of drug with a specific lever (training
drug) 2)If give drug with similar pharmacological
mechanism of action will respond on drug lever as
if received training drug 3)If give training drug
and antagonist will respond as if received
placebo
Drug with known action (e.g. 5HT agonist) Left
lever gives food
Saline/placebo Right lever gives food
15
EFFECTS ON SEROTONIN RECEPTORS (2)
16
EFFECTS ON SEROTONIN RECEPTORS (1)
  • Affects serotonergic pathways in the brain
  • In the locus coeruleus (LC) and the cerebral
    cortex the actions of indoleamine and
    phenethylamine hallucinogens have been shown to
    be mediated via 5HT2 receptors
  • Mescaline is a partial agonist at 5HT2 (mainly
    5HT2A) receptors
  • 5HT2A receptor stimulation promotes glutamate
    release

17
Hallucinogenic drugs (2)
  • Most hallucinogens are derived from plant
    substances and similar to biogenic amines in
    structure
  • Often used in religious ceremonies and folk
    medicine
  • Stone statues of psychoactive mushrooms date from
    well before 500 BC

18
PCP Phencyclidine 1- phencyclo
  • Early studies showed anaesthetic effect but
    patients showed a catatonic like state
    (Dissociative anaesthetics)
  • Angel dust on street, produces signs of
    intoxication as shown by staggering gait, slurred
    speech catatonia at high doses

19
ORIGINS
  • Present in two cacti
  • San Pedro
  • Trichocereus pachanoi
  • Peyote
  • Lophophora williamsii

20
SAN PEDRO CACTUS
  • Mainly found in the Andes
  • Used in Peru for over 3000 years
  • Contains other psychoactive alkaloids
  • Mescaline is highly concentrated in the skin
  • The skin is peeled, dried and made into a powder
  • NATIVES- Boil slices of stem, cool and drink the
    liquid

21
USE IN PSYCHIATRIC RESEARCH
  • Common experiences between hallucinogen-induced
    states and schizophrenia
  • Hallucinogens used to model psychoses
  • Due to widespread abuse of hallucinogenic drugs
    research ended
  • Current revival of interest in this area of
    research
  • Some studies suggest hallucinogen-induced states
    are appropriate models for acute stages of
    schizophrenia only

22
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23
MDMA (Ecstasy)3,4-methylenedioxymethamphetamine
  • Although an amphetamine anlaogue classed as
    hallucinogen not as stimulant because it changes
    perceptual awareness
  • Causes feelings of euphoria, tingling and a sense
    of increased sociability (love drug)
  • Enhances release DA and 5-HT

24
MDMA (Ecstasy)3,4-methylenedioxymethamphetamine
  • Widely used a recreational drug
  • (18 University students GB, c.60- all clubbers)
  • Very intense positive effects on mood and
    wellbeing
  • Mechanism of this positive effect?
  • (Liechti Vollenweider (2001)-citalopram,
    ketanserin, haloperidol
  • Psych effect- serotonin
  • Stimulant effects- dopamine

25
Ecstasy use?
  • Changing from infrequent to Frequent
  • Route is mainly oral
  • Physiological effects temperature control
  • Induces changes in homeostatic control of bosy
    temperature due to altered hypothalamic function.
  • Malberg Seiden(1998)- rats increase in temp
    in MDMA not control
  • 85-90 users report increase in body temperature

26
MDMA Neurotoxicity
  • Highly neurotoxic shown using biochemical and
    histological methods
  • Highly selective neurotoxicity for 5-HT system,
    loss of fine axon endings that arise from the
    dorsal raphe nucleus
  • Too early for longitudinal studies in
    humansMcCann (1994) showed lower CSF 5-HIAA in
    MDMA users

27
5-HT(serotonin) Syndrome
  • Gillman (1999) SS caused by drug induced excess
    of intrasynaptic 5-HT.
  • Symptoms behavioural hyperactivity,
    agitation,mental confusion,hyperrefelxia,
    tachycardia,shivering, clonus,tremor
  • Parrott (2002) clubbers show many signs of 5-HT
    syndrome part. Hyperactivity, jaw-clenching

28
Mid-Week Blues
  • Poor moods, anhedonia, lethargy reported.
    Parrott Lasky (1998)
  • Baseline study before,during after MDMA.
  • 2 days-increased depression, unpleasantness,
    unsociable,sadness in MDMA, Back to baseline by
    day 7.
  • Topp et al(1999) energy loss, irritability

29
Neurotoxic?
  • Long term damage first shown in 1980s. Rats
    treated with successive doses of MDMA loss of
    5-HT markers 5-HT, 5-HIAA,5-HT uptake sites
    (Ricaurte, 1985, Schmidt, 1986).
  • Temperature a key factor-greater neurotoxicity
    under high ambient temperatures, coller
    protective (Malberg Seiden, 1998).
  • Recovery occurs over several months in lab rats,
    monkeys and primates only partial recovery even
    after extended period (Ricaurte 2000)

30
Neurotoxic ? Contd
  • Humans-
  • PET scan (McCann, 1998) reduced density of 5-HT
    transporter sites correlated with extent of past
    ecstasy use. Semple (1999) decreased density 5-HT
    transporter sites in neuroimaging study
  • McCann (1994) gender effect F greater 5-HIAA
    reduction (-46) than M (-20) compared to
    non-MDMA users.

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35
Neurotoxic?contd
  • Renemann (2000) SPECT investigation of 5-HT2A
    receptor density and cog test.
  • Increased 5-HT2A receptor density occ cortex-
    upregulation following drug induced depletion.
    Impairment in verbal learning (8.1 vs 12.3 words
    recalled) (.98 corr Verb lear/5-HT2A density)
  • Fox et al (2001) heavy vs light users. Lower
    spatial working memory. Using CANTAB profile
    similar to frontal lobe neurosurgical patients

36
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37
Psychiatric Consquences?
  • Numerous case studies major depression, panic
    disorder, aggressiveness, phobic anxiety,eating
    disorder,schizophrenia. Not necessarily typical.
  • Schifano (1998) 150 attendees drug clinic
  • Higher depression, psychotic disorder, cog
    impairment,bulimia,impulse control,panic
    disorder. Atypical group?
  • Parrott (2002) polydrug vs cannabis, heavy and
    light MDMA users. Only slight diffs between
    polydrug users and MDMA users.

38
Elevated plus maze test anxiety
Closed arms
Open arms
39
Plus maze anxiety from Mechan, Moran et al (2002)
following MDMA
40
MDMA is a prime example of how animal and human
research are often complementaryGeorge Ricaurte
(2002)
41
MDMA and Dopamine
  • Early studies showed increase in release of
    extracellular levels of 5-HT AND Dopamine
    (Nichols (1982), Kanaapaa (1998)
  • Tissue concentration of DA decreased (Schmidt
    (1986), Green(1994)
  • Extracellular DA levels deacreased microdialysis
    (Sabol Seiden,1998)

42
MDMA Dopamine
  • MDMA effects are different in rat and mouse. In
    both a rapid 5_HT release immediately but in mice
    much less. Mice show lowered striatal DA
    concentration (Stone et al,1987, OShea et al,
    2001).
  • I.e.Long term effect of MDMA in mice is
    neurotoxic damage to dopamine but not 5-HT while
    reverse is true in rats

43
MDMA Dopamine Neurotoxicity
  • SOD gene knockout mice resistant to neurotoxic
    action of MDMA (Cadet 1995)
  • Suggests overproduction of free radicals role in
    MDMA induced neurodegeneration
  • Camarero(2002) protective effect of DA uptake
    inhibitor GBR12909 agonist on MDMA induced
    increase in lipid peroxidation in striatal
    synaptosomes

44
Camarero et al (2002)
  • Dopamine Concentration in striatum(ng/g tissue)
  • Saline 11,455 /- 266
  • MDMA 8,411 /- 585
  • MDMAGBR 11,124 /- 230

45
Dopamine MDMA (human study)
  • Gerra et al (2002)
  • Prolactin and growth hormone responses to DA
    agonist bromocriptine psychometric measures 3
    weeks after stopping MDMA.
  • GH responses to Bromocriptine significantly
    reduced in MDMA users. Measurement of novely
    seeking inversely correlated to GH response.
    Demonstrates a direct pharmacological action of
    MDMA on brain DA function in humans.

46
Severe Dopaminergic neurotoxicity in primates
after a common recreational dose regimen of MDMA
("ecstasy")Ricaurte GA, Yuan J, Hatzidimitriou
G, Cord BJ, McCann UDSCIENCE
297 (5590) 2260-2263 SEP 27 2002
AbstractThe prevailing view is that the
popular recreational drug (/-)3,4-methylenedioxym
ethamphetamine (MDMA, or "ecstasy") is a
selective serotonin neurotoxin in animals and
possibly in humans. Nonhuman primates exposed to
several sequential doses of MDMA, a regimen
modeled after one used by humans, developed
severe brain dopaminergic neurotoxicity, in
addition to less pronounced serotonergic
neurotoxicity. MDMA neurotoxicity was associated
with increased vulnerability to motor dysfunction
secondary to dopamine depletion. These results
have implications for mechanisms of MDMA
neurotoxicity and suggest that recreational MDMA
users may unwittingly be putting themselves at
risk, either as young adults or later in life,
for developing neuropsychiatric disorders related
to brain dopamine and/or serotonin deficiency.
WITHDRAWN
47
Study focus points Refs
  • Which are the hallucinogenic drugs
  • What is the evidence that MDMA has behavioural
    consquences, can this be related to
    neurotoxicity?
  • The field has enlarged its focus from serotonin
    to include Dopamine in 2002 why?
  • Given their low abuse potential why study
    hallucinogenic drugs?

48
Some useful general texts
  • Rosenzweig, Breedlove Leiman Biological
    Psychology
  • Leonard. Principles of Psychopharmacology
  • Feldman Principles of neuropsychopharmacology
    (very detailed
  • more suitable for final year but very
    comprehensive)
  • 4. McKim Drugs and Behaviour
  • Much of the lecture material is based on up to
    date scientific material
  • In addition recent reviews quoted in individual
    lectures which are
  • Available as PDFs from www.sciencedirect.com
    (log in using Athens
  • Password) or web of science details on library
    home pages

49
References
  • Parrott, A.C. (2002) Recreational ecstasy/MDMA.
    Pharmacology,Biochemistry,Behavior, 71, 837-844.
  • Kish, S.J.(2002)What is the evidence that brain
    serotonin neurons are damaged in human users of
    ecstasy , Pharmacology,Biochemistry,Behavior, 71,
    845-855.
  • Drug discrimination procedure http//www.acnp.org/
    g4/GN401000072/CH072.html
  • Hallucinogenic drugs RM Julien, A Primer of Drug
    action , Worth publishers , 2001. Chapter 12.
    Most text books contain a section devoted to
    hallucinogenic drugs.
  • e.g. McKim Drugs and behavior
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