PSYC 383 Lecture 9 PDF

Summary

This document is a lecture on psychopharmacology, focusing on the effects of hallucinogens, particularly psychedelics and dissociatives. It details the history and mechanisms of action, along with their clinical applications and subjective effects.

Full Transcript

PSYC 383
Psychopharmacology:
Lecture 9 – Hallucinogens:
Psychedelics & Dissociatives
The Liminality Crisis

How do we tell the difference between what is real
and what is illusory?
Liminal states of mind are subjective crisis points:
the apex of uncertainty in perception and/or belief
From liminal states, our assumptions about the
nature of reality are challenged
Is my mind perceiving or creating reality?
Where do I end? Where does environment begin?
Am I who I’ve been thinking I am? What is “I”?

Intense liminal crises can lead to one of several
possible outcomes, including:
Panic, paranoia, denial
Surrender
(Pan-)agnosticism
Courage and wisdom
 Psychedelics

“…the feature that distinguishes
psychedelic agents from other classes
of drugs is their capacity reliably to
induce or compel states of altered
perception, thought, and feeling that
are not (or cannot be) experienced
otherwise except in dreams or at times
of religious exaltation”
Jerome Jaffe (1990)
Drugs and Dream Similarity (Sanz et al., 2018)
Drugs and Dream Similarity (Sanz et al., 2018)
Brief History of Psychedelics
Psychedelics
History of Psychedelics

Psychedelics have been used by indigenous peoples of nearly every continent for
millennia
Ceremonially, ritualistically/mystically, medicinally, as performance enhancers, etc.

The term psychedelic comes from Greek words that mean “mind manifesting”,
coined by Humphrey Osmond (with Aldous Huxley)
First isolated psychedelic was mescaline by German chemist Arthur Heffter in 1897
MDMA first synthesized in 1912, but resynthesized and popularized by Sasha and
Ann Shulgin in 1965 and used in therapy during the 70’s & 80’s
LSD first synthesized in 1938 by Albert Hofmann, and psychedelic properties
accidentally discovered in 1943 - “bicycle day”
All psychedelics placed on Schedule I of the Controlled Substances Act, MDMA
added in 1985 by DEA, counteracting federal judge ruling
Clinical History of Psychedelics

Termed “psychotomimetics” by early
researchers and were thought to induce
schizophrenic-like symptoms
Later renamed due to lack of experiential overlap

Early clinical uses included treatment for
alcoholism & other addiction (smoking), autism
Psilocybin and LSD psychotherapy improves
alcoholism, OCD signs

MDMA (entactogen rather than a psychedelic)
used in the late 70s, early 80s primarily by
psychiatrists for couples counselling
Classes of Psychedelic Drugs

Two primary structural classes that correspond to a minor functional
difference: the phenethylamines and the tryptamines
Phenethylamines: Mescaline

Mescaline is the prototypical psychedelic
phenethylamine, found in several species of cactus
including peyote and san pedro
However, it is one of the weaker phenethylamines

Used and legally protected in traditional Native
American religions, often made in tea
First artificially synthesized in 1919 and later
popularized to western audiences by Aldous Huxley
in his book “The Doors of Perception”, describing
visual fractals, synaesthesia, time distortions, etc.
Half-life of about 6 hours
Phenethylamines: MDMA, MDA, etc.

Often referred to as “entactogens” (from “touch” - empathy inducing) rather than
psychedelics, but with some similar pharmacology
Potent releaser of all monoamines (5-HT, DA, NE) resulting from binding at
transporter sites (SERT, DAT, NET), but also has affinity as an agonist at M1, M2, α1, α2,
β, 5-HT1, 5-HT2, D1, and D2 receptors
Unlike most psychedelics, MDMA is neurotoxic on serotonergic neurons at high
doses and can induce serotonin syndrome
Psychological effects include euphoria, increased emotional empathy (emotional
contagion, suggestibility), decreased cognitive empathy
Substituted Phenethylamines

2,5-Dimethoxy-4-[x]-amphetamine
DOM (methyl), DOI (iodine), DOB (bromine), DON
(nitrogen), DOC (chlorine)
2C-x family of research compounds are similar, differing in the
placement of the NH2 group
2C-B, 2C-I, 2C-E, 2C-P, etc…
NBOMe (addition of a benzyl ring on the N)
otherwise virtually identical to the 2C-X family, but can
have radically different affinities
Variably potent psychedelics, lethal at high doses
Tryptamines: Psilocybin

Classical and naturally derived psychedelic from the
Psilocybe genus of mushrooms - used ritualistically
and medicinally in many religious/cultural practices
Psilocybin is converted rapidly into psilocin with
similar pharmacological effects, binding affinities
Can also contain psychoactive (nor)baeocystin

Consistently ranked as one of the least harmful illegal
drugs, and considerably less harmful than alcohol
and tobacco
Approximately 12% of the adult population of North
America have consumed psilocybin at least once
Tryptamines: Bufotenin

From bufo alvarius - Sonoran desert toad that
produces bufotenine
The toad produces the psychedelic bufotenin as an
excretion through its semi-permeable skin
Not as commonly used as other psychedelics due to
the difficulty of acquiring these toads
Similar pharmacology to other tryptamines
Extremely high LD50 - also found in some Caribbean
and South American plants
Tryptamines – DMT, 5-MeO-DMT

Ayahuasca: One of several ritualistic brews made
from vines and other Amazonian plants by several
indigenous South American peoples
contains the psychedelic dimethyltryptamine
(DMT), and other psychoactive compounds such
as harmine and harmaline (MAO inhibitors)
Ayahuasca has been used for millennia and is now
being tested for its use in treatment-resistant
depression and addictions
5-MeO-DMT also found in many plants and one toad
species, usually smoked in purified form with brief,
intense psychedelic effects
Lysergic Acid Diethylamide (LSD-25)
Bicycle Day – April 19, 1943

"... Little by little I could begin to enjoy the
unprecedented colors and plays of shapes that
persisted behind my closed eyes.
Kaleidoscopic, fantastic images surged in on
me, alternating, variegated, opening and then
closing themselves in circles and spirals,
exploding in colored fountains, rearranging
and hybridizing themselves in constant flux …"
Albert Hoffmann
LSD

Ultimately derived from ergotamine found in ergot, a
fungus that grows on rye or sorghum hosts
Can be crystallized and stored in a variety of ways; the most
common administration route is oral (blotter paper)
Much more diverse or rich receptor affinities than other
psychedelics, accounting for some of its unique
psychological effects
Was used widely in psychiatric contexts before scheduling,
for treatment of alcoholism and other disorders
MKUltra - declassified CIA use of LSD for mind control
Canadian connection: Dr. D. Ewan Cameron at McGill University
Psychological Effects of Psychedelics

The half-lives of psychedelics vary considerably, but experiences follow a similar
qualitative pattern of expression based on dose
Short-length experiences can last 1 hour or less (DMT), medium-length can last 4-6
hours (psilocybin), and long ones >12 hours (LSD)
Psychological Effects of Psychedelics

Recall that all drug experiences are a result of dose, set, and setting
Many subjective effects involve altered and/or mystical states of consciousness;
frequently associated with ecstatic states, can devolve into states of anxiety/despair
The Marsh Chapel “Good Friday” Experiment (1962):
Divinity degree graduate students given high doses of psilocybin or niacin
Houston Smith among the students (comparative religion scholar)
“The most powerful cosmic homecoming I have ever experienced”
At 8–16 months after psilocybin sessions, more than 60% of subjects rated the
experience as “very enriching,” and more than 90% described it as enriching to at
least a medium degree (Studerus, 2011)
Not directly linked to mental health problems, suicide (Johansen and Krebs, 2015; Jones & Nock, 2022)
 Psychological Effects of Psychedelics

Enhanced suggestibility, emotional responses to
music and other perceptual stimuli (food, sex, etc.)
Enhanced interpersonal closeness, gratitude, life
meaning/purpose, forgiveness, death
transcendence, satisfaction with life, mindfulness
Increased implicit emotional empathy, but no
effect on cognitive empathy
Reduced psychological distress, general
psychopathological symptoms (on average)
Psychological Effects of Psychedelics
 Psychological Effects: Perception

Visual Perception:
Binocular rivalry - two images presented in
either eye, perception of each image typically
alternates in relatively rapid succession
Reduced binocular rivalry switching and increased
image blending duration after psilocybin (Carter et al., 2007)
Psilocybin reduces global, but enhances local
motion sense (Carter et al., 2004)
Decreased coherence sensitivity in random dot patterns
Reduced tracking performance (at high doses)
Reduced object completion (Kanizsa figures) is
correlated with reduction in N170 ERP
component in EEG (Kometer et al., 2011)
Colour enhancement is very common
Psychological Effects: Perception
Psychological Effects: Perception

Effects on Auditory Perception:
Enhanced emotional responses to music facilitates trance states
Effects on Time Perception:
Time distortion is common in both directions, but short intervals are more frequently
perceived to last longer (e.g., minutes feel like hours or vice versa)
Reduced ability to reproduce interval durations longer than 2.5s (typical is ~4s)
High dose psilocybin slows down the preferred tapping rate from ~700ms to ~950ms,
Time distortion may reflect effects on short term memory (Wittmann et al., 2007)
Effects on Sleep:
General increase in wakefulness, reduction of both REM and slow-wave sleep
DOI decreases the number but not the duration of REM episodes
blocked by 5-HT2A antagonist ketanserin
 Psychological Effects: Personality

Psilocybin is the only known pharmacological agent (so far) to produce a (presumably)
permanent change in a personality dimension:
Openness to experience significantly increases after psilocybin use, contingent on the
induction of a “mystical” experience on the SOCQ (States of Consciousness Questionnaire)
Psychological Effects: Personality

A follow-up study revealed other dimensions affected by acute psilocybin experiences
Increases in openness, extraversion, and conscientiousness
Decreases in neuroticism
Psychedelics and Nature-Relatedness

Lyons & Carhart-Harris (2018)
Pilot study of psilocybin effects on patients
with treatment-resistant depression (n=14)

Authoritarianism - contrasted with
libertarianism, emphasizes limitations
to individual freedoms (PPQ-5 scale)
decreases after psilocybin use

Nature relatedness - defined as “the
subjective sense of connection with the
natural environment” (NR-6 scale)
increases after the use of psilocybin
Psychedelics and Nature-Relatedness
 Psychedelics and Nature-Relatedness

Lifetime experience with psychedelics
predicts pro-environmental behaviour and
knowledge about climate change
Correlational studies (Forstmann et al., 2017;
Longo et al., 2022; Sagioglou et al., 2022)
Perhaps only psilocybin (Forstmann et al., 2023)

Nature-relatedness is enhanced:
NR-6 questionnaire administered online to 654
participants before and after psychedelic
Baseline NR-6 score correlated with previous
use, and increases in scores at 2-, 4-weeks and 2-
years post predicted improvements in mental
well-being
Kettner et al., 2019
Psychological Effects: “Mystical”

There is a wide variety of possible psychedelic experience, but a consistent sequence seems to
emerge as a function of dose, and to a lesser extent set and setting (Masters & Houston, 1967):
The Sensory Realm:
Visual, auditory, synesthetic, etc., a “perceptual feast” (synaesthesia)
The Recollective-Analytic Level:
Personal problems, relationships, and life-goals examined
The Symbolic Level:
Profound self-understanding and self-transformation
The Integral Level:
Confrontation with “the Ground of Reality”, God, Mysterium, Noumenon,
Essence, or “Fundamental Reality”
Almost always considered to be a “religious” experience
Psychological Effects: “Mystical”

Griffiths et al. (2019) study comparing non-user mystical experiences with
psychedelic mystical experiences – the biggest difference is the label “God”
Non-drug (N = 809)
Psilocybin (N = 1184)
LSD (N = 1251)
Ayahuasca (N = 435)
DMT (N = 606)
Common experience: communication with (a) benevolent, intelligent,
sacred, eternal, all-knowing being(s)
2/3 of atheist subjects no longer identified as such after psychedelic use
Psychological Effects: “Mystical”
10 Minute Break
Mechanisms of Action

All psychedelic drugs act as agonists for the 5-HT2A receptor, which is necessary but
not sufficient for the psychedelic experience
The major pharmacological differences between psychedelic classes:
Phenethylamines: 5-HT2A, 5-HT2C
Tryptamines: 5-HT2A, 5-HT2C, 5-HT1A
Lysergic Acid (LSD): 5-HT2A, 5-HT2C, 5-HT1A, 5-HT1B, 5-HT1D,
5-HT5A, 5-HT6, 5-HT7, D1, D2, D3, D4, α1
Importantly, the mGlu2 receptor must be coactivated with 5-HT2A in order to
generate the psychedelic response
5-HT2A and mGlu2 form a functional heterodimer in the cortex
Mechanisms of Action
Mechanisms of Action
Neurophysiology

Unexpected decreases found in thalamus, ACC, PCC, and
medial prefrontal cortex
Reduced “hub” area activity and areas of the DMN
correspond to “ego-dissolution”
Novel Functional Dynamics
Novel Functional Dynamics

Not only are there novel brain states that are only achievable
through the use of psychedelics, the probabilistic transition
dynamics between functional states is changed
Red arrow = increased likelihood; Blue arrow = decreased likelihood

Unified, Default Doral- Somato- Ventral
Limbic Visual
Non-specific mode Attention motor Attention
Novel Functional Dynamics
REBUS - Relaxed Beliefs Under Psychdelics

A recently proposed model for how psychedelics work involves a synthesis of several previous
brain models:
1. The Free-Energy Principle (Friston, 2005; 2010)
2. Hierarchical Predictive Coding (Huang & Rao, 2011; Wacongne et al., 2011)
3. Bayesian Brain Hypothesis (Knill & Pouget, 2004)
4. The Entropic Brain Hypothesis (Carhart-Harris et al., 2014; Carhart-Harris, 2018)
Free-Energy Principle & Hierarchical Predictice Coding: The mind combines bottom-up
and top-down information at multiple stages in a set of neural network hierarchies to optimize
expected reward (or utility), and minimize prediction error (cost)
Bayesian Brain Hypothesis: The primary mechanism by which “optimization” is negotiated is
via Bayes theorem (ongoing statistical sampling) at each level of the hierarchy
Hierarchical Predictive Coding
The Entropic Brain Hypothesis

Entropy is a measure of order vs.
disorder in an information structure, all
other things being equal
All conscious states can be placed on
an entropy spectrum from low (rigid) to
high (flexible)
The increase in functional connectivity
throughout the brain resulting from use
of psychedelic drugs can be described
as entropy gain
Clinical Applications: Anxiety & Depression

State-Trait Anxiety Inventory scores show significant reductions in trait anxiety at both
2 and again at 12 months after LSD session compared to baseline (Gasser et al., 2014; 2015)
Significant reduction in end-of-life anxiety and depression in patients diagnosed
with terminal cancer after treatment with psilocybin (Griffiths et al., 2016; Ross et al., 2016)
Treatment-resistant patients were treated with psilocybin and placed in an fMRI
scanner - all patients showed decreased scores of depression after 1 week, half of
patients at 5 weeks (Carhart-Harris et al., 2017)
Decreased amygdala activity (cerebral blood flow) predicted outcome
MDMA treatment reduced severe social anxiety in autistic adults (Danforth et al., 2018)
High doses of MDMA produce fear amnesia and antidepressant effects (Pantoni et al., 2022)
 Clinical Applications: Depression

In a study of 26 treatment-resistant patients
with depression, two psychotherapy-assisted
sessions with 10mg and 25mg of psilocybin,
respectively, yielded significant decreases in
depressive signs (Carhart-Harris et al., 2018)
“Two main change processes were identified
in relation to the treatment. The first
concerned change from disconnection (from
self, others, and world) to connection, and the
second concerned change from avoidance
(of emotion) to acceptance.” (Watts et al., 2017)
Clinical Applications: PTSD

MDMA is being explored as a treatment for treatment-
resistant PTSD: Phase 3 clinical trials:
67% of subjects did not meet diagnostic criteria for PTSD on an
18-month follow-up to three MDMA sessions as measured on the
CAPS-V (clinician administered PTSD scale)
Compared to 32% for placebo

Functional impairment decrease compared to placebo on the
Sheehan Disability Scale
Significant decrease compared to placebo on the Beck
Depression Inventory-II

Cause may be fear extinction & memory reconsolidation
Decreased amygdala and insula activation, increased connectivity
between the amygdala and hippocampus

Eating disorder symptoms reduced by MDMA assisted
therapy (Brewerton et al., 2022)
Clinical Applications: PTSD
Biopsychosocial Healing

Lifetime classic psychedelic use is associated with a reduced odds of past year larceny/theft,
assault, arrest for property crime/violent crime
Lifetime use of most other drugs is associated with increases
Psilocybin use has “protective effect for antisocial criminal behavior”
“Among women who did not use psychedelics, prescription opioid use increased the hazard
of suicide… whereas prescription opioid use was not associated with suicidal ideation or
attempt among those who used psychedelics” (Argento et al., 2018)
Historical use in couples counselling, autism, body dysmorphia
Prolonged pro-environmental and anti-authoritarian attitude increases after single instance of
psychedelic use (but perhaps only psilocybin)
10 Minute Break
Dissociatives

Dissociatives get their name from some of their most common effects:
depersonalization, derealization, and dissociation
Detachment from self, surroundings, and/or a sense of reality

Most dissociatives act primarily through antagonism of NMDA, with variable affinity
and differences in receptor binding profiles depending on the specific drug
Dissociative is a term that refers to the characteristic subjective effect of
depersonalization that occurs at high doses, where one has the feeling of observing
oneself from the outside rather than as being a causal agent of one’s behaviour
Many other subjective effects such as perceptual distortions and cognitive
enhancements or impairments can also be elicited
Dissociatives
Salvia Divinorum

Plant in the mint family - native to Oaxaca, Mexico
The primary psychoactive molecule is salvinorin A
Opioid κ-receptor agonist
Unusual pharmacology, smoked salvia seeds
generate dissociative effects for as short as five
minutes, with residual effects lasting ~30 minutes
Potential anxiolytic/antidepressant effects involve
both κ-receptor and endocannabinoid action (CB1
receptor)
Salvia Divinorum

Subjective effects:
Effects can range from euphoric to dysphoric
Intense vestibular and interoceptive sensations
changes in spatial orientation and body pressure
Descriptions of revisiting childhood memories
Cartoon-like imagery, contact with agential “entities”
Pharmacological action:
First known naturally occurring non-nitrogenous κ-receptor agonist
Effects are blocked by quadazocine, a κ-receptor antagonist
Tolerance does not generalize to ketamine (NMDA antagonists)
No significant neurotoxic effects
Effects depend on administration route (smoked vs. oral)
Ibogaine

Derived from Central African shrub Tabernanthe
iboga, used for centuries by “shamans”, currently
used by the syncretic bwiti religion
Rapidly converted by the body into noribogaine
Modern clinical use in treating addictions,
especially alcoholism and opioid additions:
non-competitive NMDA antagonist, reduces
opioid withdrawal symptoms in mice
Fatal at high doses from cardiovascular effects,
induces whole body tremors at moderate doses
Ibogaine

Neuropharmacological effects:
Receptors with high affinity for ibogaine:
κ and δ opioid receptors, NMDA, mACh1/2, 5-HT3, σ1/2, NA channel
Some affinity also for 5-HT2A, SERT, DAT
Increases expression of GDNF (glial derived neurotrophic factor)
Subjective effects:
Distortions in the perception of time and space
Cognitive distortions including thought loops and delusions
Visual enhancement of colour and acuity, but also distortions
Classical dissociation - feelings of observing oneself from outside
Can be considered to simultaneously exhibit both psychedelic and dissociative subjective effects
Dextromethorphan (DXM)

Opioid-like compound found in many over-the-counter cough medication since the
mid-20th century, taken orally & reduces pain
Similar pharmacology to ketamine and PCP:
non-competitive NMDA antagonist, Ca2+ channel antagonist
other affinities include σ1, μ, β and α1 NE receptors, 5-HT1b/d
There are proposed antidepressant effects of DXM at high doses
Can be used to effectively treat the inappropriate laughing and/or crying
(“pseudobulbar affect”) that is common in ALS
Decreases motor cortex excitability, can treat excitotoxic symptoms
Dextromethorphan (DXM)

High doses of DXM can produce subjective effects that are similar to classical psychedelics,
but with a dissociative component
Dose-dependent positive correlation with hallucination and mysticism
Phencyclidine (PCP)

Potent dissociative with high abuse potential, similar pharmacology to other dissociatives:
non-competitive NMDA, σ1, and nAChR antagonist
also acts as an agonist at D2 and 5-HT2 receptors
Model for schizophrenia:
Induces prepulse inhibition deficits in both rodents and primates
NMDA dysfunction can lead to secondary mesolimbic dysfunctions
Perinatal administration of PCP seems to induce schizophrenia-like symptoms as rodents
mature, deficits treated by clozapine
Neurodegenerative effects also follow from perinatal PCP exposure
Other receptors (D1, 5-HT1, 5-HT7, mGlu2/3) involved in the treatment of PCP induced
deficits, including psychotomimetic effects
Phencyclidine (PCP)

Subjective Effects:
Similar to the effects of ketamine but with stronger potency
Psychomotor agitation, disorientation, can lead to aggression
Slurred speech, unsteady gait, analgesia
Delusions, hallucinations, loss of memory, erratic behaviour
Ego dissolution (depersonalization), paranoia
PCP is either smoked, taken orally, or injected
Medial prefrontal cortex is activated after consumption of PCP via the hippocampus-mPFC
pathway
No impairments in attentional shifting in rats sensitized to PCP
Social deficits resulting from chronic PCP use can be treated with oxytocin
Ketamine

Somewhat weaker in effect than PCP but more
popular recreationally
Again, typical dissociative pharmacology -
principally antagonism at the NMDA receptor, but
with affinities at several other receptors:
potentiates GABAA
μ, δ, κ, but not for analgesia
Na+, K+, and Ca2+ channels
adenosine receptors
induces catecholamine release
Originally used for sedation (and still is by
veterinarians), but more recently being tested for
likely anti-depressive effects
Ketamine

Like many other dissociatives (with the exception of salvia),
there is a relatively high potential for abuse with ketamine use
(e.g., John Lilly)
Neurotoxic at high doses - functional brain differences in
ketamine treated monkeys, reduced tyrosine hydroxylase, and
apoptotic effects during brain development - reinforcement
partially non-DAergic
Ketamine stimulates DA release, especially in the mesocortical
pathway
Long term ketamine users show reduced D1 receptor binding
in the PFC
Ketamine
Ketamine
Ketamine & Depression

"Twenty-four hours after a single infusion, [Montgomery-Asberg Depression Rating Scale]
scores were reduced on average by 2.08 points on a 0 to 6 scale, and 81% of patients
received a rating of 0 or 1 post-infusion.” (Price et al., 2009)
Attenuation of burst firing in the lateral habenula is sufficient to produce antidepressant effect
(Yang et al., 2018)

“Among responders, median time to relapse after the last ketamine infusion was 18 days.”
(Murrough et al., 2013)
Ketamine & Depression