1: Psychopharmacology
3: Synaptic Transmission:�Action Potentials
4: Drug Effects on Neurotransmission All psychoactive drugs act centrally (i.e. on the brain)
The vast majority of drug actions are through direct effects on neurotransmission
Agonist
A drug that activates the same receptors as a neurotransmitter
Antagonist
A drug that blocks receptors activated by a neurotransmitter
Indirect agonist
A drug that increases the availability of a neurotransmitter
Inverse agonist
Only happens at complex receptor types
Drug activates the receptor, but has the opposite effect as the endogenous ligand (neurotransmitter)
Mixed agonist-antagonist
Drug acts as an agonist, but blocks the effects of other agonists
5: Dose-Response Curves
6: Pharmacokinetics
7: Pharmacokinetics Blood Brain Barrier
Blocks many chemicals in general circulation from entering the brain
The capillaries that supply blood to the brain have tightly packed lipid endothelial cells that block many chemicals
Acids
Lipid-insoluble chemicals
Chemicals bound to plasma proteins
Also blocks many hormones from acting centrally
Some role may be also be played by astrocytes
Astrocytes have processes that contact capillary walls, and others that contact neurons
8: Pharmacokinetics Liver P450 Enzymes
Everything absorbed from the GI tract passes through the liver before entering general circulation
Results in first-pass metabolism
Also metabolizes drugs already in circulation
Levels of P450 enzymes can change in response to long-term drug use
Can be a factor in the development of drug tolerance
Important in many drug interactions
If two drugs (e.g. barbiturates and ethanol) share a common metabolic pathway, the presence of one will reduce metabolism of the other
9: Pharmacokinetics Liver P450 Enzymes (cont.)
Levels of the ~50 P450 enzymes in humans can vary widely between individuals (and ethnicities)
In some people one might be missing entirely
Important for individual differences in drug reactions
Some P450 enzymes actually activate drugs
Codeine is actually turned into morphine by these enzymes
Many drug metabolites are active compounds themselves
Can cause side effects, especially ‘hangover’ effects in long-lasting drugs
10: Striatal Dopamine and Drug Reward
11: Striatal Dopamine and Drug Reward
12: Striatal Dopamine and Drug Reward Additionally, the following drugs had no effect on extracellular DA levels:
Imipramine (a tricyclic antidepressant)
Atropine (a.k.a. Belladonna, an ACh antagonist at muscarinic receptors)
Diphenhydramine (an antihistamine)
Finally, haloperidol (an antipsychotic) did increase extracellular DA levels in both accumbens and caudate.
However, haloperidol is a potent D2 receptor antagonist.
13: Radioligand binding studies Aside from hemodynamic applications, PET can be also be used with any radioligand with a reasonably short half-life.
[11C]raclopride competes with endogenous DA for receptor binding.
Thus, [11C]raclopride binding can be used as a measure of endogenous DA release (greater signal means less DA).
14: Reduction in [11C]raclopride binding following d-amphetamine challenge
15: Correlations between [11C]raclopride binding following d-amphetamine challenge and personality dimensions
16: Before we begin… “It should be made clear that all psychotropic drugs can be safe or harmful, depending on the circumstances in which they are used, how frequently they are used, or how much is used.” Grilly (2002), Drugs and Human Behavior
17: Sedative-Hypnotics (depressants) Ethanol (alcohol)
Formed during the interaction of yeast and sugar
Small, neutrally charged molecule
Readily absorbed from the GI tract
Highly water-soluble, but still crosses the BBB
Not fat-soluble
This is part of why women have a lower alcohol tolerance: ethanol will not enter fat cells, and women have a higher proportion of body fat than men
Metabolized by a P450 enzyme known as alcohol dehydrogenase (ADH)
Women have about half the ADH as men do on average; again, lower tolerance
It is metabolized in the liver at a fairly constant rate
First-pass metabolism also occurs at an upper GI site
18: Sedative-Hypnotics (depressants) Ethanol (cont.)
Alters nearly every aspect of conduction and synaptic neurotransmission
Acts directly on neuronal cell membrances, making them more “fluid”
This can interfere with the flow of sodium and potassium ions at extremely high doses
Enhances GABA activity, allowing more chlorine to enter, hyperpolarizing cells (making them less likely to be active)
Inhibits glutamate at NMDA receptors, reducing the flow of calcium and sodium, making it less likely that cells will depolarize
19: Sedative-Hypnotics (depressants) Ethanol (cont.)
Psychological effects appear to be heavily moderated by expectations
Has large effects on judgments and decision making, and fine and gross motor control
In approximately half of all homicide, robbery, rape, arson, and domestic violence cases, either the perpetrator or victim was determined to be under the influence of alcohol
Roughly 40% of all fatal traffic accidents in North America and Europe involve alcohol
20: Sedative-Hypnotics (depressants) Ethanol (cont.)
Effects of chronic use
Cirrhosis of the liver
Not due to poor nutrition
Slight cognitive impairments
Memory
Abstract reasoning
Problem solving
Perceptual motor functions
These impairments may be a result of liver damage
Normal functioning (except for memory) after receiving a liver transplant
Korsakoff’s syndrome
Profound anterograde and retrograde amnesia
Due to a B vitamin deficiency
21: Sedative-Hypnotics (depressants) Ethanol (cont.)
Famous study of all-cause mortality and drinking
Heavy drinkers had highest mortality
Followed by abstainers
Lowest mortality in people having 1-3 drinks/day
No evidence that this moderate level of drinking has adverse effects
Except on a developing fetus….
Although apparently a recent report has linked alcohol to…cancer!
22: Sedative-Hypnotics (depressants) Barbiturates
Have largely been replaced by benzodiazepines
High abuse potential
Effects are very similar to alcohol
Variety of uses:
General anesthetics
Anxiolytics
Sleeping pills
Anticonvulsants
23: Sedative-Hypnotics (depressants) Barbiturates (cont.)
Like alcohol, they enhance GABA activity, increasing the amount of chlorine able to enter cells
Although used as a sleeping pill, it leads to much less REM sleep than normal
As does alcohol
24: Sedative-Hypnotics (depressants) Benzodiazepines
You’ve probably heard of Valium (diazepam) and Xanax (alprazolam)
Xanax has replaced Valium as the anxiolytic of choice, primarily because of the abuse potential of Valium
Very similar effects to barbiturates, although they can not be used as a general anesthetic
Much less likely to cause fatality than barbiturates
Have highly selective actions on a widely distributed set of receptors that seem to enhance GABA activity at other receptor sites (again, increase in chlorine and hyperpolarization)
Many of the endogenous ligands for the benzodiazepine receptors are still unknown, but some have been identified
Some inhibit panic reactions, some seem to induce them
25: Psychostimulants This class of drugs, in low to moderate doses, generally have the following effects
Heightened mood (euphoria)
Increase vigilance and alertness
Reduce fatigue
Keep you awake
In order of prevalence of use
Caffeine (the most widely used psychotropic in the world)
Nicotine
Amphetamines/Cocaine
26: Psychostimulants Caffeine
Typical adult in the US consumes 200-300mg/day
Two cups of coffee has roughly the same mood-elevating and fatigue-reducing properties as a threshold dose of amphetamine
However, larger doses to do not continue to elevate mood in the same way as amphetamine
Improves psychomotor performance
Reaction time
Sustained attention
In low doses can improve capacity for muscular work and ‘sustained intellectual effort’
Many effects are biphasic (that is, they go away or reverse at higher doses)
Unclear as to whether these beneficial effects exist only in regular users
27: Psychostimulants Caffeine (cont.)
Primary mechanism of action is antagonism of adenosine receptors
Adenosine is a powerful inhibitor
Antagonism of adenosine receptors leads to much greater activity in the reticular activating system (a subcortical monoamine neurotransmitter system intimately linked with arousal and wakefulness)
Also appears to act on catecholamine neurotransmitters (norepinephrine and epinephrine)
Tolerance develops due to upregulation of adenosine receptors
Withdrawal symptoms after heavy use (upwards of 500mg/day)
Headache, fatigue, reduced alertness, sleepiness
Note that nicotine increases the metabolic rate of caffeine
So if you try to quit smoking, decrease your coffee consumption!
28: Psychostimulants Nicotine
Normal doses are similar to caffeine in psychostimulant effects
Reaction time
Sustained attention
Motor tracking
Short-term memory retrieval
Reduction of transient aversive states (boredom, anxiety)
These benefits are largely only seen in habitual users
Has a biphasic effect such that it can be either stimulating or anxiolytic depending on the dosage
Users titrate dosage to achieve desired effect
29: Psychostimulants Nicotine (cont.)
Nicotinic Ach receptor agonist
These are often presynaptic autoreceptors, leading to increased neurotransmission in a variety of neurotransmitter systems
Withdrawal symptoms are quite aversive
Irritability
Hunger
Sleep disturbance
GI disturbances
Drowsiness
Headache
Impairment of concentration, judgment, and psychomotor performance
Much of the reinforcing properties of nicotine may be due to alleviation of withdrawal
These symptoms do not appear to be directly related to blood-plasma levels of nicotine – probably largely psychological rather than physiological
30: Psychostimulants Amphetamine, etc
Considered to be one of the most abusable drugs
Initially marketed as Benzedrine (“Bennies”), the dextro (d-amphetamine) isomer is considerably more potent and is marketed as Dexedrine
The addition of a methyl group created methamphetamine
Drugs used to treat ADHD (e.g. methylphenidate) are modifications of amphetamine
The idea is that people with ADHD have a chronically under-aroused nervous system
Leads to hyperactivity in order to push CNS activity into the normal range – essentially seeking stimulation
Psychostimulants increase CNS activity so that additional stimulation is not needed
31: Psychostimulants Amphetamine, etc (cont.)
Usually taken orally
Or intranasally in recreational use
Most amphetamines do not vaporize when smoked, although methamphetamine does
Smoking leads to much faster rises in blood plasma levels
Cause increased release of catecholamines
Inhibit MAO
Which inactivates monoamines
High doses can deplete catecholamines
May be responsible for development of tolerance and mood disturbances
32: Psychostimulants Amphetamine, etc (cont.)
Low to moderate doses
Facilitate performance on sustained attention tasks, and those requiring physical quickness or strength
Especially if fatigued
Increased energy, concentration, alertness, self-confidence, and mood
Social interactions may be enhanced
Suppresses appetite
High doses generally interfere with performance
Also can lead to dysphoria, social withdrawal, and depression
33: Psychostimulants Amphetamine, etc (cont.)
Extremely high doses or chronic use can lead to amphetamine-induced psychosis
Almost indistinguishable from paranoid schizophrenia
Simple movements are often repeated for long periods
E.g. continuous chewing, teeth grinding, tongue movements
In animals these are called ‘stereotypies’
Chronic use leads to marked tolerance and, in chronic users, the administration of very high doses
However, chronic use seems to sensitize individuals to stereotyped behaviors and psychosis
34: Psychostimulants Cocaine
No currently accepted medical uses
Although pharmacodynamics differ from amphetamines, the effects are very similar
One study showed that users were unable to distinguish the drugs when both were administered intravenously
Except that cocaine is much shorter acting
Cross-tolerance can develop with amphetamine
Not well absorbed from the GI tract, so it’s usually taken intranasally
Has local anesthetic properties that make it easily distinguishable from substances that do not induce anesthesia
Users will rub a small amount on their gums to check purity
Long-term use can lead to nasal damage due to ischemia
35: Psychostimulants Cocaine (cont.)
Sometimes smoked, but volatilization degrades it, reducing potency
Consequently a method for converting it to an alkaloid was developed
This is crack, which has a much more rapid onset
Often combined with alcohol
Results in higher plasma concentrations of cocaine
Results in a psychoactive metabolite, cocaethylene
Enhances and prolongs euphoric and cardiovascular effects
Primary action is to inhibit reuptake of DA
Compared to amphetamine, has greater effects on DA and less on NE
36: Psychostimulants Cocaine (cont.)
Can induce very strong psychological dependence in the short term
Effects only last 30 minutes or so, and users may have very strong cravings when the effects wear off
Can induce strong physical dependence as well, but apparently only after several years of continued use
Appears that some of its effects develop tolerance, while other sensitize
This is all pretty unclear
One theory is that tolerance develops to “liking” of the drug, but there is sensitization to “wanting”
37: Opioids (Narcotics) All extracts of the opium poppy, and related synthetic compounds, are referred to as opiates, opioids, or narcotics
These drugs all act on receptors for endorphins (endogenous morphine), enkephalins, and dynorphins
Placebo analgesia has been shown to be due to endorphin release
Heroin is one of the most potent opiates simply because of its pharmacokinetic properties
Passes the BBB much faster than other narcotics
Many opiates are used medically to reduce pain
By far the most potent analgesics available
38: Opioids (Narcotics) In addition to analgesia, they induce euphoria in most users
IV administration results in what is subjectively described as a “whole-body orgasm” or “rush” in most users
Currently no explanation for this phenomenon
Even chronic use has not been observed to damage the body directly
Poor health in abusers is due to poor nutrition, use of adulterated drugs, and concomitant use of other drugs
Side effects include pupil dilation, constipation, reduced sex drive and impotence
Tolerance does not develop to these
Chronic use may permanently change the synthesis and regulation of endorphins
Psychological processes such as pain perception, mood, and pleasure may be permanently altered
39: Opioids (Narcotics) Legal factors (from Grilly, 2002, Drugs and Human Behavior)
40: Hallucinogens Also known as psychotomimetics or psychedelics
Four major classes
Monoamine-related (e.g. LSD, psilocybin, MDMA, DMT)
Cannibinoids (marijuana derivatives)
Anticholinergics (e.g. Belladonna)
Dissociative anesthetics (e.g. phencyclidine, ketamine)
Recreational use appears to occur because of effects on consciousness and perception, rather than any direct reward properties of these drugs
Potency of monoamine hallucinogens is strongly predicted by their affinity for 5-HT2A receptors
41: Hallucinogens LSD and related compounds
Hofmann (1979), LSD: My Problem Child
Following this, it was thought LSD could elucidate the neurochemical basis of psychosis
This failed
Was then used as an adjunct to psychotherapy
One study of over 100 alcoholics reported that over half of those in the high-dose LSD treatment group were still abstaining 6 months later
Other work showed that terminal cancer patients had improvements in physical and emotional status after LSD treatment
Anecdotal reports indicate that it was popular in academia in the 50’s and 60’s
It became prevalent in youth culture and became to be seen as a public health problem, and was made illegal
42: Hallucinogens LSD and related compounds (cont.)
Effects are incredibly dependent on context and expectations
Users frequently report developing insights that they had never had before
They describe a stripping away of preconceived notions of who they are and the meaning of their existence
Visual, auditory, and tactile hallucinations are common at high doses
Lower doses lead to perceptual distortions
Dysphoric reactions occur, especially with larger doses
User may feel that they’re losing control and may never return to normal
Effects dissipate after 6-12 hours, but a small minority of users may continue to experience mental confusion and perceptual distortions for days or weeks
43: Hallucinogens LSD and related compounds (cont.)
Some evidence that hallucinogens can cause a schizophrenia-like reaction in individuals vulnerable to psychosis
Antipsychotic drugs (used in treating psychosis) can block most of the effects of these drugs
Some users report “flashbacks” weeks or months after use
Not literally a flashback
Altered visual perception such as geometric pseudohallucinations, illusory movement, “tracers”, flashes of color
These have never been experimentally validated, and their cause is unknown (the drug does not stay in the body long enough)
44: Hallucinogens Methylenedioxymethamphetamine (MDMA; “ecstasy”)
Has both amphetamine-like effects and hallucinogenic effects
Initially synthesized by a pharmaceutical company in the 20’s
Reported effects are:
Changes in feelings and emotions
Enhanced communication and empathy
Insight
Euphoria
Perceptual distortions or hallucinations
Transcendental/religious experiences
Potentiates the release of 5-HT and DA
Causes acute depletion of 5-HT in cortex 3-6 hours after administration
An additional depletion may occur days later
45: Hallucinogens MDMA (cont.)
Adverse effects include:
Depression
Unsociability
Irritability
Sleep disturbance
Memory disturbance
Dependence and psychotic reactions appear to be very uncommon
Tolerance to positive effects develop, but sensitization to adverse effects develops
Evidence exists that MDMA destroys axonal processes in serotonergic cells
Some claim that this evidence is controversial, I don’t really know
46: Hallucinogens Cannabinoids
Evidence that it may have been used over 4700 years ago
Marijuana is a plant containing over 400 chemicals, about 60 of which are cannabinoids
Delta-9-tetrahydrocannabinol (THC) is the major psychoactive compound
However, pure THC is reported to be quite unpleasant, so the other active compounds appear to be important
47: Hallucinogens Cannabinoids (cont.)
Set and setting are critical for mood and behavioral effects
Dose-dependent impairment of memory and cognition
Speech can become fragmented, and the speaker often forgets what others have recently said
Loosening of associations
Insight
These may turn out to be mundane or useless once the drug effect is over
Some of the deficits may be due to lack of motivation
Tolerance to the cognitive deficits may also develop
Less detrimental to motor abilities and decision making than alcohol, but still a causal factor in some accidents
Seems to make drivers more cautious, which ameliorates the deleterious effects on motor skills
48: Hallucinogens Cannabinoids (cont.)
Has a sedative-like effect in most people
Dysphoric reactions may occur with high doses
More common with oral administration, probably because the user can’t titrate the dosage as tightly
Appears to have culturally-dependent effects on sexual behavior and appetite
North Americans report increased appetite and enhanced sexual stimulation
Used as a sexual depressant in India
Used as an appetite suppressant in Jamaica
Evidence of effects on attention, memory, and psychomotor skills for 12-24 hours after use
49: Hallucinogens Cannabinoids (cont.)
More than 30 metabolites of THC, and over 20 each of canabinol and cannabidiol
Many of these are psychoactive
At least one is more active than THC
Extremely lipid-soluble, so they remain in the body for weeks or more
Fluidizes cell membranes, similar to the effect of alcohol (but to a lesser degree)
Binds to receptors for a fatty-acid neurotransmitter known as anandamide (ananda is sanskrit for “bliss”)
Only discovered very recently
It was not known that fatty-acids could even be neurotransmitters until the discovery of anandamide
50: Hallucinogens PCP
Powerful anesthetic
Effects
Hallucinations
Feeling of drunkenness and euphoria, “floating”
Distortions of body image
Feelings of depersonalization
Schizophrenia-like psychosis in some cases (maybe as much 1/3!)
Can lead to severe depression and violence
Antagonizes the NMDA receptor
Inhibits 5-HT reuptake
Ketamine is very similar
51: Hallucinogens Anticholinergics
Muscaranic ACh antagonists, as the name implies
E.g. belladonna (atropine), jimson weed (datura), mandrake (mandragora), and henbane
Not controlled substances, because abuse potential is low
Lots of side effects, and potentially lethal (though the safety margin is actually quite high)
Can cause blurred vision and constipation
Can lead to a feeling of “floating”
Or “flying” – some people believe the origin of “witches flying on broomsticks” was because some women in this time would boil belladonna leaves and other plants, and apply them to genital tissue with a wooden implement
