Novel psychoactive substances Flashcards
TIMELINE OF DRUG CONTROL
1803: Morphine was first isolated from opium poppy by Friedrich Surturner
1859: Cocaine first isolated by German chemist Albert Niemann
Opium wars – Britain tried to trade Opium in China for financial gain which led to conflict, and this war led to the Pharmacy Act
1868: Pharmacy Act stated that Opium could only be sold by pharmacists and records had to be kept on all sales
1874: Heroin first synthesised by English chemist Alder Wright
1908: Pharmacy Act stated Morphine and Cocaine could only be sold by pharmacists
1912: MDMA synthesised but not trialled on humans so psychoactive effects were unknown
1916: Defence of the Realm Act in initiated to ban the selling of cocaine to soldiers in WW1; first time the Home Office got involved
1928: Dangerous Drugs Act criminalised the possession of cannabis – responsibility moved from the Health Ministry to the Home Office
1929: Mephedrone synthesised but only really started getting used in early 2000s
1938: LSD synthesised by Albert Hoffman
1964: Drug Prevention of Misuse Act – Amphetamines criminalised and amended in 1966 to include LSD
1971: Misuse of Drugs Act (Alexander Shulgin experimented on himself with designer psychedelics including MDMA in the 60s-70s)
1977: MDMA made illegal in UK
2003: Mephedrone re-synthesised and became available to the public
The Misuse of Drugs Act in 1971 categorised drugs into the Class A-C system and prosecution takes place according to the category of the specific drug
This led to chemists finding loopholes:
1. Chemists would synthesise a new drug – it would have a slightly different structure and be unscheduled so therefore legal
2. Drug sold legally until the government managed to get it into the controlled drugs category – it would then become illegal
3. A new drug would be synthesised, and the cycle continues
4. Was only put to a stop with the Psychoactive Substances Act in 2016
What are novel psychoactive substances. State the important act established in 2016
THE PSYCHOACTIVE SUBSTANCES ACT 2016
Novel psychoactive substances (formerly “legal highs”) are compounds designed to mimic existing established recreational drugs e.g. Spice and Black Mamba – synthetic cannabinoids.
Legislation varies internationally - in the UK it’s illegal to distribute or sell novel psychoactive substances but possession isn’t a criminal offence
The Act criminalises any substance intended for human consumption with a psychoactive effect.
Differs from the Misuse of Drugs Act in 1971 as it covers substances by virtue of their psychoactive properties instead of the identity of the drug or its chemical structure:
Novel psychoactive substances can be grouped into four main categories…
- Stimulants – includes cathinone family, such as mephedrone
- They increase synaptic levels of serotonin, dopamine and/or noradrenaline to produce a sense of euphoria and wellbeing “a high”
- Commonly swallowed or snorted - Depressants – includes opioids and benzodiazepines
- Opioids have the potential for much longer durations of action
- Benzodiazepines have sedative, anxiolytic, hypnotic and anticonvulsant properties with some having a long duration of action
- Commonly smoked, swallowed, injected or snorted - Hallucinogens – includes psychedelics and dissociatives
- Psychedelics produce perceptual alterations and quasi-mystical experiences, with some having stimulant properties
- Dissociatives produce a euphoric, dissociated state with a perception of disconnection from physical body
- Both are commonly injected and swallowed with dissociatives also being snorted - Cannabinoids – includes spice, black mamba
- Typically, full agonists of cannabinoid receptors, producing a pleasant state of relaxation and of feeling stoned
- Commonly smoked and inhaled
how do you classify a psychoactive substance
PSYCHOACTIVE SUBSTANCE: any substance which is capable of producing a psychoactive effect in a person who consumes it
A substance produces a psychoactive effect if ‘by stimulating or depressing the person’s central nervous system, it affects the person’s mental functioning or emotional state’.
Psychoactive properties are assessed in different ways, with the first line of response being:
- RECEPTOR BINDING ASSAY
- Determines whether the drug binds to a receptor - FUNCTIONAL ASSAY
- Determines whether the drug activates a response following an interaction with the receptor
Mammalian cell lines (e.g. HEK293T cells) are transfected with a receptor (e.g. GABAA)
This causes receptor to be expressed by the cell line
If the receptor is activated by addition of the drug = an intracellular cascade is triggered (usually calcium release)
The response is then measured to identify the effect of the drug
The receptors covered within The Act include:
- CB1: Cannabis and synthetic cannabinoids
- GABAA: Benzodiazepines
- 5-HT2A: Psychedelics
- NMDA: dissociative/hallucinogenic drugs (ketamine)
- Mu-opioid: opioid drugs (heroin)
- Monoamine transporters: psychostimulants e.g. MDMA, cocaine
In some cases, drugs (nitrous oxide, solvents) aren’t responsive to these assays so alternative sources of evidence are required: - PUBLISHED LITERATURE
- Wealth of evidence available both in vitro and in vivo studies by academic researchers which can be referenced by expert witnesses - WITNESS ACCOUNTS
- Accounts from a witness of behaviour exhibited by an individual who has taken the substance may also be relevant
The Act changed the drugs which were now classed as legal and illegal:
- Before the Act: illegal drugs only included classes A-C and Schedules 1-5 whereas everything else was legal
- After the Act: alcohol, caffeine, food, nicotine, medicinal products and controlled substances (depending on who they were being used by) were legal and everything else was illegal
What was the effect of introducing the 2016 psychoactive substances act
before the act: A total of 113 shops were found to be selling novel psychoactive substances on the internet in the English language and shipping to the UK
Only 52% remained open – 65% of these were based overseas, 19% removed them and became a ‘headshop’ and 16% were inactive
Only 24% of the UK-registered websites remained open after the ban
It’s unknown whether the UK retailers have ceased selling or have been displaced to underground markets – street level dealing or the hidden web
Mephadrone
A synthetic cathinone that can be known as ‘bath salts’, ‘plant food’ and ‘meow-meow’
Abused due to their psychostimulant and hallucinogenic effects which are similar to cocaine, MDMA, amphetamines and methamphetamines
Serious side effects – increased heart rate, chest pain, change in body temp, insomnia, amnesia and seizures
Classified as a Class B substance under The Misuse of Drugs Act in April 2010 mainly due to the large media interest it attracted
Mephedrone mechanism of action
Mephedrone is a non-competitive blocker of monoamine transporters – Dopamine transporter (DAT), Serotonin transporter (SERT) and Noradrenaline transporter (NET)
By blocking the transporter = monoamines can no longer be transported back to the presynaptic neurone = causes accumulation of dopamine, serotonin and noradrenaline in the synaptic cleft = increased activation of postsynaptic receptors
What is a good way to predict psychoactive activity, the toxic effects, addiction potential of Mephadrone
The relative serotonin/dopamine (5-HT/DA) activity can be helpful in predicting psychoactive effects, toxic effects and potential for addiction
This is done by monitoring the DAT:SERT ratio
- A low DAT/SERT inhibition ratio (<0.1) = tenfold greater relative 5-HT vs DA activity (MDMA)
- A high DAT/SERT inhibition ratio (>10) = greater relative DA vs. 5-HT activity (Methamphetamine)
High dopamine to serotonin ratio = more likely to lead to addiction as dopamine is the neurotransmitter most associated with reward
Mephedrone falls between MDMA and Methamphetamine ratios which correlates with the psychoactive effects of Mephedrone
What are the behavioural effects of Mephedrone
Mephedrone can cause changes in social behaviour – elated mood, increased impulsivity, psychosis
Chronic use can impair cognitive function
Associated with binging tendencies – compulsion to use and addictive behaviours often seen (correlates with rodent studies)
2C Drugs
In 1991, Alexander Shulgin published PIHKAL (Phenethylamines I Have Known and Loved), A Chemical Love Story
The book detailed synthesis instructions for over 200 psychedelic compounds (including 2C series) including bioassays, dosages and other commentaries
The ‘Shulgin rating scale’ was used to report the subjective effect of psychoactive substances at a given dosage using: +, ++, +++, ++++
2C refers to the two carbons between the amino group and the benzene ring in the chemical structure
Designer substitution to the 2C structure can result in increased hallucinogenic activity e.g. adding methoxy groups at the 2 and 5 positions on the base structure ring or substituting Iodine or Bromine at the 4 position
What is the mechanism of action of 2C drugs
A clear mechanism of action is yet to be established
However, 2C compounds have been found to be partial agonists for different subtypes of 5-HT receptors – specifically 5-HT2A, 5-HT2B and 5-HT2C receptors
2C compounds have also been shown to inhibit SERT and to a lesser extent, NET and DAT but have very low potency with these monoamine transporters
2C-B and 2C-I compounds differ with the halogens in that position
- Alexander Shulgin provided an account of onset and duration of euphoric effects after oral ingestion
- 2C-B had a duration of 4-8 hours with a dosage of 12-24 mg
- 2C-I had a duration of 6-10 hours with a dosage of 14-22 mg
Other approaches being taken by various countries include having a regulatory approach (grant permits and regulate) and having restricted availability (limited points of sale until harms established)
