Mescaline

Mescaline
	File:Mescaline Structural Formula.svg
	File:Mescaline-3d-CPK.png
Systematic (IUPAC) name
	2-(3,4,5-trimethoxyphenyl)ethanamine
Clinical data
AHFS/Drugs.com	entry
Pregnancy; category	US: C (Risk not ruled out); ;
Legal status	AU: S9 (Prohibited); CA: Schedule III; DE: Anlage I (Controlled); UK: Class A; US: Schedule I;
Routes of; administration	Oral, intravenous
Pharmacokinetic data
Biological half-life	6 hours
Identifiers
CAS Number	54-04-6
ATC code	none
PubChem	CID: 4076
ChemSpider	3934
UNII	RHO99102VC
KEGG	C06546
ChEBI	CHEBI:28346
ChEMBL	CHEMBL26687
Synonyms	3,4,5-trimethoxyphenethylamine
Chemical data
Formula	C11H17NO3
Molecular mass	211.257 g/mol
	SMILES O(c1cc(cc(OC)c1OC)CCN)C ;
	InChI InChI=1S/C11H17NO3/c1-13-9-6-8(4-5-12)7-10(14-2)11(9)15-3/h6-7H,4-5,12H2,1-3H3 ; Key:RHCSKNNOAZULRK-UHFFFAOYSA-N ;
Physical data
Melting point	35 to 36 °C (95 to 97 °F)
Boiling point	180 °C (356 °F)
(verify)

Mescaline, or 3,4,5-trimethoxyphenethylamine, is a naturally occurring psychedelic alkaloid of the phenethylamine class, known for its hallucinogenic effects similar to those of LSD and psilocybin.

It occurs naturally in the peyote cactus (Lophophora williamsii),^[1] the San Pedro cactus^[2] (Echinopsis pachanoi) and in the Peruvian torch (Echinopsis peruviana), and as well in a number of other members of the Cactaceae plant family. It is also found in small amounts in certain members of the Fabaceae (bean) family, including Acacia berlandieri.^[3]

Laboratory synthetic mescaline. Biosynthesized by peyote, this was the first psychedelic compound to be extracted and isolated.^[4]

History and usage

Peyote has been used for at least 5700 years by Native Americans in Mexico.^[5] Europeans noted use of peyote in Native American religious ceremonies upon early contact, notably by the Huichols in Mexico. Other mescaline-containing cacti such as the San Pedro have a long history of use in South America, from Peru to Ecuador.

In traditional peyote preparations, the top of the cactus is cut at ground level, leaving the large tap roots to grow new heads. These heads are then dried to make disc-shaped buttons. Buttons are chewed to produce the effects or soaked in water to drink. However, the taste of the cactus is bitter, so contemporary users will often grind it into a powder and pour it in capsules to avoid having to taste it. The usual human dosage is 200–400 milligrams of mescaline sulfate or 178–356 milligrams of mescaline hydrochloride.^[6] The average 76 mm (3.0 in) button contains about 25 mg mescaline.^[7]

Mescaline was first isolated and identified in 1897 by the German chemist Arthur Heffter^[8] and first synthesized in 1919 by Ernst Späth.^[9]

In 1955, English politician Christopher Mayhew took part in an experiment for BBC's Panorama, in which he ingested 400 mg of mescaline under the supervision of psychiatrist Humphry Osmond. Though the recording was deemed too controversial and ultimately omitted from the show, Mayhew praised the experience, calling it "the most interesting thing I ever did".^[10]

Potential medical usage

Mescaline has a wide array of suggested medical usage, including treatment of alcoholism^[11] and depression.^[12] However, its status as a Schedule I controlled substance in the Convention on Psychotropic Substances limits availability of the drug to researchers. Because of this, very few studies concerning mescaline's activity and potential therapeutic effects in humans have been conducted since the early 1970s.

Notable users

Aldous Huxley described his experience with mescaline in the essay The Doors of Perception.
The sex psychologist Havelock Ellis also tried mescaline.^[13]^[14]
Hunter S. Thompson wrote an extremely detailed account of his first use of mescaline in First Visit with Mescalito, appearing in his book Songs of the Doomed.
Psychedelic research pioneer Alexander Shulgin said he was first inspired to explore psychedelic compounds by a mescaline experience.^[15]
Bryan Wynter produced Mars Ascends after trying the substance his first time.^[16]
According to Paul Strathern's book Sartre in 90 Minutes, Jean-Paul Sartre experimented with mescaline, and his description of ultimate reality (in Nausea) as "viscous and obscene" was written under mescaline's influence.
George Carlin mentions mescaline use during his youth while being interviewed.^[17]
Carlos Santana told in 1989 about his mescaline use in a Rolling Stone interview.^[18]
Michael Cera used real mescaline for the movie Crystal Fairy & the Magical Cactus, as expressed in an interview.^[19]
Melissa Joan Hart: "I experimented with weed, Ecstasy, mushrooms and mescaline for about a year and a half," Hart tells Life and Style magazine.^[20]

Biosynthesis of mescaline

Mescaline is biosynthesized from tyrosine or a hydroxylated phenylalanine. In Lophophora williamsii, dopamine converts into mescaline in a biosynthetic pathway involving m-O-methylation and aromatic hydroxylation.^[21]

File:Mescaline biosynthetic pathways.svg

Tyrosine and phenylalanine serve as the metabolic precursors to synthesis of mescaline. Tyrosine can either undergo a decarboxylation via tyrosine decarboxylase to generate tyramine and subsequently undergo an oxidation at carbon 3 by a monophenol hydroxylase or first be hydroxylated by tyrosine hydroxylase to form L-DOPA and decarboxylated by DOPA decarboxylase. These create dopamine, which then experiences methylation by a catechol-O-methyltransferase (COMT) by an S-adenosyl methionine (SAM)-dependent mechanism. The resulting intermediate is then oxidized again by a hydroxylase enzyme, likely monophenol hydroxylase again, at carbon 5, and methylated by COMT. The product, methylated at the two meta positions with respect to the alkyl substituent, experiences a final methylation at the 4 carbon by a guaiacol-O-methyltransferase, which also operates by a SAM-dependent mechanism. This final methylation step results in the production of mescaline.

Phenylalanine serves as a precursor by first being converted to L-tyrosine by L-amino acid hydroxylase. Once converted, it follows the same pathway as described above.^[22]^[23]

Synthetic mescaline

Mescaline was first synthesized in 1919 by Ernst Späth from 3,4,5-trimethoxybenzoyl chloride.^[24] Subsequent to this, numerous approaches utilizing different starting materials have been developed. Notable examples include the following:

Hofmann rearrangement of 3,4,5-trimethoxyphenylpropionamide.^[25]
Cyanohydrin reaction between potassium cyanide and 3,4,5-Trimethoxybenzaldehyde followed by acetylation and reduction.^[26]^[27]
Henry reaction of 3,4,5-Trimethoxybenzaldehyde with nitromethane followed by nitro compound reduction of ω-nitrotrimethoxystyrene.^[28]^[29]^[30]^[31]^[32]^[33]^[34]
Ozonolysis of elemicin followed by reductive amination.^[35]
Ester reduction of Eudesmic acid's methyl ester followed by halogenation, Kolbe nitrile synthesis, and nitrile reduction.^[36]^[37]^[38]
Amide reduction of 3,4,5-trimethoxyphenylacetamide.^[39]

Pharmacokinetics

Tolerance builds with repeated usage, lasting for a few days. Mescaline causes cross-tolerance with other serotonergic psychedelics such as LSD and psilocybin.^[40]

About half the initial dosage is excreted after 6 hours, but some studies suggest that it is not metabolized at all before excretion. Mescaline appears to not be subject to metabolism by CYP2D6^[41] and between 20% and 50% of mescaline is excreted in the urine unchanged, and the rest being excreted as the carboxylic acid form of mescaline, a likely result of MAO degradation.^[42] The LD₅₀ of mescaline has been measured in various animals: 212 mg/kg i.p. (mice), 132 mg/kg i.p. (rats), and 328 mg/kg i.p. (guinea pigs).

Behavioral and non-behavioral effects

Mescaline induces a psychedelic state similar to those produced by LSD and psilocybin, but with unique characteristics. Subjective effects may include altered thinking processes, an altered sense of time and self-awareness, and closed- and open-eye visual phenomena.

Prominence of color is distinctive, appearing brilliant and intense. Recurring visual patterns observed during the mescaline experience include stripes, checkerboards, angular spikes, multicolor dots, and very simple fractals that turn very complex. Aldous Huxley described these self-transforming amorphous shapes as like animated stained glass illuminated from light coming through the eyelids. Like LSD, mescaline induces distortions of form and kaleidoscopic experiences but they manifest more clearly with eyes closed and under low lighting conditions.

As with LSD, synesthesia can occur especially with the help of music.^[43] An unusual but unique characteristic of mescaline use is the "geometricization" of three-dimensional objects. The object can appear flattened and distorted, similar to the presentation of a Cubist painting.^[44]

Mescaline elicits a pattern of sympathetic arousal, with the peripheral nervous system being a major target for this substance.^[43] Effects typically begin a while after ingestion, and may last a long time depending on dosage.

Mechanism of action

Mescaline is produced when products of natural mammalian catecholamine-based neuronal signalling such as dopamine and serotonin are subjected to additional metabolism via methylation, and mescaline's hallucinogenic properties stem from its structural similarities with these two neurotransmitters. In plants, this compound may be the end-product of a pathway utilizing catecholamines as a method of stress response, similar to how animals may release compounds such as cortisol when stressed. The in vivo function of catecholamines has not been investigated, but they may function as antioxidants, as developmental signals, and as integral cell wall components that resist degradation from pathogens. The deactivation of catecholamines via methylation produces alkaloids such as mescaline.^[22]

Mescaline acts similarly to other psychedelic agents.^[45] It binds to and activates the serotonin 5-HT_2A receptor with a high affinity.^[46] How activating the 5-HT_2A receptor leads to psychedelia is still unknown, but it likely somehow involves excitation of neurons in the prefrontal cortex.^[47] Mescaline is also known to bind to and activate the serotonin 5-HT_2C receptor.^[48]

Difluoromescaline and trifluoromescaline are more potent than mescaline, as is its amphetamine homologue trimethoxyamphetamine.^[49]^[50]

Legality

United States

In the United States, mescaline was made illegal in 1970 by the Comprehensive Drug Abuse Prevention and Control Act.^[51] The drug was prohibited internationally by the 1971 Convention on Psychotropic Substances^[52] and is categorized as a Schedule I hallucinogen by the CSA. Mescaline is legal only for certain religious groups (such as the Native American Church) and in scientific and medical research. In 1990, the Supreme Court ruled that the state of Oregon could bar the use of mescaline in Native American religious ceremonies. The Religious Freedom Restoration Act (RFRA) in 1993 allowed the use of peyote in religious ceremony but, in 1997, the Supreme Court ruled that the RFRA is unconstitutional when applied against states. However, in a subsequent case, the Court held that the government had not carried the burden under the Religious Freedom Restoration Act of showing a compelling interest that allowed no exception to the ban on the use of the drug to accommodate a sincere religious practice.^[53] Thus, the current state of the law is that, while the federal government may not restrict use of peyote in ceremony, individual states do have a right to restrict its use.^[54] Many states, including the state of Utah, have legalized peyote usage with "sincere religious intent", or within a religious organization,^{[citation needed]} regardless of race.^[55]

While mescaline containing cacti of the genus Echinopsis are technically controlled substances under the Controlled Substances Act, they are commonly sold publicly as ornamental plants.

United Kingdom

In the United Kingdom, mescaline in purified powder form is a Class A drug. However, dried cactus can be bought and sold legally.^[56]

Other countries

Mescaline is considered a schedule 9 substance in Australia under the Poisons Standard (October 2015).^[57] A schedule 9 substance is classified by a "Substances with a high potential for causing harm at low exposure and which require special precautions during manufacture, handling or use. These poisons should be available only to specialised or authorised users who have the skills necessary to handle them safely. Special regulations restricting their availability, possession, storage or use may apply." ^[57]

The peyote cacti and other mescaline-containing plants such as San Pedro are illegal in Western Australia, Queensland, and the Northern Territory, whilst in other states such as Tasmania, Victoria and New South Wales, they are legal for ornamental and gardening purposes.

In Canada, France, The Netherlands and Germany, mescaline in raw form and dried mescaline-containing cacti are considered an illegal drug. However, anyone may grow and use peyote, or Lophophora williamsii, as well as Echinopsis Pachanoi and Echinopsis Peruviana without restriction, as it is specifically exempt from legislation.^[1] In Canada, mescaline is classified as a schedule III drug under the Controlled Drugs and Substances Act, whereas peyote is exempt.^[58]

References

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↑ http://mescaline.com/exp/
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↑ Ellis, Havelock. "Mescal: A New Artificial Paradise," The Contemporary Review, Vol. LXXIII, 1898.
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↑ Bird, Michael. "100 Ideas that Changed Art." London: Laurence King Publishing, 2012. Print.
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↑ Rolling Stone 1989, Santana at Woodstock
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↑ ^57.0 ^57.1 Poisons Standard October 2015 https://www.comlaw.gov.au/Details/F2015L01534
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External links

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[4] ttp://mescaline.com/exp/

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[13] Ellis, Havelock. "Mescal: A New Artificial Paradise," The Contemporary Review, Vol. LXXIII, 1898.

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[16] Bird, Michael. "100 Ideas that Changed Art." London: Laurence King Publishing, 2012. Print.

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[18] Rolling Stone 1989, Santana at Woodstock

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[Poisons_Stanrard-57] 57.0 ^57.1 Poisons Standard October 2015 https://www.comlaw.gov.au/Details/F2015L01534

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v t e Phenethylamines
Phenethylamines	Psychedelics: 25B-NBOMe 25C-NBOMe 25D-NBOMe 25I-NBOMe 25N-NBOMe 2C-B 2C-B-FLY βk-2C-B 2C-C 2C-D 2C-E 2C-EF 2C-F 2C-G 2C-I 2C-N 2C-P 2C-SE 2C-T 2C-T-2 2C-T-4 2C-T-7 2C-T-8 2C-T-9 2C-T-13 2C-T-15 2C-T-16 2C-T-17 2C-T-21 2C-TFM 2C-YN Allylescaline DESOXY Escaline Isoproscaline Jimscaline Macromerine MEPEA Mescaline Metaescaline Methallylescaline Proscaline Psi-2C-T-4 TCB-2 Stimulants: Phenylethanolamine Hordenine Phenethylamine α-Methylphenethylamine (amphetamine) β-Methylphenethylamine m-Methylphenethylamine N-Methylphenethylamine o-Methylphenethylamine p-Methylphenethylamine Entactogens: Lophophine MDPEA MDMPEA Others: BOH DMPEA
Amphetamines	Psychedelics: 3C-BZ 3C-E 3C-P Aleph Beatrice Bromo-DragonFLY D-Deprenyl DMA DMCPA DMMDA DOB DOC DOEF DOET DOI DOM DON DOPR DOTFM Ganesha MMDA MMDA-2 Psi-DOM TMA TeMA Stimulants: 2-FA 2-FMA 3-FA 3-FMA Acridorex Alfetamine Amfecloral Amfepentorex Amphetamine (Dextroamphetamine, Levoamphetamine) Amphetaminil Benfluorex Benzphetamine Cathine Clobenzorex Dimethylamphetamine Ephedrine Etilamfetamine Fencamfamine Fencamine Fenethylline Fenfluramine (Dexfenfluramine, Levofenfluramine) Fenproporex Flucetorex Fludorex Formetorex Furfenorex Gepefrine 4-Hydroxyamphetamine Iofetamine Isopropylamphetamine Lefetamine Lisdexamfetamine Mefenorex Metaraminol Methamphetamine (Dextromethamphetamine, Levomethamphetamine) Methoxyphenamine MMA Morforex Norfenfluramine L -Norpseudoephedrine N,alpha-Diethylphenylethylamine Oxifentorex Oxilofrine Ortetamine PBA PCA Phenpromethamine PFA PFMA PIA PMA PMEA PMMA Phenylpropanolamine Pholedrine Prenylamine Propylamphetamine Pseudoephedrine Sibutramine Tiflorex Tranylcypromine Xylopropamine Zylofuramine Entactogens: 4-FA 4-FMA 4-MA 4-MMA 4-MTA 5-IT 5-APB 5-APDB 5-EAPB 5-MAPB 5-MAPDB 6-APB 6-APDB 6-Chloro-MDMA 6-EAPB 6-MAPB 6-MAPDB EDA IAP MDA MDEA MDHMA MDMA MDOH MMDMA Naphthylaminopropane TAP Others: Amiflamine DFMDA Selegiline (also D -Deprenyl)
Phentermines	Stimulants: Chlorphentermine Cloforex Clortermine Etolorex Mephentermine Pentorex Phentermine Entactogens: MDPH MDMPH
Cathinones	Stimulants: 3-FMC 4-MC 4-BMC 4-CMC 4-EMC 4-FMC 4-MEC 4-MeMABP 4-MPD Amfepramone Benzedrone Brephedrone Buphedrone Bupropion Cathinone Dimethylcathinone Ethcathinone Eutylone Hydroxybupropion Methcathinone Methedrone NEB Pentedrone Pentylone Radafaxine Entactogens: 3,4-DMMC 3-MMC Butylone Ethylone Methylone Methylenedioxycathinone Mephedrone
Phenylisobutylamines	Entactogens: 4-CAB 4-MAB Ariadne BDB Butylone EBDB Eutylone MBDB Stimulants: Phenylisobutylamine
Phenylalkylpyrrolidines	Stimulants: α-PBP α-PHP α-PPP α-PVP MDPBP MDPPP MDPV 4-MePBP 4-MePHP 4-MePPP MOPPP MOPVP MPBP MPHP MPPP Naphyrone PEP Prolintane Pyrovalerone
Catecholamines (and close relatives)	6-FNE 6-OHDA a-Me-DA a-Me-TRA Adrenochrome Ciladopa D -DOPA (Dextrodopa) Dimetofrine Dopamine Epinephrine Epinine Etilefrine Ethylnorepinephrine Fenclonine Ibopamine Isoprenaline Isoetarine L -DOPA (Levodopa) L -DOPS (Droxidopa) L -Phenylalanine L -Tyrosine m-Tyramine Metanephrine Metaraminol Metaterol Metirosine Methyldopa N,N-Dimethyldopamine Nordefrin (Levonordefrin) Norepinephrine Norfenefrine (m-Octopamine) Normetanephrine Orciprenaline p-Octopamine p-Tyramine Phenylephrine Synephrine
Miscellaneous	AL-LAD Amidephrine Arbutamine Cafedrine Denopamine Desvenlafaxine Diphenidine Dizocilpine Dobutamine Dopexamine Ephenidine Etafedrine ETH-LAD Famprofazone Fluorolintane Hexapradol IP-LAD Lysergic acid amide Lysergic acid 2-butyl amide Lysergic acid 2,4-dimethylazetidide Lysergic acid diethylamide Methoxamine Methoxphenidine MT-45 PARGY-LAD Phenibut PRO-LAD Pronethalol Salbutamol (Levosalbutamol) Theodrenaline Thiamphenicol UWA-101

Mescaline

Contents

History and usage

Potential medical usage

Notable users

Biosynthesis of mescaline

Synthetic mescaline

Pharmacokinetics

Behavioral and non-behavioral effects

Mechanism of action

Legality

United States

United Kingdom

Other countries

See also

References

External links

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