Buy TMA-2 Cas 1083-09-6

Buy TMA-2 Cas 1083-09-6

2,4,5-Trimethoxyamphetamine (2,4,5-TMA), also known as TMA-2 or as 2,5-dimethoxy-4-methoxyamphetamine (DOMeO), is a psychedelic drug of the phenethylamine and amphetamine families.^[1][2][3] It is one of the trimethoxyamphetamine (TMA) series of positional isomers.^[1][2] The drug is also notable in being the 4-methoxylated member of the DOx (i.e., 4-substituted-2,5-dimethoxyamphetamine) series of drugs.^[1][2]

In his book PiHKAL (Phenethylamines I Have Known and Loved), Alexander Shulgin lists TMA-2’s dose as 20 to 40 mg orally and its duration as 8 to 12 hours.^[1][2][3][5] In earlier publications, it was described that threshold effects occur at a dose of 10 mg orally, an effective dose is 16 to 20 mg orally, its onset of psychoactive effects is after 1 hour, and a plateau of effects occurs from 3 to 6 hours following administration.^[3][6] The drug is much more potent than its positional isomer 3,4,5-trimethoxyamphetamine (3,4,5-TMA, TMA, or TMA-1), which is said to be active at doses of 100 to 250 mg orally and to have a duration of 6 to 8 hours.^[7] However, DOM (2,5-dimethoxy-4-methylamphetamine), the analogue of TMA-2 in which its 4-methoxy group has been replaced with a more lipophilic 4-methyl group, is about 10 times more potent than TMA-2.^[8] TMA-2 has been said to have a sharp dose–response curve, with several additional toxic symptoms occurring at doses of 25 to 30 mg.^[3]

The effects of TMA-2 have been reported to include color and contrast enhancement, closed-eye imagery like kaleidoscopic images, visuals such as visual distortion and movement, auditory enhancement, increased salience of objects in one’s environment, cosmic thinking, time dilation, music and erotic enhancement, confusion, lethargy, laziness, sleepiness, lightheadedness, feeling faintish and actual fainting, brief but repeated periods of amnesia, fear of psychosis, pupil dilation, paresthesia, nausea, vomiting, abdominal cramps, diarrhea, and muscle tremors, among others.^[1][2][3] The drug was described as a “seminal” or “archetypal” psychedelic.^[1]

Combination of TMA-2 with harmaline or ibogaine has been reported to result in long-lasting episodes complicated by severe psychomotor agitation.^[3][6]

TMA-2 activities

Target	Affinity (Ki, nM)
5-HT1A	>10,000
5-HT1B	>10,000
5-HT1D	>10,000
5-HT1E	>10,000
5-HT1F	ND
5-HT2A	57.9–1,300 (Ki) 190–1,860 (EC50Tooltip half-maximal effective concentration) 84–102% (EmaxTooltip maximal efficacy)
5-HT2B	154–307 (Ki) 270 (EC50) 78% (Emax)
5-HT2C	87.7–5,300
5-HT3	>10,000
5-HT4	ND
5-HT5A	>10,000
5-HT6	>10,000
5-HT7	>10,000
α1A, α1B	>10,000
α1D	ND
α2A–α2C	>10,000
β1, β2	>10,000
D1–D5	>10,000
H1	1,407
H2–H4	>10,000
M1, M3, M4	ND
M2, M5	>10,000
TAAR1	>4,400 (Ki) (mouse) 3,100 (Ki) (rat) ND (EC50) (human)
I1	ND
σ1, σ2	ND
SERTTooltip Serotonin transporter	>10,000 (Ki) >100,000 (IC50Tooltip half-maximal inhibitory concentration) >100,000 (EC50) (rat)
NETTooltip Norepinephrine transporter	>10,000 (Ki) >100,000 (IC50) >100,000 (EC50) (rat)
DATTooltip Dopamine transporter	>10,000 (Ki) >100,000 (IC50) >100,000 (EC50) (rat)
MAO-ATooltip Monoamine oxidase A	>100,000 (IC50) (rat)
MAO-BTooltip Monoamine oxidase B	>100,000 (IC50) (rat)
Notes: The smaller the value, the more avidly the drug binds to the site. All proteins are human unless otherwise specified. Refs: [9][10][11][12][13][14][15][16][17]

TMA-2’s affinity (K_i) for the serotonin 5-HT_2A receptor has been found to be 1,300 nM.^[12] Its EC₅₀Tooltip half-maximal effective concentration at the receptor was 190 nM and its E_maxTooltip maximal efficacy was 84%.^[12] The drug was also active at the serotonin 5-HT_2B receptor and, to a much lesser extent, at the serotonin 5-HT_2C receptor.^[12] In an earlier study, its affinities (K_i) were 1,650 nM at the serotonin 5-HT₂ receptor and 46,400 nM at the serotonin 5-HT₁ receptor.^[18][19] TMA-2 is inactive at the monoamine transporters.^[16][12] It was inactive at the mouse trace amine-associated receptor 1 (TAAR1), whereas it bound to the rat TAAR1 with an affinity (K_i) of 3,100 nM and was not assessed at the human TAAR1.^[12]

In terms of metabolism, TMA-2 is known to be at least partially O–demethylated in animals in vivo.^[3][6] It might produce 2,4,5-trihydroxyamphetamine (THA) as a metabolite.^[3] The pharmacokinetics and metabolism of TMA-2 in humans are unknown.^[3][6]

The chemical properties of TMA-2 have been described.^[3]

The chemical synthesis of TMA-2 has been described.^[1]

2,4,5-Trimethoxyamphetamine is very similar in chemical structure to the monoaminergic neurotoxin 6-hydroxydopamine.^[3][6]

A variety of derivatives of TMA-2 have been developed and studied.^[12][20]

TMA-2 was first described in the scientific literature by Viktor Bruckner in 1933.^{[21][2][3][22]} Subsequently, Alexander Shulgin discovered the hallucinogenic effects of TMA-2 in 1962 and published them in 1964.^{[3][21][23][24][2]} The drug was later described in further detail by Shulgin in his 1991 book PiHKAL (Phenethylamines I Have Known and Loved).^[1]

TMA-2 is a controlled substance in Canada.^[25]

TMA-2 is not an explicitly controlled substance in the United States.^[2][4] However, it is a positional isomer of 3,4,5-trimethoxyamphetamine (TMA), and thus may be considered a Schedule I controlled substance in this country similarly to