Chemistry:DMMDA

DMMDA

Legal status
Legal status	CA: Schedule I UK: Class A
Identifiers
IUPAC name 1-(4,7-Dimethoxy-1,3-benzodioxol-5-yl)propan-2-amine
CAS Number	15183-13-8 Y
ChemSpider	21106291 Y
UNII	Y6T4R5Z3VU
ChEMBL	ChEMBL126311 Y
Chemical and physical data
Formula	C12H19NO4
Molar mass	241.287 g·mol−1
3D model (JSmol)	Interactive image
SMILES CC(N)Cc1cc(OC)c2OCOc2c1OC
InChI InChI=1S/C12H17NO4/c1-7(13)4-8-5-9(14-2)11-12(10(8)15-3)17-6-16-11/h5,7H,4,6,13H2,1-3H3 Y Key:GRGRGLVMGTVCNZ-UHFFFAOYSA-N Y
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2,5-Dimethoxy-3,4-methylenedioxyamphetamine (DMMDA) is a psychedelic drug of the phenethylamine and amphetamine chemical classes.^[1] It was first synthesized by Alexander Shulgin and was described in his book PiHKAL.^[1] Shulgin listed the dosage as 30–75 mg and the duration as 6–8 hours.^[1] He reported DMMDA as producing LSD-like images, mydriasis, ataxia, and time dilation.^[1]

Pharmacology

The mechanism behind DMMDA's hallucinogenic effects has not been specifically established, however Shulgin describes that a 75 milligram dose of DMMDA is equivalent to a 75–100 microgram dose of LSD. LSD is a known 5-HT_2A partial agonist.^[1]

Chemistry

Shulgin explains in his book that DMMDA has 6 isomers similar to TMA.^[1] DMMDA-2 is the only other isomer that has been synthesized as of yet. DMMDA-3 could be made from exalatacin (1-allyl-2,6-dimethoxy-3,4-methylenedioxybenzene). Exalatacin can be found in the essential oil of both Crowea exalata and Crowea angustifolia var. angustifolia.^[2] In other words, exalatacin is an isomer of both apiole and dillapiole, which can be used to make DMMDA and DMMDA-2 respectively. Exalatacin is almost identical to apiole and dillapiole, but differs from them in its positioning of its methoxy groups, which are in the 2 and 6 positions.^[2] Additionally, yet another isomer of DMMDA could be made from pseudo-dillapiole or 4,5-dimethoxy-2,3-methylenedioxyallylbenzene.^[3]

Precursors in the synthesis of DMMDA and analogs

Synthesis

Shulgin describes the synthesis of DMMDA from apiole in his book PiHKAL.^[1] Apiole is subjected to an isomerization reaction to yield isoapiole by adding to solution of ethanolic potassium hydroxide and holding the solution at a steam bath.^[1] The isoapiole is then nitrated to 2-nitro-isoapiole or 1-(2,3-dimethoxy-3,4-methylenedioxyphenyl)-2-nitropropene by adding it to a stirred solution of acetone and pyridine at ice-bath temperatures and treating the solution with tetranitromethane. The pyridine acts as a catalyst in this reaction.^[1] The 2-nitro-isoapiole is finally reduced to freebase DMMDA by adding it to a well-stirred and refluxing suspension of diethylether and lithium aluminium hydride under an inert atmosphere (e.g. helium).^[1] Finally, the freebase DMMDA converted into its hydrochloride salt.^[1]

Shulgin's synthesis of DMMDA is reasonably unsafe, since it involves the use of tetranitromethane, which is toxic, carcinogenic and prone to detonating.^[4] DMMDA can be made from apiole via other safer methods. Among other methods, DMMDA can be synthesize from apiole via the intermediate chemical 2,5-dimethoxy-3,4-methylenedioxyphenylpropan-2-one or DMMDP2P in the same manner as MDA is made from safrole. DMMDP2P can be made from apiole via a Wacker oxidation with benzoquinone. DMMDP2P can be alternatively made by subjecting apiole to an isomerisation reaction to yield isoapiole followed by a Peracid oxidation and finally a hydrolytic dehydration.^[5] Then the DMMDP2P can then be subjected to a reductive amination with a source of nitrogen, such as ammonium chloride, and a reducing agent, such as sodium cyanoborohydride or an amalgam of mercury and aluminium, to yield freebase DMMDA.^[6]

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  Alexander Shulgin's synthesis of DMMDA.

References

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