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Ergot

From dankwiki
The ergoline skeleton looks not entirely unlike a cock-n-balls.

Ergot is pronounced ur-git, not er-go. Highly toxic, it ought not be consumed. Properly modified, it has many uses, primarily due to fortuitous similarity between the ergoline skeleton and the monoamide neurotransmitters (e.g. serotonin, dopamine, adrenaline)...

Ergopeptides ergonovine and ergotamine (and their salts) are both original List I controlled precursors under the 1970 Controlled Substances Act. Ergocristine was added to List I in 2010 (see the DEA's 2010-03 Microgram Journal). Derivatives lysergic acid and its amide ("ergine") are Schedule III controlled substances under the CSA, and ergine is a Class A precursor in the United Kingdom. Subsequent derivative lysergic acid diethylamide is an original Schedule I controlled substance, and its functional analogues (any chemical "substantially similar", as if that had any kind of precise meaning) are treated as Schedule I due to the 1986 Federal Analogue Act. So there's clearly something worth knowing about ergot!

Some basic terminology

  • Ergot: fungi of the genus Claviceps. All Claviceps species are ergot. The most well-known member is Claviceps purpurea (Latin purpuro, purple, "to adorn/beautify"), the rye ergot fungus, which is parasitic on grasses and cereals (especially rye, Secale cereale).
    • A Claviceps spore infects a flowering grass or cereal's floret. Upon connection to the vascular bundle, soft white sphacelia tissue develops. This hardens and dries into a sclerotium in the destroyed floret's husk.
    • Alkaloids and lipids accumulate in the sclerotium. Dry, mature claviceps purpurea sclerotium consist of about 2% ergot alkaloids by weight. Claviceps africana also contains substantial alkaloids.
    • Petri-grown Claviceps sees best results with potato dextrose or malt extract agar.
  • Alkaloid: Basic (high-pH) naturally-occurring organic compounds containing nitrogen. The "true alkaloids" are biosynthesized from amino acids and contain nitrogen in a heterocycle (a cyclic structure containing more than one element).
    • Indole: The aromatic heterocycle C8H7N. Bicyclic pair of benzene (C6H6) and pyrrole (C4H4NH) sharing an edge. A biosynthetic precursor to the indole alkaloids, including the amino acid tryptophan and 3-indolepropionic acid (IPA).
    • Tryptophan: An essential amino acid (one which cannot be biosynthesized in humans), and a precursor in humans of serotonin, melatonin, and vitamin B3. Clostridium sporogenes in the human gut metabolizes tryptophan into indole.
    • Ergoline: the tetracyclic structural skeleton (C14H16N2) shared by ergoline alkaloids. Also a tanning bed by JK Products (pronounced differently).

Ergoline path (biosynthesis of the ergot alkaloids)

Orange indicates alternate branch paths. Green is common to all ergot species, blue is species-specific.

The road to the ergolines begins with L-tryptophan and culminates in D-lysergic acid. The ergoline skeleton is complete in agroclavine (and indeed apparent in its three sibling daughters of chanoclavine). Note that if one is interested in the water-soluble lysergamides, ergopeptines are not a necessary precursor. Ergolines are generally classified as one of:

  • Clavines (not generally psychoactive)
  • Ergopeptines (ergopeptides). Water-insoluble.
    • Ergotoxines: ergocristine, ergocornine, ɑ- and β-ergocryptine
    • Ergotamine group: ergotamine, ergovaline, ɑ- and β-ergosine
  • Lysergamides (lysergic acid amides). Water-soluble. Of particular interest are:
    • Ergine (LSA, D-lysergic acid amide)
    • LSD-25 (LSD, D-lysergic acid diethylamide)

Note that ergine occurs naturally in some vines of the Convolvulaceae family (Hawaiian baby rosebud aka Argyreia nervosa, morning glory aka Ipomoea tricolor, and ololiúqui aka Ipomoea corymbosa), and is thus an ergoline alkaloid. There is no known natural source of the synthetic LSD-25. LSA is a mild psychedelic. LSD is one of the most potent psychedelics known to man.

  • L-Tryptophan C11H12N2O2 -> (prenylation via DMAPP from mevalonic acid, catalyzed by DMATS)
    • DMAT(S): dimethylallyltryptophan (synthetase)
  • 4-L-DMAT -> (N-methylation via SAM, catalyzed by EasF)
  • 4-DMA-L-abrine -> (decarboxylation+oxidation via EasC, catalyzed by EasE)
  • Chanoclavine-I -> (oxidation via EasD)
  • Chanoclavine-I-aldehyde (a D2 dopamine receptor stimulant) ->
  • Agroclavine ->
  • D-Lysergic acid (DLA).

Chanoclavine-I-aldehyde branches to festuclavine, pyroclavine, and cycloclavine (in addition to agroclavine), leading to the dihydroergopeptides and fumigaclavines. In addition to DLA, agroclavine branches to emiloclavine (also seen as emyloclavine) and thus paspalic acid.

Paspalic acid

Paspalic acid is an isomer of lysergic acid, and will spontaneously convert. Efficient isomerization can be achieved using 2N sodium hydroxide or 0.5N potassium hydroxide. In 1999, Jean-Claude Gaullier reported 59.3% RRi with NaOH (6.8% iso-LA) and 49.8% RRi with KOH (1% iso-LA).

D-lysergic acid

Lysergic: discovered via hydrolysis of ergotamine. A Table I precursor under the UN Convention Against Psychotropic Substances and a Schedule III controlled substance. About 15 tons of DLA (also seen as (+)-lysergic acid) are legitimately manufactured each year, primarily from submerged fermentation of special strains of Calviceps purpurea but also from field harvests.

The ergopeptides are biosynthetic derivatives of DLA, but DLA is a synthetic derivative of the ergopeptides. DLA was first isolated by hydrolysis of ergot alkaloids in the 1930s (Jacobs & Craig, "The Ergot Alkaloids: II. The Degradation of Ergotinine with Alkali. Lysergic Acid", Journal of Biological Chemistry 1934). It was first synthesized by Woodward in 1956 starting from 3ß-carboxyethylindole, and numerous processes have been published since: see this 2022 review for full details. The manufacture of LSD requires DLA, which has been historically hydrolyzed from bulk ergot alkaloids due to the difficulty of other syntheses. Controlled biosynthesis ought cease at DLA; should you have the opportunity to acquire DLA, you're ready to go to town and/or prison.

Stereoisomers

D-lysergic acid diethylamide

Hoffman first synthesized LSD ("Lysergsäurediethylamid") 1938-11-16 at Sandoz Pharmaceuticals. On 1943-04-19, he accidentally ingested about 250 micrograms, and discovered its potent effects. It was the twenty-fifth substance synthesized in a program of systematically exploring the ergot alkaloids, hence the name LSD-25.

Production from DLA

Pharmacokinetics

External links

I'm not going to link to all the various papers and patents for synthesizing DLA, as they're well-covered by review articles.