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Erythrophleine

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Erythrophleine
Names
IUPAC name (1S,4aR,4bS,7E,8R,8aS,9S,10aR)-Tetradecahydro-9-hydroxy-1,4a,8-trimethyl-7--2-oxoethylidene]-1-phenanthrenecarboxylic acid methyl ester
Other names
  • Norcassamidine
Identifiers
CAS Number
3D model (JSmol)
ChemSpider
PubChem CID
UNII
CompTox Dashboard (EPA)
InChI
  • InChI=1S/C24H39NO5/c1-15-16(13-20(27)30-12-11-25-4)7-8-17-21(15)18(26)14-19-23(17,2)9-6-10-24(19,3)22(28)29-5/h13,15,17-19,21,25-26H,6-12,14H2,1-5H3/b16-13+/t15-,17-,18-,19+,21-,23+,24-/m0/s1Key: COAPCKUZMKOWBC-ZEJGPHSTSA-N
SMILES
  • C\12(CC/C1=C\C(=O)OCCNC)3(CCC(3C2O)(C)C(=O)OC)C
Properties
Chemical formula C24H39NO5
Molar mass 421.6 g/mol
Appearance White, crystalline powder
Melting point 115
Solubility in water Miscible
Except where otherwise noted, data are given for materials in their standard state (at 25 °C , 100 kPa). Infobox references
Chemical compound

Erythrophleine is a complex alkaloid and ester of tricyclic diterpene acids derived from many of the plants in the genus erythrophleum. A highly toxic compound, it is most commonly known for its use in West African trials by ordeal. Exposure to erythrophleine can quickly lead to ataxia, dyspnea, heart paralysis, and sudden death. Visible effects of erythrophleine poisoning include induced terror, labored and irregular breathing, convulsions, urination, and vomiting.

Mechanism of Action

Once ingested, erythrophleine primarily acts on the body by disrupting the nervous system. It does this by inhibiting Na-K ATPase, an enzyme that breaks down ATP to generate an electric potential by moving sodium and potassium ions against their concentration gradient. In vertebrates, this potential is used to transmit signals across neural synapses. Normally, sodium-potassium pumps move potassium ions into the nerve cell and sodium ions out, but studies have shown that exposure to erythrophleine reduces this action dramatically. This can have a number of compounding effects including weakened nerve signaling responses and inhibited ability to maintain cellular homeostasis.

While the exact mechanism of this process is unknown, it is likely similar to that of cardiac glycosides. Cardiac glycosides inhibit Na-K ATPase by stabilizing it in the E2-P transition state, preventing sodium ions from being extruded. They do this by mimicking potassium and tightly binding to Na-K ATPase at the potassium active site. The most well-known of these molecules is the active toxin in foxglove.

Use as an Ordeal Poison

Erythrophleine's primary use is as a toxin in ancient West African ordeal trials, called sassywood. The process has largely been outlawed, but due to the limited judicial infrastructure of some West African states, ordeal trials still take place with some regularity. Some prominent economists have even argued that sassywood is a more effective substitute to Liberian courts, given the decrepit nature of the country's judicial system.

The main trial consists of creating a poisonous brew derived from the bark of the sasswood tree and administering it to the accused. In order to create the drink, bark of the ordeal tree was simply scraped, powdered, added to water, and allowed to steep. However, many cultures added additional ingredients to the mixture that made the final recipe much more complicated. Once consumed, if the defendant fails to throw up all of the poison before it enters their system, they are pronounced guilty and the poison likely kills them. On the other hand, if they manage to throw up all of the poison and maintain full control of their limbs, then they are cleared of any wrongdoing.

References

  1. "Erythrophleine". PubChem. NIH.
  2. "PubMed Central". Saunders Comprehensive Veterinary Dictionary. NIH: 351–412. 2020. doi:10.1016/B978-0-7020-7463-9.50013-6. PMC 9771672.
  3. "Liberian Justice System". PRI. February 22, 2007.
  4. ^ Robb, George (March 18, 1957). "The Ordeal Poisons of Madagascar and Africa" (PDF). Botanical Museum Leaflets, Harvard University. 17 (10). Harvard University Herbaria: 265–316. doi:10.5962/p.168507. JSTOR 41762174.
  5. Gagnon KB, Delpire E (2021). "Sodium Transporters in Human Health and Disease (Figure 2)". Frontiers in Physiology. 11: 588664. doi:10.3389/fphys.2020.588664. PMC 7947867. PMID 33716756.
  6. Bonting, Sjoerd (January 1964). "Studies of odium-potassium activated adenosine triphosphatase: VII-inhibition by erythrophleum alkaloids". Biochemical Pharmacology. 13 (1): 13–22. doi:10.1016/0006-2952(64)90074-7. PMID 14104927.
  7. "CV Pharmacology | Cardiac Glycosides (Digitalis Compounds)". cvpharmacology.com. Retrieved 2017-06-08.
  8. Hochster, R (1972). Metabolic Inhibitors: A Comprehensive Treatise. Academic Press. ISBN 978-0-323-14715-6.
  9. Patel S (December 2016). "Plant-derived cardiac glycosides: Role in heart ailments and cancer management". Biomedicine & Pharmacotherapy. 84: 1036–1041. doi:10.1016/j.biopha.2016.10.030. PMID 27780131.
  10. Riganti C, Campia I, Kopecka J, Gazzano E, Doublier S, Aldieri E, et al. (2011-01-01). "Pleiotropic effects of cardioactive glycosides". Current Medicinal Chemistry. 18 (6): 872–885. doi:10.2174/092986711794927685. PMID 21182478.
  11. "Controversial Practices: Trial by Ordeal in Liberia". VOA. VOA News. October 10, 2009.
  12. Leeson, Peter (February 15, 2012). "Sassywood" (PDF). Journal of Comparative Economics.
  13. The ... Annual Report of the American Colonization Society ... The Society. 1850. pp. 39–40.
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