Oenanthotoxin

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Oenanthotoxin
Names
Preferred IUPAC name
(2E,8E,10E,14R)-Heptadeca-2,8,10-triene-4,6-diyne-1,14-diol
Other names
Enanthotoxin
Identifiers
3D model (JSmol)
ChEBI
ChEMBL
ChemSpider
KEGG
UNII
  • InChI=1S/C17H22O2/c1-2-14-17(19)15-12-10-8-6-4-3-5-7-9-11-13-16-18/h4,6,8,10-11,13,17-19H,2,12,14-16H2,1H3/b6-4+,10-8+,13-11+/t17-/m1/s1 checkY
    Key: UPXPHJXYZGEBCW-SRFVWEJJSA-N checkY
  • InChI=1/C17H22O2/c1-2-14-17(19)15-12-10-8-6-4-3-5-7-9-11-13-16-18/h4,6,8,10-11,13,17-19H,2,12,14-16H2,1H3/b6-4+,10-8+,13-11+/t17-/m1/s1
    Key: UPXPHJXYZGEBCW-SRFVWEJJBP
  • CCC[C@@H](O)CC\C=C\C=C\C#CC#C\C=C\CO
Properties
C17H22O2
Molar mass 258.361 g·mol−1
Melting point 86 °C (187 °F; 359 K)
Hazards
Lethal dose or concentration (LD, LC):
0.58 mg/kg for mice
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
☒N verify (what is checkY☒N ?)

Oenanthotoxin is a toxin extracted from hemlock water-dropwort (Oenanthe crocata) and other plants of the genus Oenanthe. It is a central nervous system poison, and acts as a noncompetitive antagonist of the neurotransmitter gamma-aminobutyric acid.[1] A case has been made for the presence of this toxin in local Oenanthe species playing a causative role in euthanasia in ancient Sardinia.[2][3] It was crystallized in 1949 by Clarke and co-workers.[4] It is structurally closely related to the toxins cicutoxin[5] and carotatoxin.[6][7] Oenanthotoxin is a C17 polyacetylene isomer of cicutoxin.

Occurrence[edit]

Oenanthotoxin concentration in plants is dependent on seasonal changes and geographical location, the most is present during late winter and early spring.[8] Contrary to most poisonous plants that contain bitter tastes or burning sensations, the water dropwort has a rather sweet and pleasant taste and odor.[9] Water dropwort is characterized by a yellow liquid that changes color due to air exposure.[1][9] The roots are the most toxic part, although the entire plant contains poisonous properties.[8][10]

History and culture[edit]

The discovery and use of plants containing oenanthotoxin predates Socrates and Homer and its first use as a poison is thought to have been implemented between 1800 BC and 800 BC in Pre-Roman Sardinia.[9][11] In Ancient Sardinia, it was considered to be a humane form of euthanasia. Elderly people who were unable to care for themselves were given water dropwort and dropped from a high rock to ensure death.[9][11] It is also believed that Socrates ingested the plant when executed.[12]

A common symptom of oenanthotoxin is risus sardonicus, better known as the Sardonic Grin, coined by Homer in the 8th century BC, due to the victim's rigid smile after ingestion.

Furthermore, as a muscle relaxant, it is believed to have cosmetic botox-like properties in small amounts.[11] In fact a team of italian doctors and professors : Paolo Tramontano, Mauro Ballero, Armando Bianco, and Alessandro Venditti, in a cooperation with the researchers of the University of Rome “La Sapienza” and the University of Cagliari “uniCa” have discovered that this extract is capable of providing a tightening effect on the skin and preventing the formation of wrinkles by effectively and quickly combating mild and medium grade skin ptosis without resorting to invasive interventions and without side effects. The extracts are also effective in counteracting skin aging and re-establishing correct trophism. Studies showed that Oenanthotoxine and Dihydroenanthotoxin modulate muscle contraction, causing the blockade of the GABA receptors involved in the regulation of reflex contraction and motor neurons and determining the so-called "tensor effect" at the skin level. This extract has been patented and it is owned by Omegafarm S.R.L , Studio T Management S.R.L. and the University of Rome “La Sapienza”.


Mechanism of action[edit]

Although oenanthotoxin is a relatively well known poison, its mechanism of action is not entirely understood. However, there is evidence that its mechanism of action is similar to that of cicutoxin.

Oenanthotoxin is part of a group of C17 conjugated polyacetylenes that act as noncompetitive gamma-aminobutyric acid (GABA) inhibitors in the central nervous system (CNS). GABA binds to the beta-domain of the GABAA receptor in the central nervous system and activates the receptor increasing chloride ion flow across the membrane and inhibiting the neuron.[1] When oenanthotoxin is introduced to the body, it non-competitively binds to the same beta-domain receptor as GABA and prevents normal inhibitory function. Binding to the same receptor, oenanthotoxin blocks the chloride channel, allowing excessive excitation to occur. This, blocking GABAergic responses, causes hyperactivity in the neurons, resulting in convulsions, and seizures.[9]

Symptoms[edit]

Oenanthotoxin is extremely dangerous and toxic (LD50 = 0.58 mg/kg for mice),[1] there have been numerous case studies documenting the common symptoms including: convulsions, seizures, nausea, diarrhea, tachycardia, mydriasis, rhabdomyolysis, renal failure, respiratory impairment, and cardiac dysrhythmias.[1][8][9]

Below is a comprehensive table listing the recorded symptoms caused by oenanthotoxin within each system in the body Oenanthe crocata:[1]

Organ system Symptoms
Neurological slurred speech, dizziness, paresthesia, delirium, ataxia, coma, seizures, trismus, hyperreflexia, opisthotonus, spasms, cerebral edema, status epilepticus
Gastrointestinal nausea, vomiting, salivation, abdominal pain
Respiratory congestion, distress, depression, airway obstruction, arrest, apnea
Cardiovascular tachycardia, brachycardia, hypertension, hypotension, cardiac dysrhythmias, cardiac arrest
Renal glycosuria, proteinuria, hematuria, oliguria, myoglobinuria, acute renal failure
Musculoskeletal weakness, muscle spasms, muscle rigidity, rhabdomyolysis
Metabolic elevated temperature, liver dysfunction, hypokalemia, lactic dehydrogenase, disseminating (intravascular, coagulation), metabolic acidosis, azotemia
Occular mydriasis
Dermal diaphoresis, cyanosis, flushed face

References[edit]

  1. ^ a b c d e f Schep, L. J.; Slaughter, R. J.; Becket, G.; Beasley, D. M. G. (2009). "Poisoning due to Water Hemlock". Clinical Toxicology. 47 (4): 270–278. doi:10.1080/15563650902904332. PMID 19514873. S2CID 21855822.
  2. ^ Appendino, G.; Pollastro, F.; Verotta, L.; Ballero, M.; Romano, A.; Wyrembek, P.; Szczuraszek, K.; Mozrzymas, J. W.; Taglialatela-Scafati, O. (2009). "Polyacetylenes From Sardinian Oenanthe fistulosa: A Molecular Clue to risus sardonicus". Journal of Natural Products. 72 (5): 962–965. doi:10.1021/np8007717. PMC 2685611. PMID 19245244.
  3. ^ Choi, C. Q.; Harmon, K.; Matson, J. (August 2009). "News Scan Briefs: Killer Smile". Scientific American. doi:10.1038/scientificamerican0809-26b.
  4. ^ E. G. C. Clarke, D. E. Kidder and W. D. Robertson (1949) J. Pharm. Pharmacol. 1 377-381
  5. ^ Anet, E. F. L. J.; Lythgoe, B.; Silk, M. H. & Trippett, S. (1953). "Oenanthotoxin and Cicutoxin. Isolation and Structures". Journal of the Chemical Society. 1953: 309–322. doi:10.1039/JR9530000309.
  6. ^ King, L. A.; Lewis, M. J.; Parry, D.; Twitchett, P. J.; Kilner, E. A. (1985). "Identification of Oenanthotoxin and Related Compounds in Hemlock Water Dropwort Poisoning". Human Toxicology. 4 (4): 355–364. doi:10.1177/096032718500400401. PMID 4018815. S2CID 19201342.
  7. ^ Anet, E. F. L. J.; Lythgoe, B.; Silk, M. H. & Trippett, S. (1952). "The Chemistry of Oenanthotoxin and Cicutoxin". Chemistry and Industry. 31: 757–758.
  8. ^ a b c "Information Sheet: 31 Hemlock Water Dropwort (Oenanthe crocata)" (PDF). Centre for Ecology & Hydrology. Centre for Aquatic Plant Management. Archived from the original (PDF) on 2015-02-24. Retrieved 2019-05-01.
  9. ^ a b c d e f Appendino, G.; Pollastro, F.; Verotta, L. (2009), "Polyacetylenes from Sardinian Oenanthe Fistulosa: A Molecular Clue to risus sardonicus", J. Nat. Prod., 72 (5): 962–965, doi:10.1021/np8007717, PMC 2685611, PMID 19245244
  10. ^ Egdahl, A. (1911). "A case of poisoning due to eating poison hemlock (Cicuta maculata) with a review of reported cases". Arch Intern Med. 7 (3): 348–356. doi:10.1001/archinte.1911.00060030061002.
  11. ^ a b c Owen, James. "Ancient Death-Smile Potion Decoded?". National Geographic. Journal of Natural Products. Archived from the original on June 5, 2009. Retrieved June 2, 2009.
  12. ^ Bletchly, Rachael. "Killers in your garden; Beware these poison plants". The Free Library. Gale, Cengage Learning.
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