Hypoglycin A

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Hypoglycin
Hypoglycin
Names
IUPAC name
3-[(1R-2-Methylidenecyclopropyl]-L-alanine
Systematic IUPAC name
(2S)-2-Amino-3-[(1R)-2-methylidenecyclopropyl]propanoic acid
Other names
Hypoglycin A; Hypoglycine; 2-Methylenecyclopropanylalanine
Identifiers
3D model (JSmol)
ChEMBL
ChemSpider
ECHA InfoCard 100.189.936 Edit this at Wikidata
UNII
  • InChI=1S/C7H11NO2/c1-4-2-5(4)3-6(8)7(9)10/h5-6H,1-3,8H2,(H,9,10)/t5-,6+/m1/s1 checkY
    Key: OOJZCXFXPZGUBJ-RITPCOANSA-N checkY
  • InChI=1/C7H11NO2/c1-4-2-5(4)3-6(8)7(9)10/h5-6H,1-3,8H2,(H,9,10)/t5-,6+/m1/s1
    Key: OOJZCXFXPZGUBJ-RITPCOANBH
  • O=C(O)[C@@H](N)C[C@@H]1C(=C)C1
Properties
C7H11NO2
Molar mass 141.170 g·mol−1
Melting point 282 °C (540 °F; 555 K)
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 ?)

Hypoglycin A is a naturally occurring amino acid derivative found in the unripened fruit of the Ackee tree (Blighia sapida)[1] and in the seeds of the box elder tree (Acer negundo).[2] It is toxic if ingested, and is the causative agent of Jamaican vomiting sickness.[1] A 2017 Lancet report established a link between the consumption of unripened lychees (containing hypoglycin A or methylenecyclopropylglycine (MCPG)) resulting in hypoglycaemia and death from acute toxic encephalopathy.[3]

Sources[edit]

The entirety of the unripe Ackee fruit is toxic and contains large amounts of hypoglycin. The fruit is safe to eat only when the fruit is allowed to fully open and expose the large black seeds while on the tree. The levels of the toxin decrease over time though from approximately 1000 ppm to around 0.1 ppm in the mature fruit.[4]

Relatives of Ackee, including lychee, longan, and rambutan, can contain enough α-(methylenecyclopropyl)glycine, a homologue of hypoglycin A, in their fruit to cause hypoglycemic encephalopathy in undernourished children, when consumed in large quantities.[5]

Toxicity[edit]

Hypoglycin A is a protoxin, meaning that the molecule is not toxic in itself but is broken down into toxic products when ingested. The branched-chain alpha-keto acid dehydrogenase complex, that normally converts leucine, isoleucine, or valine into acyl-CoA derivatives, converts Hypoglycin A into highly toxic MCPA-CoA. The FAD cofactor necessary for the beta oxidation of fatty acids associates with the alpha carbon of MCPA-CoA creating an irreversible complex that disables the enzyme. In addition, MCPA-CoA blocks some enzymes that are required for gluconeogenesis.[4]

The reduction in gluconeogenesis and the reduction in fatty acid oxidation are thought to be the cause of most of the symptoms of Jamaican vomiting sickness. The blocking of fatty acid metabolism causes cells to start using glycogen for energy. Once glycogen is depleted, the body is unable to produce more, which leads to severe hypoglycemia. These biochemical effects are detected by an excess of medium chain fatty acids in urine and acidosis. Key treatments are aimed at circumventing or counteracting the biochemical changes, and include IV fluids and glucose, and hemodialysis in the case of renal failure.[6]

Synthesis[edit]

In 1958, John Carbon, William Martin, and Leo Swett were the first to synthesize hypoglycin A, in racemic form, starting from 2-bromopropene and ethyl diazoacetate to form the cyclopropane ring.[7]

John Carbon's synthesis of Hypoglycin A

In 1992, Jack Baldwin, Robert Adlington, David Bebbington, and Andrew Russell accomplished the first asymmetric total synthesis of the individual diastereoisomers of hypoglycin A, using the Sharpless epoxidation to permit an asymmetric methylene cyclopropane synthesis.[8][9] 1H NMR and circular dichroism studies identifies the major diastereoisomer of natural hypogycin A as (2S, 4R) and the minor diastereoisomer as (2S, 4S).

See also[edit]

References[edit]

  1. ^ a b "Ackee Fruit Toxicity". Medscape. 2018-06-13.
  2. ^ Valberg, S. J.; Sponseller, B. T.; Hegeman, A. D.; Earing, J.; Bender, J. B.; Martinson, K. L.; Patterson, S. E.; Sweetman, L. (2013-07-01). "Seasonal pasture myopathy/atypical myopathy in North America associated with ingestion of hypoglycin A within seeds of the box elder tree". Equine Veterinary Journal. 45 (4): 419–426. doi:10.1111/j.2042-3306.2012.00684.x. ISSN 2042-3306. PMID 23167695. S2CID 206002430.
  3. ^ Shrivastava, Aakash (2017). "Association of acute toxic encephalopathy with litchi consumption in an outbreak in Muzaffarpur, India, 2014: a case-control study". The Lancet Global Health. 5 (4): e458–e466. doi:10.1016/S2214-109X(17)30035-9. PMID 28153514.
  4. ^ a b "THE ACKEE FRUIT (BLIGHIA SAPIDA) AND ITS ASSOCIATED TOXIC EFFECTS". University of British Columbia. 2005-11-17.
  5. ^ Spencer, P. S.; Palmer, V. S.; Mazumder, R. (2015), "Probable Toxic Cause for Suspected Lychee-Linked Viral Encephalitis", Emerging Infectious Diseases, 21 (5): 904–5, doi:10.3201/eid2105.141650, PMC 4412228, PMID 25897979
  6. ^ "Hypoglycin". TOXNET.
  7. ^ Carbon, J. A.; Martin, W. B.; Swett, L. R. (1958), "SYNTHESIS OF α-AMINO- METHYLENECYCLOPROPANEPROPIONIC ACID (HYPOGLYCIN A)", J. Am. Chem. Soc., 80 (4): 1002, doi:10.1021/ja01537a066
  8. ^ Baldwin, Jack E.; Adlington, Robert M.; Bebbington, David; Russell, Andrew T. (1992). "Asymmetric total synthesis of the individual diastereoisomers of hypoglycin A". Journal of the Chemical Society, Chemical Communications (17): 1249. doi:10.1039/c39920001249. ISSN 0022-4936.
  9. ^ Baldwin, Jack E.; Adlington, Robert M.; Bebbington, David; T. Russell, Andrew (1994). "Asymmetric total synthesis of the individual diastereoisomers of hypoglycin A.". Tetrahedron. 50 (41): 12015–12028. doi:10.1016/s0040-4020(01)89313-3. ISSN 0040-4020.
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