Catalpol

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Catalpol
Catalpol structure.svg
Catalpol 3D BS.png
Names
IUPAC name
(1aS,1bS,2S,5aR,6S,6aS)-6-Hydroxy-1a-(hydroxymethyl)-1a,1b,2,5a,6,6a-hexahydrooxireno[2′,3′:4,5]cyclopenta[1,2-c]pyran-2-yl β-D-glucopyranoside
Systematic IUPAC name
(2S,3R,4S,5S,6R)-2-{[(1aS,1bS,2S,5aR,6S,6aS)-6-Hydroxy-1a-(hydroxymethyl)-1a,1b,2,5a,6,6a-hexahydrooxireno[2′,3′:4,5]cyclopenta[1,2-c]pyran-2-yl]oxy}-6-(hydroxymethyl)oxane-3,4,5-triol
Identifiers
3D model (JSmol)
ChEMBL
ChemSpider
UNII
Properties
C15H22O10
Molar mass 362.331 g·mol−1
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
Infobox references
Tracking categories (test):

Catalpol is an iridoid glucoside. This natural product falls in the class of iridoid glycosides, which are simply monoterpenes with a glucose molecule attached.

Natural occurrence

First isolated in 1962, catalpol was named for plants in the genus Catalpa in which it was discovered. Later in 1969, catalpol was found to be present in larger quantities in several plants in genus Rehmannia (Orobanchaceae).[1] It is also found in plants belonging to several families, including, but not limited to, Scrophulariaceae, Lamiaceae (including scullcap[2][3]), Plantaginaceae (Plantago sp[4]) and Bignoniaceae,[5] all of which being in the order Lamiales.

Because they feed on these plants, variable checkerspot butterflies (Euphydryas chalcedona) contain high amounts of catalpol,[6] which makes them unpalatable to predators and thus serves as a defense mechanism.[7]

Biosynthetic pathway

Though first isolated in the 1960s, there has been very little investigation of the biosynthetic pathway of catalpol.[5] S. R. Jensen has described a possible biosynthetic pathway for catalpol.[4] With iridoids stemming from a terpenoid origin, epi-iridotrial's precursor, epi-iridodial, is derived from geraniol.[8] Addition of a glucose at carbon 1 (C1) of the iridoid backbone and oxidation of the aldehyde at C4 of epi-iridotrial produces 8-epiloganic acid. A subsequent hydrolysis at C8 yields mussaenosidic acid, followed by a dehydration to yield deoxyngeniposidic acid. The next precursor, geniposidic acid, is furnished via hydrolysis of C10, and then a decarboxylation to remove the carboxylic acid at C4 provides bartsioside. The very widely known and accepted precursor to catalpol, aucubin, is then furnished via hydroxylation at C6. Finally an epoxidation with the alcohol at C10 yields catalpol.[4]

Biosynthesis of catalpol as proposed by Jensen

Footnotes

  1. Tang, W. (1992). Chinese Drugs of Plant Origins. Berlin: Springer-Verlag. ISBN 0-387-19309-X. 
  2. Phillipson, Carol A. Newall ; Linda A. Anderson ; J. David (1996). Herbal medicines : a guide for health care professionals (Reprinted. ed.). London: Pharmaceutical Press. p. 296. ISBN 0853692890. 
  3. Yaghmai and Benson, 1979 M.S. Yaghmai, G.G. Benson The wax hydrocarbons of Scutellaria lateriflora L Manchester, England (1979) 228–229 p
  4. 4.0 4.1 4.2 Ronsted, N.; Gobel, E.; Franzyk, H.; Jansen, S. R.; Olsen, C. E. (2000). "Chemotaxonomy of Plantago . Iridoid glucosides and caffeoyl phenylethanoid glycosides". Phytochemistry 55 (4): 337–48. doi:10.1016/S0031-9422(00)00306-X. PMID 11117882. Bibcode2000PChem..55..337R. 
  5. 5.0 5.1 Damtoft, S. (1994). "Biosynthesis of Catalpol". Phytochemistry 35 (5): 1187–9. doi:10.1016/S0031-9422(00)94819-2. Bibcode1994PChem..35.1187D. 
  6. Stermitz, Frank R., Maged S. Abdel-Kader, Tommaso A. Foderaro, and Marc Pomeroy (1994). "Iridoid Glycosides from Some Butterflies and Their Larval Food Plants". Phytochemistry 37 (4): 997–99. doi:10.1016/s0031-9422(00)89516-3. Bibcode1994PChem..37..997S. 
  7. Bowers, M. D. (1981). "Unpalatability as a Defense Strategy of Western Checkerspot Butterflies (Euphydryas Scudder, Nymphalidae)". Evolution 35 (2): 367–75. doi:10.2307/2407845. PMID 28563381. 
  8. Jansen, S. R. (1991). "Plant iridoids, their biosynthesis and distribution in angiosperms". Ecological Chemistry and Biochemistry of Plant Terpenoids. Clarence Press. pp. 133–158. 




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