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Isolation of Tryptanthrin and Reassessment of Evidence for Its Isobaric Isostere Wrightiadione in Plants of the Wrightia Genus

2018; American Chemical Society; Volume: 82; Issue: 3 Linguagem: Inglês

10.1021/acs.jnatprod.8b00567

1520-6025

Rhea C. Garcellano, Syed Moinuddin, Robert Young, Mowei Zhou, Mark Bowden, Ryan Renslow, Yasemin Yesiltepe, Dennis Thomas, Sean Colby, Christopher D. Chouinard, Gabe Nagy, Isaac Attah, Yehia Ibrahim, Rui Ma, Scott G. Franzblau, Norman Lewis, Alicia M. Aguinaldo, John Cort,

Traditional and Medicinal Uses of Annonaceae

A series of Wrightia hanleyi extracts was screened for activity against Mycobacterium tuberculosis H37Rv. One active fraction contained a compound that initially appeared to be either the isoflavonoid wrightiadione or the alkaloid tryptanthrin, both of which have been previously reported in other Wrightia species. Characterization by NMR and MS, as well as evaluation of the literature describing these compounds, led to the conclusion that wrightiadione (1) was misidentified in the first report of its isolation from W. tomentosa in 1992 and again in 2015 when reported in W. pubescens and W. religiosa. Instead, the molecule described in these reports and in the present work is almost certainly the isobaric (same nominal mass) and isosteric (same number of atoms, valency, and shape) tryptanthrin (2), a well-known quinazolinone alkaloid found in a variety of plants including Wrightia species. Tryptanthrin (2) is also accessible synthetically via several routes and has been thoroughly characterized. Wrightiadione (1) has been synthesized and characterized and may have useful biological activity; however, this compound can no longer be said to be known to exist in Nature. To our knowledge, this misidentification of wrightiadione (1) has heretofore been unrecognized.