Stereospecific Biotransformation of Dihydrodaidzein into (3S)-Equol by the Human Intestinal Bacterium Eggerthella Strain Julong 732

doi:10.1128/AEM.02058-08

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Applied and Environmental Microbiology, May 2009, p. 3062-3068, Vol. 75, No. 10
0099-2240/09/$08.00+0 doi:10.1128/AEM.02058-08
Copyright © 2009, American Society for Microbiology. All Rights Reserved.

Stereospecific Biotransformation of Dihydrodaidzein into (3S)-Equol by the Human Intestinal Bacterium Eggerthella Strain Julong 732

Mihyang Kim,¹ Su-Il Kim,¹ Jaehong Han,² Xiu-Ling Wang,³ Dae-Geun Song,⁴ and Soo-Un Kim¹^,5^*

Department of Agricultural Biotechnology and Research Institute for Agriculture and Life Sciences, Seoul National University, Seoul 151-921, South Korea,¹ Metalloenzyme Research Group and Department of Biotechnology, Chung-Ang University, Anseong 456-756, South Korea,² College of Life Science, Agricultural University of Hebei, Baoding 071001, China,³ Natural Products Research Center, Korea Institute of Science and Technology Gangneung Institute, Gangneung 210-340, South Korea,⁴ Plant Metabolism Research Center, Kyung Hee University, Yongin 446-701, South Korea⁵

Received 5 September 2008/ Accepted 10 March 2009

Stereochemical course of isoflavanone dihydrodaidzein (DHD)reduction into the isoflavan (3S)-equol via tetrahydrodaidzein(THD) by the human intestinal anaerobic bacterium Eggerthellastrain Julong 732 was studied. THD was synthesized by catalytichydrogenation, and each stereoisomer was separated by chiralhigh-performance liquid chromatography. Circular dichroism spectroscopywas used to elucidate the absolute configurations of four syntheticTHD stereoisomers. Rapid racemization of DHD catalyzed by Julong732 prevented the substrate stereospecificity in the conversionof DHD into THD from being confirmed. The absolute configurationof THD, prepared by reduction of DHD in the cell-free incubation,was assigned as (3R,4S) via comparison of the retention timeto that of the authentic THD by chiral chromatography. Dehydroequol(DE) was unable to produce the (3S)-equol both in the cell-freereaction and in the bacterial transformation, negating the possibleintermediacy of DE. Finally, the intermediate (3R,4S)-THD wasreduced into (3S)-equol by the whole cell, indicating the inversionof stereochemistry at C-3 during the reduction. A possible mechanismaccounting for the racemization of DHD and the inversion ofconfiguration of THD during reduction into (3S)-equol is proposed.

* Corresponding author. Mailing address: Program in Applied Life Chemistry, Department of Agricultural Biotechnology, College of Agriculture and Life Sciences, Seoul National University, San 56-1 Sillim-dong, Gwanak-gu, Seoul 151-921, South Korea. Phone: 82-2-880-4642. Fax: 82-2-873-3112. E-mail: soounkim{at}plaza.snu.ac.kr

Published ahead of print on 20 March 2009.