Volume 11 Issue 5
Oct.  2021
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Zheng-Wei Zhang, Lin Cong, Ran Peng, Pei Han, Shu-Rong Ma, Li-Bin Pan, Jie Fu, Hang Yu, Yan Wang, Jian-Dong Jiang. Transformation of berberine to its demethylated metabolites by the CYP51 enzyme in the gut microbiota[J]. Journal of Pharmaceutical Analysis, 2021, 11(5): 628-637. doi: 10.1016/j.jpha.2020.10.001
Citation: Zheng-Wei Zhang, Lin Cong, Ran Peng, Pei Han, Shu-Rong Ma, Li-Bin Pan, Jie Fu, Hang Yu, Yan Wang, Jian-Dong Jiang. Transformation of berberine to its demethylated metabolites by the CYP51 enzyme in the gut microbiota[J]. Journal of Pharmaceutical Analysis, 2021, 11(5): 628-637. doi: 10.1016/j.jpha.2020.10.001

Transformation of berberine to its demethylated metabolites by the CYP51 enzyme in the gut microbiota

doi: 10.1016/j.jpha.2020.10.001
Funds:

The project was supported by CAMS Innovation Fund for Medical Sciences (CIFMS, Grant No.: 2016-I2M-3-011, China), the National Natural Science Foundation of China (Grant Nos.: 81803613 and 81973290), Beijing Key Laboratory of Non-Clinical Drug Metabolism and PK/PD study (Grant No.: Z141102004414062, China), Beijing Natural Sciences Fund Key Projects (Grant No.: 7181007) and the National Megaproject for Innovative Drugs (Grant No.: 2018ZX09711001-002-003). We would like to thank Shimadzu (China) Co., Ltd. for technological support.

  • Received Date: Jan. 24, 2020
  • Rev Recd Date: Oct. 10, 2020
  • Available Online: Jan. 11, 2022
  • Publish Date: Oct. 15, 2021
  • Berberine (BBR) is an isoquinoline alkaloid extracted from Coptis chinensis that improves diabetes, hyperlipidemia and inflammation. Due to the low oral bioavailability of BBR, its mechanism of action is closely related to the gut microbiota. This study focused on the CYP51 enzyme of intestinal bacteria to elucidate a new mechanism of BBR transformation by demethylation in the gut microbiota through multiple analytical techniques. First, the docking of BBR and CYP51 was performed; then, the pharmacokinetics of BBR was determined in ICR mice in vivo, and the metabolism of BBR in the liver, kidney, gut microbiota and single bacterial strains was examined in vitro. Moreover, 16S rRNA analysis of ICR mouse feces indicated the relationship between BBR and the gut microbiota. Finally, recombinant E. coli containing cyp51 gene was constructed and the CYP51 enzyme lysate was induced to express. The metabolic characteristics of BBR were analyzed in the CYP51 enzyme lysate system. The results showed that CYP51 in the gut microbiota could bind stably with BBR, and the addition of voriconazole (a specific inhibitor of CYP51) slowed down the metabolism of BBR, which prevented the production of the demethylated metabolites thalifendine and berberrubine. This study demonstrated that CYP51 promoted the demethylation of BBR and enhanced its intestinal absorption, providing a new method for studying the metabolic transformation mechanism of isoquinoline alkaloids in vivo.
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