Your search keyword '"Eun Yeong Kim"' showing total 2 results

1. Quasi-Irreversible Inhibition of CYP2D6 by Berberine

Author

Jang Su Jeon, MinKyun Na, Jae Young Lee, Yeon Jung Choi, Han Jin Park, Jong-Hoon Kim, Ha Gyeong Kim, Kiho Lee, Young Jae Choi, Han Sol Lee, Seung Woo Cho, Sang Kyum Kim, InWha Park, So Yeol Yoo, and Eun Yeong Kim

Subjects

CYP2D6, cytochrome P450, Kinetics, lcsh:RS1-441, Pharmaceutical Science, Pharmacology, digestive system, 030226 pharmacology & pharmacy, Article, lcsh:Pharmacy and materia medica, 03 medical and health sciences, chemistry.chemical_compound, herb-drug interaction, 0302 clinical medicine, Berberine, metabolite identification, berberine, skin and connective tissue diseases, IC50, 030304 developmental biology, 0303 health sciences, biology, Cytochrome P450, Substrate (chemistry), drug metabolism, chemistry, biology.protein, Microsome, Drug metabolism

Abstract

In our previous study, Hwang-Ryun-Hae-Dok-Tang, which contains berberine (BBR) as a main active ingredient, inhibited cytochrome P450 (CYP) 2D6 in a quasi-irreversible manner. However, no information is available on the detailed mechanism of BBR-induced CYP2D6 inhibition. Thus, the present study aimed to characterize the inhibition mode and kinetics of BBR and its analogues against CYP2D6 using pooled human liver microsomes (HLM). BBR exhibited selective quasi-irreversible inhibition of CYP2D6 with inactivation rate constant (kinact) of 0.025 min&minus, 1, inhibition constant (KI) of 4.29 &micro, M, and kinact/KI of 5.83 mL/min/&micro, mol. In pooled HLM, BBR was metabolized to thalifendine (TFD), demethyleneberberine (DMB), M1 (proposed as demethylene-TFD), and to a lesser extent berberrubine (BRB), showing moderate metabolic stability with a half-life of 35.4 min and a microsomal intrinsic clearance of 7.82 &micro, L/min/mg protein. However, unlike BBR, those metabolites (i.e., TFD, DMB, and BRB) were neither selective nor potent inhibitors of CYP2D6, based on comparison of half-maximal inhibitory concentration (IC50). Notably, TFD, but not DMB, exhibited metabolism-dependent CYP2D6 inhibition as in the case of BBR, which suggests that methylenedioxybenzene moiety of BBR may play a critical role in the quasi-irreversible inhibition. Moreover, the metabolic clearance of nebivolol (&beta, blocker, CYP2D6 substrate) was reduced in the presence of BBR. The present results warrant further evaluation of BBR&ndash, drug interactions in clinical situations.

Published

2020

2. Mouse Pharmacokinetics and In Vitro Metabolism of SH-11037 and SH-11008, Synthetic Homoisoflavonoids for Retinal Neovascularization

Author

Eun-yeong Kim, Bit Lee, Sangil Kwon, Timothy W. Corson, Seung-Yong Seo, and Kiho Lee

Subjects

SH-11037, SH-11008, homoisoflavonoid, pharmacokinetics, drug metabolism, hydrolysis, Pharmacy and materia medica, RS1-441

Abstract

Cremastranone is a member of the homoisoflavanone family with anti-angiogenic activity in the eyes. SH-11037, a potent and selective synthetic homoisoflavonoid derived from cremastranone, was studied here for pharmacokinetics and metabolism characterization with a special focus on esterase-mediated hydrolysis. SH-11037 was shown to be converted rapidly and nearly completely to SH-11008 following an intravenous dose in mice. SH-11008 showed a high systemic clearance well exceeding the hepatic blood flow in mice. Neither SH-11037 nor SH-11008 were detected in plasma following oral administration of SH-11037 and SH-11008 in mice. Carboxylesterase was shown to be responsible for the rapid and quantitative hydrolysis of SH-11037 to SH-11008 in mouse plasma; the hydrolytic bioconversion was much slower in dog and human plasma, with butyrylcholinesterase and paraoxonase 1 likely being responsible. In vitro metabolism studies with liver S9 fractions suggested that SH-11008 was likely to have a high hepatic metabolic clearance with a predicted hepatic extraction ratio close to 1 in both mouse and human. In conclusion, SH-11037 and SH-11008 both appear to possess pharmacokinetic profiles suboptimal as a systemic agent. SH-11008 is suggested to possess a low potential for systemic toxicity suitable as a topical ocular therapeutic agent.

Published

2022