Quantitative prediction of human intestinal glucuronidation effects on intestinal availability of UDP-glucuronosyltransferase substrates using in vitro data

Fumihiro Nakamori; Yoichi Naritomi; Ken Ichi Hosoya; Hiroyuki Moriguchi; Kazuhiro Tetsuka; Takako Furukawa; Keitaro Kadono; Katsuhiro Yamano; Shigeyuki Terashita; Toshio Teramura

doi:10.1124/dmd.112.045476

Quantitative prediction of human intestinal glucuronidation effects on intestinal availability of UDP-glucuronosyltransferase substrates using in vitro data

Fumihiro Nakamori^*, Yoichi Naritomi, Ken Ichi Hosoya, Hiroyuki Moriguchi, Kazuhiro Tetsuka, Takako Furukawa, Keitaro Kadono, Katsuhiro Yamano, Shigeyuki Terashita, Toshio Teramura

^*Corresponding author for this work

Biopharmaceutics

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

We investigated whether the effects of intestinal glucuronidation on the first-pass effect can be predicted from in vitro data for UDP- glucuronosyltransferase (UGT) substrates. Human in vitro intrinsic glucuronidation clearance (CL_{int, UGT}) for 11 UGT substrates was evaluated using pooled intestinal microsomes (4.00-4620 μl · min ^-1 · mg^-1) and corrected by the free fraction in the microsomal mixture (CLu_{int, UGT} = 5.2-5133 μl · min^-1 · mg^-1). Eleven UGT substrates were stable against intestinal cytochrome P450, indicating intestinal glucuronidation has a main effect on human intestinal availability. Oral absorbability intestinal availability (F_aF_g) values were calculated from in vivo pharmacokinetic parameters in the literature (F_aF_g = 0.01-1.0). It was found that CLu_{int, UGT} and human F _aF_g have an inverse relationship that can be fitted to a simplified intestinal availability model. Experiments using Supersomes from insect cells expressing UGT isoforms showed that the substrates used were conjugated by various UGT isoforms. These results suggest that combining the simplified intestinal availability model and in vitro conjugation assay make it possible to predict human F_aF_g regardless of UGT isoform.

Original language	English
Pages (from-to)	1771-1777
Number of pages	7
Journal	Drug Metabolism and Disposition
Volume	40
Issue number	9
DOIs	https://doi.org/10.1124/dmd.112.045476
State	Published - 2012/09

ASJC Scopus subject areas

Pharmacology
Pharmaceutical Science

Access to Document

10.1124/dmd.112.045476

Cite this

Nakamori, F., Naritomi, Y., Hosoya, K. I., Moriguchi, H., Tetsuka, K., Furukawa, T., Kadono, K., Yamano, K., Terashita, S., & Teramura, T. (2012). Quantitative prediction of human intestinal glucuronidation effects on intestinal availability of UDP-glucuronosyltransferase substrates using in vitro data. Drug Metabolism and Disposition, 40(9), 1771-1777. https://doi.org/10.1124/dmd.112.045476

@article{39bd46f6768347d3a2e3d225511dce19,

title = "Quantitative prediction of human intestinal glucuronidation effects on intestinal availability of UDP-glucuronosyltransferase substrates using in vitro data",

abstract = "We investigated whether the effects of intestinal glucuronidation on the first-pass effect can be predicted from in vitro data for UDP- glucuronosyltransferase (UGT) substrates. Human in vitro intrinsic glucuronidation clearance (CLint, UGT) for 11 UGT substrates was evaluated using pooled intestinal microsomes (4.00-4620 μl · min -1 · mg-1) and corrected by the free fraction in the microsomal mixture (CLuint, UGT = 5.2-5133 μl · min-1 · mg-1). Eleven UGT substrates were stable against intestinal cytochrome P450, indicating intestinal glucuronidation has a main effect on human intestinal availability. Oral absorbability intestinal availability (FaFg) values were calculated from in vivo pharmacokinetic parameters in the literature (FaFg = 0.01-1.0). It was found that CLuint, UGT and human F aFg have an inverse relationship that can be fitted to a simplified intestinal availability model. Experiments using Supersomes from insect cells expressing UGT isoforms showed that the substrates used were conjugated by various UGT isoforms. These results suggest that combining the simplified intestinal availability model and in vitro conjugation assay make it possible to predict human FaFg regardless of UGT isoform.",

author = "Fumihiro Nakamori and Yoichi Naritomi and Hosoya, {Ken Ichi} and Hiroyuki Moriguchi and Kazuhiro Tetsuka and Takako Furukawa and Keitaro Kadono and Katsuhiro Yamano and Shigeyuki Terashita and Toshio Teramura",

year = "2012",

month = sep,

doi = "10.1124/dmd.112.045476",

language = "英語",

volume = "40",

pages = "1771--1777",

journal = "Drug Metabolism and Disposition",

issn = "0090-9556",

publisher = "Elsevier Inc.",

number = "9",

}

Nakamori, F, Naritomi, Y, Hosoya, KI, Moriguchi, H, Tetsuka, K, Furukawa, T, Kadono, K, Yamano, K, Terashita, S & Teramura, T 2012, 'Quantitative prediction of human intestinal glucuronidation effects on intestinal availability of UDP-glucuronosyltransferase substrates using in vitro data', Drug Metabolism and Disposition, vol. 40, no. 9, pp. 1771-1777. https://doi.org/10.1124/dmd.112.045476

TY - JOUR

T1 - Quantitative prediction of human intestinal glucuronidation effects on intestinal availability of UDP-glucuronosyltransferase substrates using in vitro data

AU - Nakamori, Fumihiro

AU - Naritomi, Yoichi

AU - Hosoya, Ken Ichi

AU - Moriguchi, Hiroyuki

AU - Tetsuka, Kazuhiro

AU - Furukawa, Takako

AU - Kadono, Keitaro

AU - Yamano, Katsuhiro

AU - Terashita, Shigeyuki

AU - Teramura, Toshio

PY - 2012/9

Y1 - 2012/9

N2 - We investigated whether the effects of intestinal glucuronidation on the first-pass effect can be predicted from in vitro data for UDP- glucuronosyltransferase (UGT) substrates. Human in vitro intrinsic glucuronidation clearance (CLint, UGT) for 11 UGT substrates was evaluated using pooled intestinal microsomes (4.00-4620 μl · min -1 · mg-1) and corrected by the free fraction in the microsomal mixture (CLuint, UGT = 5.2-5133 μl · min-1 · mg-1). Eleven UGT substrates were stable against intestinal cytochrome P450, indicating intestinal glucuronidation has a main effect on human intestinal availability. Oral absorbability intestinal availability (FaFg) values were calculated from in vivo pharmacokinetic parameters in the literature (FaFg = 0.01-1.0). It was found that CLuint, UGT and human F aFg have an inverse relationship that can be fitted to a simplified intestinal availability model. Experiments using Supersomes from insect cells expressing UGT isoforms showed that the substrates used were conjugated by various UGT isoforms. These results suggest that combining the simplified intestinal availability model and in vitro conjugation assay make it possible to predict human FaFg regardless of UGT isoform.

AB - We investigated whether the effects of intestinal glucuronidation on the first-pass effect can be predicted from in vitro data for UDP- glucuronosyltransferase (UGT) substrates. Human in vitro intrinsic glucuronidation clearance (CLint, UGT) for 11 UGT substrates was evaluated using pooled intestinal microsomes (4.00-4620 μl · min -1 · mg-1) and corrected by the free fraction in the microsomal mixture (CLuint, UGT = 5.2-5133 μl · min-1 · mg-1). Eleven UGT substrates were stable against intestinal cytochrome P450, indicating intestinal glucuronidation has a main effect on human intestinal availability. Oral absorbability intestinal availability (FaFg) values were calculated from in vivo pharmacokinetic parameters in the literature (FaFg = 0.01-1.0). It was found that CLuint, UGT and human F aFg have an inverse relationship that can be fitted to a simplified intestinal availability model. Experiments using Supersomes from insect cells expressing UGT isoforms showed that the substrates used were conjugated by various UGT isoforms. These results suggest that combining the simplified intestinal availability model and in vitro conjugation assay make it possible to predict human FaFg regardless of UGT isoform.

UR - http://www.scopus.com/inward/record.url?scp=84865196896&partnerID=8YFLogxK

U2 - 10.1124/dmd.112.045476

DO - 10.1124/dmd.112.045476

M3 - 学術論文

C2 - 22685216

AN - SCOPUS:84865196896

SN - 0090-9556

VL - 40

SP - 1771

EP - 1777

JO - Drug Metabolism and Disposition

JF - Drug Metabolism and Disposition

IS - 9

ER -

Quantitative prediction of human intestinal glucuronidation effects on intestinal availability of UDP-glucuronosyltransferase substrates using in vitro data

Abstract

ASJC Scopus subject areas

Access to Document

Fingerprint

Cite this