Cytochrome P450 3A4 and P‐glycoprotein mediate the interaction between an oral erythromycin breath test and rifampin

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/109878/1/cptclpt2002114.pd

Highlights from the International Transporter Consortium (ITC) 2nd Workshop

The 2nd International Transporter Consortium workshop was held in March 2012 to expand upon previous whitepaper recommendations, discuss recent regulatory draft guidance documents on transporter-drug interactions, and highlight transporter-related challenges in drug development. The goal was to discuss additional clinically-relevant transporters (MATEs, MRP2, BSEP), best-practice methodologies, and re-evaluate ITC decision trees based upon actual case studies. The outcome of the workshop will be a series of whitepapers targeted for publication in 2013

P-glycoprotein expression, localization, and function in sandwich-cultured primary rat and human hepatocytes : relevance to the hepatobiliary disposition of a model opioid peptide

PURPOSE: The isolation of hepatocytes from intact liver involves collagenase digestion of the tissue, resulting in loss of cell polarization and functional vectorial excretion. These studies examined repolarization, localization of P-glycoprotein (P-gp) to the canalicular domain of the hepatocyte, and re-establishment of vectorial transport in sandwich-cultured (SC) rat and human primary hepatocytes. METHODS: Protein localization and expression were determined in SC hepatocytes by confocal microscopy and Western blotting, respectively. Transporter function was evaluated by measuring [D-penicillamine2,5]enkephalin (3H-DPDPE) and 5 (and 6)-carboxy-2',7'-dichlorofluorescein (CDF) biliary excretion in SC hepatocytes. RESULTS: P-gp and the canalicular marker protein dipeptidyl peptidase IV (DPPIV) co-localized by Day 3 and Day 6 in SC rat hepatocytes and SC human hepatocytes, respectively, consistent with canalicular network formation visualized by light microscopy. Co-localization of multidrug resistance associated protein 2 (MRP2) and P-gp in SC human hepatocytes was observed on Day 6 in culture. Expression levels of P-gp increased slightly in both species over days in culture; similar expression was observed for MRP2 in SC human hepatocytes. Oatp1a1 expression in SC rat hepatocytes was maintained over days in culture, whereas Oatp1a4 expression decreased. OATP1B1 expression decreased slightly on Day 3 in SC human hepatocytes. OATP1B3 expression was constant in SC human hepatocytes. In vitro biliary excretion of the opioid peptide 3H-DPDPE correlated with the proper localization of canalicular proteins in both species. Excretion of CDF in SC human hepatocytes confirmed network formation and MRP2 function. CONCLUSIONS: These studies indicate that SC hepatocytes repolarize and traffic functional canalicular transport proteins to the appropriate cellular domain

Design and synthesis of lactam-thiophene carboxylic acids as potent hepatitis C virus polymerase inhibitors

Herein we report the successful incorporation of a lactam as an amide replacement in the design of hepatitis C virus NS5B Site II thiophene carboxylic acid inhibitors. Optimizing potency in a replicon assay and minimizing potential risk for CYP3A4 induction led to the discovery of inhibitor 22a. This lead compound has a favorable pharmacokinetic profile in rats and dogs

Mechanistic insights of an immunological adverse event induced by an anti-KIT antibody drug conjugate and mitigation strategies

Purpose: Hypersensitivity reactions (HSRs) were observed in three patients dosed in a phase I clinical trial treated with LOP628, a KIT targeted antibody drug conjugate. Mast cell degranulation was implicated as the root cause for the HSR. Underlying mechanism of this reported HSR was investigated with an aim to identifying potential mitigation strategies. Experimental Design: Biomarkers for mast cell degranulation were evaluated in patient samples and in human peripheral blood cell-derived mast cell (PBC-MC) cultures treated with LOP628. Mitigation strategies interrogated include pretreatment of mast cells with small molecule inhibitors that target KIT or signaling pathways downstream of FceR1, FcgR, and treatment with Fc silencing antibody formats. Results: Transient elevation of serum tryptase was observed in patients 1-hour posttreatment of LOP628. In agreement with the clinical observation, LOP628 and its parental antibody LMJ729 induced degranulation of human PBC-MCs. Unexpectedly, KIT small molecule inhibitors did not abrogate mast cell degranulation. By contrast, small molecule inhibitors that targeted pathways downstream of Fc receptors blunted degranulation. Furthermore, interference of the KIT antibody to engage Fc receptors by pre-incubation with IgG or using engineered Fc silencing mutations reduced or prevented degranulation. Characterization of Fcg receptors revealed human PBC-MCs expressed both FcgRII and low levels of FcgRI. Interestingly, increasing the level of FcgRI upon addition of IFNg, significantly enhanced LOP628-mediated mast cell degranulation. Conclusions: Our data suggest LOP628-mediated mast cell degranulation is the likely cause of HSR observed in the clinic due to co-engagement of the FcgR and KIT, resulting in mast cell activation. Clin Cancer Res; 24(14); 3465-74. 2018 AACR