Your search keyword '"Papoian, Thomas"' showing total 2 results

1. Effects of 31 FDA approved small-molecule kinase inhibitors on isolated rat liver mitochondria.

Author

Zhang, Jun, Salminen, Alec, Yang, Xi, Luo, Yong, Wu, Qiangen, White, Matthew, Greenhaw, James, Ren, Lijun, Bryant, Matthew, Salminen, William, Papoian, Thomas, Mattes, William, and Shi, Qiang

Subjects

KINASE inhibitors, LIVER mitochondria, HEPATOTOXICOLOGY, LIVER injuries

Abstract

The FDA has approved 31 small-molecule kinase inhibitors (KIs) for human use as of November 2016, with six having black box warnings for hepatotoxicity (BBW-H) in product labeling. The precise mechanisms and risk factors for KI-induced hepatotoxicity are poorly understood. Here, the 31 KIs were tested in isolated rat liver mitochondria, an in vitro system recently proposed to be a useful tool to predict drug-induced hepatotoxicity in humans. The KIs were incubated with mitochondria or submitochondrial particles at concentrations ranging from therapeutic maximal blood concentrations (Cmax) levels to 100-fold Cmax levels. Ten endpoints were measured, including oxygen consumption rate, inner membrane potential, cytochrome c release, swelling, reactive oxygen species, and individual respiratory chain complex (I-V) activities. Of the 31 KIs examined only three including sorafenib, regorafenib and pazopanib, all of which are hepatotoxic, caused significant mitochondrial toxicity at concentrations equal to the Cmax, indicating that mitochondrial toxicity likely contributes to the pathogenesis of hepatotoxicity associated with these KIs. At concentrations equal to 100-fold Cmax, 18 KIs were found to be toxic to mitochondria, and among six KIs with BBW-H, mitochondrial injury was induced by regorafenib, lapatinib, idelalisib, and pazopanib, but not ponatinib, or sunitinib. Mitochondrial liability at 100-fold Cmax had a positive predictive power (PPV) of 72% and negative predictive power (NPV) of 33% in predicting human KI hepatotoxicity as defined by product labeling, with the sensitivity and specificity being 62% and 44%, respectively. Similar predictive power was obtained using the criterion of Cmax ≥1.1 µM or daily dose ≥100 mg. Mitochondrial liability at 1-2.5-fold Cmax showed a 100% PPV and specificity, though the NPV and sensitivity were 32% and 14%, respectively. These data provide novel mechanistic insights into KI hepatotoxicity and indicate that mitochondrial toxicity at therapeutic levels can help identify hepatotoxic KIs. [ABSTRACT FROM AUTHOR]

Published

2017

2. Secondary pharmacology data to assess potential off-target activity of new drugs: a regulatory perspective.

Author

Papoian, Thomas, Chiu, Haw-Jyh, Elayan, Ikram, Jagadeesh, Gowraganahalli, Khan, Imran, Laniyonu, Adebayo A., Li, Cindy Xinguang, Saulnier, Muriel, Simpson, Natalie, and Yang, Baichun

Subjects

*PHARMACOLOGY, *DATA, *DRUG development, *CLINICAL drug trials

Abstract

The article discusses the utility of and regulatory perspectives on in vitro secondary pharmacology data. It outlines how such data are used in the Center for Drug Evaluation and Research at the U.S. Food and Drug Administration. It also explains the said secondary pharmacology data are usually submitted.

Published

2015