Abstract 2423: Development of a validated high throughput ELISA assay for gamma H2AX as a pharmacodynamic marker

Abstract

Abstract Histone H2AX is a 14 kDa ubiquitous member of the H2A histone family that becomes rapidly phosphorylated at Serine 139 by ATM and ATR kinases to yield a form known as γ-H2AX in response to double-strand DNA damage and apoptosis. γ-H2AX is an ideal Pharmacodynamic (PD) surrogate marker to measure molecular responses to a large number of drugs; however, methods such as western blots and immunohistochemistry are widely used but are difficult to validate to regulatory standards, and not suitable for high throughput screening applications. To address this need, we have developed a novel high throughput ELISA assay to measure γ-H2AX levels in cellular extracts and phosphorylation of H2AX in response to therapeutic intervention. This assay documents differences of γ-H2AX levels in PBMC, cultured cells, tissue biopsies, and will be useful in future clinical trials providing one of many needed tools to enable hypothesis-driven preclinical drug design strategies.p Background Histone H2AX is a 14 kDa ubiquitous member of the H2A histone family that contains an evolutionarily conserved SQ motif at the C-terminus in eukaryotes. Serine 139 within this motif becomes rapidly phosphorylated by ATM and ATR kinases to yield a form known as γ-H2AX in response to double-strand DNA damage and apoptosis (1). During the past year investigators have confirmed the value of γ-H2AX as an important Pharmacodynamic (PD) marker (2) and genotoxicity endpoint (3). There are over 21 anticancer drugs that are known to result in γ-H2AX formation. As a result, γ-H2AX is an ideal Pharmacodynamic PD surrogate marker to measure molecular responses to a large number of drugs (4,5,6). While many of these drugs have already garnered regulatory approval, and are currently being used to manage various types of cancers, they are the subject of ongoing clinical studies to evaluate their efficacy when used alone or in combination with molecularly targeted drugs. While methods such as western blots and immunohistochemistry are widely used but are difficult to validate to regulatory standards, the ELISA method is the most quantifiable and easiest to validate, and not suitable for high throughput screening applications. To address this need Trevigen's quantitative pharmacodynamic HT γ-H2AX ELISA assay measures γ-H2AX levels in cellular extracts and phosphorylation of H2AX in response to therapeutic intervention. This assay documents differences of γ-H2AX levels in PBMC, cultured cells, tissue biopsies, and will be useful in future clinical trials providing one of many needed tools to enable hypothesis-driven preclinical drug design strategies. Citation Format: Jay George, Hai Xu. Development of a validated high throughput ELISA assay for gamma H2AX as a pharmacodynamic marker. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 2423. doi:10.1158/1538-7445.AM2014-2423