Discovery, Identification, and Characterization of Candidate Pharmacodynamic Markers of Methionine Aminopeptidase-2 Inhibition

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• 作者：Scott E. Warder ; Lora A. Tucker ; Shaun M. McLoughlin ; Tamara J. Strelitzer ; Joseph L. Meuth ; Qian Zhang ; George S. Sheppard ; Paul L. Richardson ; Rick Lesniewski ; Steven K. Davidsen ; Randy L. Bell ; Joh
• 刊名：Journal of Proteome Research
• 出版年：2008
• 出版时间：November 7, 2008
• 年：2008
• 卷：7
• 期：11
• 页码：4807-4820
• 全文大小：433K
• 年卷期：v.7,no.11(November 7, 2008)
• ISSN：1535-3907

文摘

The catalytic activity of methionine aminopeptidase-2 (MetAP2) has been pharmacologically linked to cell growth, angiogenesis, and tumor progression, making this an attractive target for cancer therapy. An assay for monitoring specific protein changes in response to MetAP2 inhibition, allowing pharmacokinetic (PK)/pharmacodynamic (PD) models to be established, could dramatically improve clinical decision-making. Candidate MetAP2-specific protein substrates were discovered from undigested cell culture-derived proteomes by MALDI-/SELDI-MS profiling and a biochemical method using ³⁵S-Met labeled protein lysates. Substrates were identified either as intact proteins by FT-ICR-MS or applying in-gel protease digestions followed by LC-MS/MS. The combination of these approaches led to the discovery of novel MetAP2-specific substrates including thioredoxin-1 (Trx-1), SH3 binding glutamic acid rich-like protein (SH3BGRL), and eukaryotic elongation factor-2 (eEF2). These studies also confirmed glyceraldehye 3-phosphate dehydrogenase (GAPDH) and cyclophillin A (CypA) as MetAP2 substrates. Additional data in support of these proteins as MetAP2-specific substrates were provided by in vitro MetAP1/MetAP2 enzyme assays with the corresponding N-terminal derived peptides and 1D/2D Western analyses of cellular and tissue lysates. FT-ICR-MS characterization of all intact species of the 18 kDa substrate, CypA, enabled a SELDI-MS cell-based assay to be developed for correlating N-terminal processing and inhibition of proliferation. The MetAP2-specific protein substrates discovered in this study have diverse properties that should facilitate the development of reagents for testing in preclinical and clinical environments.