Journal of Proteomics & Bioinformatics
Open Access

Abstract

Comparative Proteomics and Network Analysis Identify PKC Epsilon Underlying Long-Chain Fatty Acid Signaling

Tomo Yonezawa, Riho Kurata, Atsushi Tajima, Xiaofeng Cui, Hiroki Maruta, Hirofumi Nakaoka, Keiichi Nakajima and Hidetoshi Inoko

Long-chain fatty acid possesses myriad roles in the biological function of the cells, not only as an energy substrate but also as substrates for cell membrane synthesis and as precursors for intracellular signaling molecules. However, little is known about the biological pathways that are stimulated by long-chain fatty acid. In order to identify the pathway of long-chain fatty acid, we performed 2-dimensional gel electrophoresis in the cells treated with or without oleate, and then analyzed 648 protein spots using PDQuest software and narrowed down 22 significant changing spots by statistical criterion. We also tried to determine these spots by MALDI-QIT-TOF-MS and SWISSPROT database query. We identified 11 proteins and predicted the biological network using available data sets from protein-protein interaction database. This prediction indicated that several protein kinase Cs (PKCs) underlie longchain fatty acid signaling. Indeed, oleate stimulated predicted PKC pathways. In expression array, oleate significantly up-regulated only PKC epsilon, but not other PKCs, in transcriptional levels. Collectively, our proteomics and network analysis implicates that PKC epsilon pathway plays an important role in long-chain fatty acid signaling.