posted on 2006-12-01, 00:00authored byThomas O. Metz, Jon M. Jacobs, Marina A. Gritsenko, Ghislaine Fontès, Wei-Jun Qian, David G. Camp, Vincent Poitout, Richard D. Smith
The pancreatic beta-cell plays a central role in the maintenance of glucose homeostasis and in the
pathogenesis of both type 1 and type 2 diabetes mellitus. Elucidation of the insulin secretory defects
observed in diabetes first requires a better understanding of the complex mechanisms regulating insulin
secretion, which are only partly understood. While there have been reports detailing proteomic analyses
of islet cell lines or isolated rodent islets, the information gained is not always applicable to humans.
Therefore, definition of the human islet proteome could contribute to a better understanding of islet
biology and lead to more effective treatment strategies. We have applied a two-dimensional LC−MS/MS-based analysis to the characterization of the human islet proteome, resulting in the confident
identification of 29 021 different tryptic peptides covering 3365 proteins (≥2 unique peptide identifications per protein). As expected, the three major islet hormones (insulin, glucagon, and somatostatin)
were detected, as well as various beta-cell enriched secretory products, ion channels, and transcription
factors. In addition, significant proteome coverage of metabolic enzymes and cellular pathways was
observed, including the integrin signaling cascade and the MAP kinase, NF-κβ, and JAK/STAT pathways.
The resulting peptide reference library provides a resource for future higher throughput and quantitative
studies of islet biology.
Keywords: pancreatic islets • liquid chromatography • electrospray • mass spectrometry • proteomics • linear ion
trap