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Abstract
Src homology 2 (SH2) domains are evolutionary conserved small protein modules that bind specifically to tyrosine-phosphorylated peptides. More than 100 SH2 domains have been identified in proteins encoded by the human genome. The binding specificity of these domains plays a critical role in signaling within the cell, mediating the relocalization and interaction of proteins in response to changes in tyrosine phosphorylation states. Here we developed an SH2 domain profiling method based on a multiplexed fluorescent microsphere assay in which various SH2 domains are used to probe the global state of tyrosine phosphorylation within a cell and to screen synthetic peptides that specifically bind to each SH2 domain. The multiplexed, fluorescent microsphere-based assay is a recently developed technology that can potentially detect a wide variety of interactions between biological molecules. We constructed 25-plex SH2 domain-GST fusion protein-conjugated fluorescent microsphere sets to investigate phosphorylation-mediated cell signaling through the specific binding of SH2 domains to activated target proteins. The response of HeLa, COS-1, A431, and 293 cells and four breast cancer cell lines to epidermal growth factor and insulin were quantitatively profiled using this novel microsphere-based, multiplexed, high throughput assay system.
Highlights
Src homology 2 (SH2) domains are evolutionary conserved small protein modules that bind to tyrosine-phosphorylated peptides
Tyrosine phosphorylation is mediated by protein-tyrosine kinases (PTKs),1 and more than 90 PTK genes have been identified in the human genome [1]
We profiled the response of the breast cancer cell lines Hcc1806, MCF7, Hcc1599, and Hcc1143 to EGF treatment using the 25-plex microsphere assay to measure Epidermal growth factor receptor (EGFR) and phosphotyrosine protein binding to SH2 domains (Fig. 7)
Summary
Nck-c-Jun N-terminal kinase, phospholipase C␥-protein kinase C, and phosphoinositide 3-kinase-Akt pathways [16]. Measurements of mRNA transcript levels do not always accurately represent the corresponding protein abundance or activity, due in part to the post-translation modification of proteins This may explain the increasing demand for new technologies to analyze the functions of proteins, such as tyrosine phosphorylation and protein interactions mediated by this process. We describe a SH2 domain-based assay we developed to profile the interaction of RTKs or other phosphotyrosine proteins with downstream molecules in their signaling pathways. This assay is a microsphere-based method in which various SH2 domains are coupled to different microspheres to capture any binding proteins in a sample.
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