Cellular processes of v-Src transformation revealed by gene profiling of primary cells - Implications for human cancer

<p>Abstract</p> <p>Background</p> <p>Cell transformation by the Src tyrosine kinase is characterized by extensive changes in gene expression. In this study, we took advantage of several strains of the Rous sarcoma virus (RSV) to characterize the patterns of v-Src-dependent gene expression in two different primary cell types, namely chicken embryo fibroblasts (CEF) and chicken neuroretinal (CNR) cells. We identified a common set of v-Src regulated genes and assessed if their expression is associated with disease-free survival using several independent human tumor data sets.</p> <p>Methods</p> <p>CEF and CNR cells were infected with transforming, non-transforming, and temperature sensitive mutants of RSV to identify the patterns of gene expression in response to v-Src-transformation. Microarray analysis was used to measure changes in gene expression and to define a common set of v-Src regulated genes (CSR genes) in CEF and CNR cells. A clustering enrichment regime using the CSR genes and two independent breast tumor data-sets was used to identify a 42-gene aggressive tumor gene signature. The aggressive gene signature was tested for its prognostic value by conducting survival analyses on six additional tumor data sets.</p> <p>Results</p> <p>The analysis of CEF and CNR cells revealed that cell transformation by v-Src alters the expression of 6% of the protein coding genes of the genome. A common set of 175 v-Src regulated genes (CSR genes) was regulated in both CEF and CNR cells. Within the CSR gene set, a group of 42 v-Src inducible genes was associated with reduced disease- and metastasis-free survival in several independent patient cohorts with breast or lung cancer. Gene classes represented within this group include DNA replication, cell cycle, the DNA damage and stress responses, and blood vessel morphogenesis.</p> <p>Conclusion</p> <p>By studying the v-Src-dependent changes in gene expression in two types of primary cells, we identified a set of 42 inducible genes associated with poor prognosis in breast and lung cancer. The identification of these genes provides a set of biomarkers of aggressive tumor behavior and a framework for the study of cancer cells characterized by elevated Src kinase activity.</p

Specific protein-DNA complexes: immunodetection of the protein component after gel electrophoresis and Western blotting

A method is described to determine the presence and the relative amount of proteins within specific protein-DNA complexes. The system studied is the LexA repressor from Escherichia coli and its interaction with the operator of the caa gene encoding the bacterial toxin colicin A. After separation of the free and the complexed 32P-labeled DNA on a native polyacrylamide gel, the bound proteins are transferred on a polyvinylidine difluoride (PVDF) membrane after sodium dodecyl sulfate denaturation. Development of the protein on the membrane was achieved on reaction with an anti-LexA antibody and the use of a second anti-antibody crosslinked with alkaline phosphatase. The phosphatase activity is monitored using 5-bromo-4-chloro-3-indolyl phosphate as a substrate and 4-nitroblue tetrazolium salt. A quantitation by densitometry of both the stained protein bands on the PVDF membrane and the DNA on autoradiograms allowed us to assign the relative stoichiometry of the two different complexes formed between LexA and the caa operator. The method should allow unraveling of complicated band shift patterns arising from the presence of several binding sites for a same protein, as in our case, or from the presence of different proteins binding to a same DNA fragment