Screening of human bladder tumors and urine sediments for the presence of H-ras mutations

A series of 111 human bladder tumors were screened using oligonucleotide mutant specific probes, restriction enzyme analysis and single-stranded confirmation polymorphism (SSCP) for the presence of H-ras activation events. Thirty-three tumors were found to harbor H-ras mutations where a glycine to valine (G-->T) change in codon 12 was the most common point mutation recorded (26 tumors). Additional mutations involved glycine to cysteine at codon 13 (2 tumors) and glutamine to arginine/lysine/leucine at codon 61 (3/1/1 tumors, respectively). Ambiguous signals recorded with oligonucleotide probes were further analyzed using SSCP analysis revealing the presence of H-ras mutations in restricted regions of some tumors. The apparent sensitivity of SSCP enabled us to extend this study to DNA isolated from urine sediments where 4 of the 9 patients studied showed representation of mutant H-ras. Our study demonstrates a sensitive, non-invasive assay for the screening of urine-borne cells, with no requirement for prior knowledge of the mutational change at the H-ras locus.

Timing of induction of tgf-alpha in ras induced human bladder neoplastic progression

Introduction of a H-ras oncogene into an SV-40 immortalized human urothelial cell lines (SV-HUC) results in morphologically altered cell clones which acquire tumorigenic potential following serial passaging in culture. Early and late passage cells, from individual ras transfected clones exhibiting different tumorigenic potential, display increased growth factor synthesis in mitogenic assays. Northern blot analysis revealed induction of TGF-alpha mRNA concomitant with the introduction of a H-ras oncogene with no modulation in EGF receptor expression observed throughout neoplastic progression. Consistent with completion of an autocrine loop, down modulation and activation of EGF receptors was observed in early passage cells coincident with TGF-alpha expression. In this human urothelial progression model TGF-alpha secretion follows the introduction of a H-ras oncogene prior to the acquisition of tumorigenic potential.