Abstract
Sprouty 2 (Spry2) acts as an inhibitor of receptor tyrosine kinase signaling in various cellular contexts. Interestingly, Spry2 also prevents the c-Cbl-induced degradation of epidermal growth factor receptor (EGFR). We compared human fibroblasts malignantly transformed by overexpression of H-Ras(V12) oncogene to their nontransformed parental cells and found that the malignant cells express a high level of Spry2. These cells also exhibited an increase in the level of EGFR compared with their precursor cells. We found that intact EGFR was required if H-Ras-transformed cells were to grow in the absence of exogenous growth factors or form large colonies in agarose. When we decreased expression of Spry2, using a Spry2-specific shRNA, the H-Ras(V12)-transformed fibroblasts could no longer form large colonies in agarose, grow in reduced levels of serum, or form tumors in athymic mice. The level of active H-Ras in these cells remained unaltered. A similar, but less pronounced, effect in tumor formation was observed when Spry2 was down-regulated in human patient-derived fibrosarcoma cell lines. In H-Ras-transformed cells Spry2 sustained the level and the downstream signaling activity of EGFR. In the parental, non-H-Ras-transformed fibroblasts, expression of Spry2 resulted in the inhibition of H-Ras and ERK activation, suggesting that the positive effect of Spry2 in tumor formation is specific to H-Ras transformation. Co-immunoprecipitation studies with H-Ras-transformed cells revealed that Spry2 and H-Ras interact and that H-Ras interacts with Spry2-binding partners, c-Cbl and CIN85, in a Spry2-dependent manner. These data show that Spry2 plays a critical role in the ability of H-Ras-transformed cells to form tumors in athymic mice.
Highlights
Cells were being propagated, one of the cells spontaneously underwent two chromosomal translocations, giving rise to a cell strain, designated MSU1.1, that is chromosomally stable, nearly diploid, and partially growth factor-independent [2]
An independent H-RasV12-transformed cell strain (PH2MT) had high expression of Sprouty 2 (Spry2) (Fig. 1B). These results are expected if H-Ras oncogene is responsible for the high level of Spry2 protein found in PH3MT cells
Similar results were obtained when we examined the levels of epidermal growth factor receptor (EGFR) expression, after 10 min of stimulation with epidermal growth factor (EGF), in the other cell strains with down-regulated Spry2 (i.e. PH3MT-5A3 and -2B9), and in the control cell strains (Fig. 5B)
Summary
Cells and Cell Culture—The derivation of the cells of the MSU1 lineage has been described [2, 4]. The coding region of Spry was analyzed with the RNA interference design tool from Oligoengine, and two 19-nucleotide long regions, centered on positions 399 and 492 of the Spry coding region, were selected as target sites For each of these target sites, a 65-base pair, double-stranded oligonucleotide was synthesized, which encodes the sense and antisense orientations of the Spry target site, separated by a hairpin sequence of nine base pairs. Stable Infection—The pSuper.retro vectors encoding the Spry2-specifc or the nonspecific shRNA constructs and the gene coding for neomycin resistance were transiently transfected into the Phoenix packaging cell line, using Lipofectamine 2000 (Invitrogen) according to the manufacturer’s directions. Tumorigenicity Assay—The derivatives of PH3MT cells were assayed for their ability to form tumors in athymic mice as described [36]. Statistical significance was determined by using a two-tailed nonpaired Student’s t test
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