Background:The HER-2 receptor undergoes a proteolytic cleavage generating an NH 2 -terminally truncated fragment, p95HER-2, that is membrane-associated and tyrosine-phosphorylated.We have reported that p95HER-2, but not the full-length receptor, p185HER-2, correlated with the extent of lymph node involvement in patients with breast cancer and its expression was significantly enhanced in nodal metastatic tissue. These facts suggested an important role for p95HER-2 either as a marker or cause of metastasis and poor outcome in breast cancer. In this work, we have studied the prognostic value of p95HER-2 in breast cancer. Methods: Primary breast tumor tissues (n = 483) were from surgical resections conducted in hospitals in two different countries: the U.S. (n = 334) and Spain (n = 149). HER-2 protein forms, including p185HER-2 and p95HER-2, were examined in extracts of primary breast tumors by Western blot analysis. The levels of the two forms (high or low) were tested for association with other clinicopathologic factors and for correlation with disease-free survival. Results:The median follow-up was 46 months. A high level of p95HER-2 in primary tumor tissue correlated with reduced 5-year disease-free survival (hazard ratio, 2.55; 95% confidence interval, 2.13-8.01; P < 0.0001). The median time for disease-free survival was 32 versus 139 months in patients with low levels of p95HER-2. In comparison, high levels of the full-length p185HER-2 did not significantly correlate with poor outcome (P > 0.1). Multivariate analysis revealed that high p95HER-2 was an independent predictor of disease-free survival (hazard ratio, 1.59; 95% confidence interval, 1.246-1.990; P = 0.0004). Conclusions: p95HER-2 expression is an independent prognostic factor in breast cancer and defines a group of patients with HER-2-positive breast cancer with significantly worse outcome.
Although androgens exert major effects on bone remodeling, the mechanisms by which they exert their effects remain unclear. Recently, it has become apparent that receptors for sex steroids may be present in osteoblastic cells. We have examined several cell lines with osteoblastic phenotypes to determine if specific, high affinity androgen receptors are present. Two cell lines of human origin (Saos-2 and U2-OS) and one of rat origin (UMR-106.01) were studied. Androgen binding sites were present in all cell lines. Binding affinities were high (KD = 1.6 - 2.5 x 10(-10) M), and similar to those in classical androgen target tissues (prostate, kidney). Concentrations were greater in the human cell lines (1277 and 1605 sites/cell) than in the rodent line (74 sites/cell). In the human cell lines androgen binding was also specific and typical of androgen receptors in other tissues. Specific estrogen binding was not present in the UMR-106.01 cells, and no estrogen receptors were detectable in the human cell lines using an enzyme-linked receptor immunoassay. Specific binding for progesterone was also absent in the UMR-106.01 cells, but progesterone receptors were detected immunologically in the Saos-2 (119 sites/cell) and U2-OS (118 sites/cell) lines. These findings indicate the presence of androgen receptors that are of similar character to those in classical androgen target tissues, and suggest that the study of these cell lines may be useful in the study of the regulation of androgen effects in osteoblasts.
GRB7 gene encodes a multi-domain signal transduction molecule and is part of the core of the HER-2 amplicon. GRB7 is commonly co-amplified and overexpressed with HER-2 in human breast cancer. This study addresses the role of GRB7 in HER-2 positive human breast cancers resistant to HER-2 targeted therapy. HCC1954, 21MT1, and JIMT1 are basal like HER-2 positive breast cancer cell lines based on expression profiling. These three cell lines are resistant to trastuzumab and lapatinib treatment. Knockdown of GRB7 protein expression with siRNA transfection as well as lentiviral vector mediated shRNA over-expression decreased the growth of HCC1954, 21MT1, and JIMT1 cells in vitro and the growth of tumor xenografts these cells formed in animal models. When assayed by ki-67 staining and TUNEL assay, the mechanism of reduced tumor xenograft growth appeared to be distinct. Reduced proliferation and increased apoptosis were seen in 21MT1 cells, while reduced proliferation was seen in HCC1954 cells and increased apoptosis in JIMT1 cells. Phospho-proteome profiling found HER-1 tyrosine phosphorylation was reduced with GRB7 knockdown in JIMT1 cells. Immuno-blotting and immuno-precipitation experiments found HER-1 phosphorylation was reduced with GRB7 knock down in all three cell lines. HER-1 knock down via siRNA transient transfection as well as blocking HER-1 function with panitumumab decreased proliferation of all three cell lines in vitro. Our study finds that GRB7 has an essential growth promoting function which is mediated in part by HER-1 activation. The potential of HER-1 targeting in therapy resistant HER-2 positive breast cancer merits further study.
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