EPHB6

Abstract: The EPH family is the largest subfamily of receptor protein tyrosine kinases, consisting of the EPHA and EPHB subgroups. Ephrin-B1, ephrin-B2, and ephrin-B3 are ligands of the EPHB subgroup and are encoded by the EFNB1, EFNB2, and EFNB3 genes, respectively. We have shown previously that EPHB2 transcripts are expressed in six small cell lung carcinoma (SCLC) cell lines. In this study, we examined the expression of EPHB1, EPHB2, EPHB3, EPHB4, and EPHB6 in 4 SCLC tumor specimens and 14 cell lines including 3 cell lines derived from these tumor specimens. To investigate whether potential autocrine loops of EPHB receptors and ephrin-B ligands exist in SCLC, the expression of EFNB1, EFNB2, and EFNB3 was also examined. Our data show that transcripts encoding multiple members of the EPHB subgroup and the ephrin-B subgroup are coexpressed in SCLC cell lines and tumors. These results suggest that the EPHB subgroup receptor kinases may modulate the biological behavior of SCLC through autocrine and/or juxtacrine activation by ephrin-B ligands that are expressed in the same or neighboring cells.

Abstract: Overexpression of various members of the Eph receptor tyrosine kinases and their ephrin ligands has been frequently reported in cancer. In contrast, a loss of EphB6 gene expression has been correlated with a poor prognosis in human neuroblastoma, suggesting a distinct role for this receptor compared to other family members. More recently, an important role of EphB6 signalling in T-cells has been described, suggesting possibly deleterious immunologic effects of a loss of EphB6 in cancer progression. We investigated the expression of EphB6 in melanocytic tumors. EphB6 mRNA of 22 microdissected tissues (7 benign nevi, 7 melanomas, 8 metastases) and 10 different cell lines (normal melanocytes, non-metastatic/metastatic melanoma cell lines) were measured by quantitative real-time RT-PCR. For visualization of EphB6 protein expression, immunohistochemistry of 32 melanocytic lesions were performed. On the mRNA level, the benign nevi revealed the highest EphB6 expression (mean = 1.43), while melanomas (mean = 0.63) and metastases (mean = 0.08; p=0.001) displayed a progressive and significant reduction of EphB6 expression. Accordingly, established melanoma cell lines with metastatic potential showed low EphB6 expression in comparison to normal melanocytes and to most of the melanoma cell lines. Immunohistochemistry revealed homogeneous staining in common nevi, whereas in malignant melanomas and metastases a heterogeneously positive to completely negative EphB6 staining was observed. Remarkably, Spitz nevi stained similarly to ordinary melanocytic nevi. Taken together, we show that melanoma progression to metastatic disease is associated with a significant reduction of EphB6 gene expression which may have considerable consequences for the prognosis of malignant melanoma patients and possible gene-therapeutic approaches.

Abstract: Breast cancer mortality in women is largely attributed to the metastasis of primary breast tumors. We have analysed the function of EphB6, a kinase-deficient receptor, in the invasive phenotype of breast cancer cell lines. We have demonstrated the loss of EphB6 protein in invasive breast carcinoma cell lines and absence of EphB6 transcript in a metastatic breast tumor specimen. The function of EphB6 in invasiveness was confirmed by the ability of EphB6 protein to decrease the in vitro invasiveness of MDA-MB-231, MDA-MB-435 and BT549 cells transfected with an EphB6 expression construct. In MDA-MB-231 cells, the decreased invasiveness appeared to be mediated by decreased transcript levels of matrix metalloproteinase (MMP)7 and MMP19, and increased transcript levels of tissue inhibitors of metalloproteinase 2. In addition to affecting invasiveness phenotype, EphB6 overexpression was also responsible for altering the growth rate and colony-forming efficiency of MCF-7 and MDA-MB-231 cells in a cell-line-specific manner. We suggest that the significant decrease in the invasiveness of MDA-MB-231 and other cell lines transfected with EphB6 is likely occurring by the ability of EphB6 to transduce signals to the nucleus and altering relevant gene expression.