A paradigm shift in EPH receptor interaction: biological relevance of EPHB6 interaction with EPHA2 and EPHB2 in breast carcinoma cell lines.

EPH receptors are the largest known family of receptor tyrosine kinases characterized in humans. These proteins are involved in axon guidance, tissue organization, synaptic plasticity, vascular development and the progression of various diseases including cancer. The varied biological effects of EPH receptors are mediated in part by the expression of these proteins and their intracellular binding proteins. The ability of EPH molecules to form heterodimers within their own class has been suggested, although not exhaustively characterized. We have clarified this phenomenon by showing that EPHB6, a kinase-deficient receptor, can interact with EPHB2 in mammalian cells, and more significantly EPHB6 interacts with EPHA2. However, EPHB6 does not interact with another kinase-deficient receptor, EPHA10. The interaction between EPHB6 and EPHA2 is the first demonstration of an A-type receptor interacting with a B-type receptor. Furthermore, we correlated relative expression of EPHB6, EPHB2 and EPHA2 with non-invasive and invasive phenotypes of breast tumor cell lines. Our results indicate that tumor invasiveness-suppressing activity of EPHB6 is mediated by its ability to sequester other kinase-sufficient and oncogenic EPH receptors. These observations suggest that cellular phenotypes may, in part, be attributed to a combinatorial expression of EPH receptors and heteromeric interactions among the same class, as well as between two classes, of EPH receptors. Our results also suggest that EPHA10 may transduce signals by interacting with other kinase-sufficient receptors in a similar manner.

DNA-based assay for EPHB6 expression in breast carcinoma cells as a potential diagnostic test for detecting tumor cells in circulation.

The early detection of breast cancer is critical for improved treatment and better management of the disease. The dissemination of tumor cells into the blood stream is known to occur early in tumor progression and these circulating tumor cells (CTCs) may be detectable before the occurrence of tumor metastasis. Methylation-specific polymerase chain reaction (MSP) can be exploited for detecting CTCs on the basis of differential methylation of numerous gene promoters in normal and carcinoma cells. In this study, we describe the relationship between loss of Ephrin receptor B6 (EPHB6) expression and the aggressiveness of breast carcinoma cell lines (BCCLs). The loss of EPHB6 expression in more aggressive BCCLs is regulated in a methylation-dependent manner. We demonstrate the ability of an EPHB6 MSP to distinguish between methylated and unmethylated EPHB6 promoters, and to predict expression of the EPHB6 transcript and protein. The sensitivity of MSP was related to the volume of blood processed for DNA isolation. As few as 50 tumor cells in 5 ml blood were detectable with a high efficiency. However, the detection of 10 tumor cells/5 ml was not as efficient. On the other hand, 5 tumor cells or 100 pg of free DNA in 200 microl of blood was also easily detectable. Our results suggest that MSP could be applied to detect even a single cell in 1 ml of blood by employing appropriate modifications. The EPHB6 MSP has clinical implications for the prognosis and/or diagnosis of breast and other cancer types including neuroblastoma, melanoma, and non-small cell lung carcinoma wherein EPHB6 expression is lost in more aggressive forms of the disease.

Potential clinical relevance of Eph receptors and ephrin ligands expressed in prostate carcinoma cell lines.

The family of Eph and ephrin receptors is involved in a variety of functions in normal cells, and the alterations in their expression profiles have been observed in several cancers. We have compared the transcripts for Eph receptors and ephrin ligands in cell lines established from normal prostate epithelium and several carcinoma cell lines isolated from prostate tumors of varying degree of metastasis. These cell lines included NPTX, CTPX, LNCaP, DU145, PC-3, and PC-3ML. The cell lines displayed characteristic pattern of expression for specific Eph receptors and ephrin ligands, thus allowing identification of Eph receptor signatures for a particular cell line. The sensitivity of these transcripts to genome methylation is also investigated by treating the cells with 5-aza-2'-deoxycytidine. The comparison of expression profiles revealed that normal prostate and primary prostate tumor cell lines differ in the expression of EphA3, EphB3, and ephrin A3 that are over-expressed in normal prostate. Furthermore, the transcript levels for EphA1 decrease progressively from normal prostate to primary prostate tumor cell line and metastatic tumor cells. A converse relationship was observed for ephrin B2. The treatment of cells with 5-aza-2'-deoxycytidine revealed the sensitivity of EphA3, EphA10, EphB3, and EphB6 to methylation status of genomic DNA. The utility of methylation specific PCR to identify prostate tumor cells and the importance of specific Eph receptors and ephrin ligands in initiation and progression of prostate tumor are discussed.

Transcriptional silencing of EphB6 receptor tyrosine kinase in invasive breast carcinoma cells and detection of methylated promoter by methylation specific PCR.

The receptor tyrosine kinase EphB6 is expressed at reasonable levels in normal breast cells. It shows decreased abundance in non-invasive breast carcinoma cells and is transcriptionally silenced in invasive breast carcinoma cells. We have characterized EphB6 promoter and correlated the expression of EphB6 transcript to differential methylation of the promoter region. The demethylation of promoter sequence in vivo by growth in media containing 5-aza-2'-deoxycytidine restores the expression of EphB6 to normal levels in breast carcinoma cells, and the ability of the promoter to initiate transcription of a reporter gene is lost after methylation of the promoter sequence. The promoter region has binding sites for various factors such as SP1 and p300. The specific methylation of CpG dinucleotides has allowed us to design primers that can selectively amplify the methylated promoter and thus facilitate identification of normal, non-invasive, and invasive breast cells. The potential significance of EphB6 to serve as a diagnostic and prognostic indicator is discussed.

Invasiveness of breast carcinoma cells and transcript profile: Eph receptors and ephrin ligands as molecular markers of potential diagnostic and prognostic application.

The Eph family of receptors, with 14 members in humans, makes up the largest group of receptor tyrosine kinases. These Eph receptors, along with their ligands, the 8 members of the ephrin family of ligands are involved in diverse developmental functions, including hindbrain development in vertebrates, tissue patterning, and angiogenesis. These Eph receptors and ephrin ligands have also been identified as important regulators in the development and progression of cancer. We have presented here a systematic and comprehensive investigation of the Eph/ephrin expression profiles of MCF-10A, MCF-7, and MDA-MB-231 cells representing normal breast, non-invasive breast tumor, and invasive tumor, respectively, based on their characteristic phenotypes in Matrigel matrix. The data have allowed us to correlate the gene expression profile with the cell phenotype that has potential application in tumor diagnostics. We demonstrate here that upregulation of EphA2, A7, A10, and ephrinA2 and B3 is likely involved in tumorigenesis and/or invasiveness, while downregulation of EphA1, A3, A4, A8, B3, B4, B6, and ephrinA1 and B1 may be particularly important in invasiveness. Based on these results we discuss the role of EphA2 and ephrinA1 combination in malignancy. The data have provided clues as to the importance of these molecules in the progression of breast cancer and specifically identified EphB6, a kinase-deficient receptor, which is downregulated in the most aggressive cell line, as reported for several other cancer types including neuroblastoma and melanoma suggesting its potential as a prognostic indicator in breast cancer as well.