Abstract
GPR56 is an orphan G protein - coupled receptor, mutations of which have recently been associated with bilateral frontoparietal polymicrogyria, a rare neurologic disease that has implications in brain development. However, no phenotype beyond central nervous system has yet been described for the GPR56-null mutations despite abundant GPR56 expression in many non - central nervous system adult tissues. In the present study, we show that higher GPR56 expression is correlated with the cellular transformation phenotypes of several cancer tissues compared with their normal counterparts, implying a potential oncogenic function. RNA interference-mediated GPR56 silencing results in apoptosis induction and reduced anchorage-independent growth of cancer cells via increased anoikis, whereas cDNA overexpression resulted in increased foci formation in mouse fibroblast NIH3T3 cell line. When GPR56 silencing was induced in vivo in several xenograft tumor models, significant tumor responses (including regression) were observed, suggesting the potential of targeting GPR56 in the development of tumor therapies. The expression profiling of GPR56-silenced A2058 melanoma cell line revealed several genes whose expression was affected by GPR56 silencing, particularly those in the integrin-mediated signaling and cell adhesion pathways. The potential role of GPR56 in cancer cell adhesion was further confirmed by the observation that GPR56 silencing also reduced cell adhesion to the extracellular matrix, which is consistent with the observed increase in anoikis and reduction in anchorage-independent growth phenotypes. The oncogenic potential and apparent absence of physiologic defects in adult human tissues lacking GPR56, as well as the targetable nature of G protein - coupled receptor by small molecule or antibody, make GPR56 an attractive drug target for the development of cancer therapies.
Highlights
Cancers are genetic diseases resulting from multiple disease-causing changes in gene expression that involve a variety of biological pathways
We investigated the role of GPR56 in cell transformation by RNA interference (RNAi)-mediated silencing using a previously described lentiviral RNAi vector pSD31 expressing short hairpin RNAs (shRNA)
Because there is no apparent phenotype outside the central nervous system (CNS) in the GPR56-mutated patients, little is known about its function in nonbrain tissues, GPR56 is widely expressed as observed by us and others
Summary
Cancers are genetic diseases resulting from multiple disease-causing changes in gene expression that involve a variety of biological pathways. Additional genes with oncogenic properties in these pathways can be explored as antagonistic targets for cancer therapy. Cell adhesion is an important aspect in the process of cellular transformation Cells interact with their environment via adhesion molecules on the cell surface to the extracellular matrix (ECM) or neighboring cells, mediating many critical cellular functions, including survival. Many proteins are involved in cell adhesion, including surface proteins such as various integrins (whose ligands include ECM or Ig superfamily receptors), cadherins, and intracellular signaling molecules such as Fyn (a proto-oncogene), focal adhesion kinases, and extracellular signal-regulated kinase Some of the adhesion proteins have been explored as drug targets for the therapeutics of human diseases, including cancer and inflammatory diseases [1, 2]
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