We previously showed that gap junction intercellular communication mediates the bystander effect in anticancer gene therapy with the herpes simplex virus thymidine kinase (HSV-tk) and ganciclovir. Because most cancer cell lines have lost their ability to communicate through gap junctions, we investigated whether we could induce such a communication by transferring a gene for a gap junction. We transfected a vector carrying the HSV-tk (tk) and gap junction (connexin (Cx) 32) genes (Cx32(+)tk(+)) into noncommunicating HeLa cells. We compared the cytotoxicity of ganciclovir with mixtures of these cells and HeLa cells that expressed (Cx32(+)) or did not express (Cx32(-)) the Cx32 gene. The bystander effect was strong when the two mixed cell types expressed Cx32 (i.e., Cx32(+)tk(+) cells and Cx32(+)tk(-) cells). Only 25% of cells survived in this communicating mixture, even when only 10% of the cells were Cx32(+)tk(+). There was also a moderate bystander effect when the Cx32(+)tk(+) cells were mixed with noncommunicating HeLa cells in a 50% ratio. These results demonstrated that the bystander effect is enhanced by Cx32 and suggested that expression of Cx in only one cell type in a mixture can cause a bystander effect. Mol. Carcinog. 30:176--180, 2001.
Copyright 2001 Wiley-Liss, Inc.