Interferon-beta; lipofection II. Mechanisms involved in cell death and bystander effect induced by cationic lipid mediated interferon-β gene transfer to human tumor cells

VILLAVERDE MS, GIL CARDEZA ML, GLIKIN GC Y FINOCCHIARO LME

CANCER GENE THERAPY

NATURE PUBLISHING GROUP

Lugar: Londres; Año: 2012 vol. 19 p. 420 - 430

0929-1903

We evaluated the cytotoxic effects (apoptosis, necrosis and early senescence) of human interferon-b (hIFNb) gene lipofection.The cytotoxicity of hIFNb gene lipofection resulted equivalent to that of the corresponding addition of the recombinant protein (rhIFNb) on human tumor cell lines derived from Ewing’s sarcoma (EW7 and COH) and colon (HT-29) carcinomas. However, itwas stronger than rhIFNb on melanoma (M8) and breast adenocarcinoma (MCF7). To reveal the mechanisms involved in these differences, we compared the effects of hIFNb gene and rhIFNb protein on EW7 and M8 (sensitive and resistant to rhIFNb protein, respectively). Lipofection with hIFNb gene caused a mitochondrial potential decrease simultaneous with an increase ofoxidative stress in both cell lines. However, rhIFNb protein displayed the same pattern of response only in EW7-sensitive cell line. The great bystander effect of the hIFNb gene lipofection, involving the production of reactive oxygen species, would be among the main causes of its success. In  EW7, this effect killed 460% of EW7 cell population, even though only 1% of cells were expressing the transgene. As hIFNb gene was effective even in the rhIFNb protein-resistant M8 cell line and in a way not limited by low lipofection efficiency, these results strongly support the clinical potential of this approach.