Malignant Transformation of Epstein-Barr Virus-Negative Akata Cells by Introduction of the BARF1 Gene Carried by Epstein-Barr Virus

Abstract

Spontaneous loss of the Epstein-Barr virus (EBV) genome in the BL cell line Akata led to loss of tumorigenicity in SCID mice, suggesting an important oncogenic activity of EBV in B cells. We previously showed that introduction of the BARF1 gene into the human B-cell line Louckes induced a malignant transformation in newborn rats (M. X. Wei, J. C. Moulin, G. Decaussin, F. Berger, and T. Ooka, Cancer Res. 54:1843-1848, 1994). Since 1 to 2% of Akata cells expressed lytic antigens and expressed the BARF1 gene, we investigated whether introduction of the BARF1 gene into EBV-negative Akata cells can induce malignant transformation. Here we show that BARF1-transfected, EBV-negative Akata cells activated Bcl2 expression and induced tumor formation when they were injected into SCID mice. In addition, when EBV-positive Akata cells expressing a low level of BARF1 protein were injected into SCID mice, the expression of BARF1, as well as several lytic proteins, such as EA-D, ZEBRA, and a 135-kDa DNA binding protein, increased in tumor cells while no latent LMP1 and late gp220-320 expression was observed in tumor cells. These observations suggest that the BARF1 gene may be involved in the conferral of tumorigenicity by EBV.