Human chromosome 12 encodes a species-specific factor which increases human immunodeficiency virus type 1 tat-mediated trans activation in rodent cells

Abstract

The human immunodeficiency virus type 1 (HIV-1) tat protein functions at a much lower level in rodent cells than in human cells. This species-specific difference in trans activation appears to be due to the lack of a functional homolog of a human cofactor for tat in rodent cells. Using HIV-1 long terminal repeat-driven human growth hormone as a reporter plasmid, we found that the tat-mediated trans activation functions at a level 5- to 20-fold lower in rodent cells than in human cells. Stable rodent-human hybrid cells containing only human chromosome 12 support a dramatically higher degree of trans activation. Thus, human chromosome 12 encodes a species-specific HIV-1 tat cofactor which, at least partially, restores high levels of tat-mediated trans activation. Chromosome 6 also appears to provide an additional factor which enhances HIV-1 tat-mediated trans activation in murine cells.