In vivo and in vitro analysis of transcriptional activation mediated by the human cytomegalovirus major immediate-early proteins.

AUTOR(ES)

Klucher, K M

RESUMO

To define mechanistically how the human cytomegalovirus (HCMV) major immediate-early (IE) proteins induce early-gene transcription, the IE1 72-kDa protein, the IE2 55-kDa protein, and the IE2 86-kDa protein were analyzed for their ability to activate transcription from an HCMV early promoter in vivo and in vitro. In transient-expression assays in U373MG astrocytoma/glioblastoma and HeLa cells, only the IE2 86-kDa protein was able to activate the HCMV early promoter to high levels. In HeLa cells, the IE1 72-kDa protein was able to activate the promoter to a low but detectable level, and the level of promoter activity observed in response to the IE2 86-kDa protein was increased synergistically following cotransfection of the constructs expressing both IE proteins. To examine the interaction of the HCMV IE proteins with the RNA polymerase II transcription machinery, we assayed the ability of Escherichia coli-synthesized proteins to activate the HCMV early promoter in nuclear extracts prepared from U373MG cells, HeLa cells, and Drosophila embryos. The results of the in vitro experiments correlated well with those obtained in vivo. The basal activity of the promoter was minimal in both the HeLa and U373MG extracts but was stimulated 6- to 10-fold by the IE2 86-kDa protein. With a histone H1-deficient extract from Drosophila embryos, the HCMV early promoter was quite active and was stimulated two- to fourfold by the IE2 86-kDa protein. Addition of histone H1 at 1 molecule per 40 to 50 bp of DNA template significantly repressed basal transcription from this promoter. However, the IE2 86-kDa protein, but none of the other IE proteins, was able to counteract the H1-mediated repression and stimulate transcription at least 10- to 20-fold. The promoter specificity of the activation was demonstrated by the inability of the IE2 86-kDa protein to activate the Drosophila Krüppel promoter in either the presence or absence of histone H1. These results suggest that one mechanism of transcription activation by the IE2 86-kDa protein involves antirepression.

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