Human cytomegalovirus US3 and UL36-38 immediate-early proteins regulate gene expression

Autor: Colberg-Poley, A M, Santomenna, L D, Harlow, P P, Benfield, P A, Tenney, D J
Zdroj: The Journal of Virology; January 1992, Vol. 66 Issue: 1 p95-105, 11p
Abstrakt: We have established the ability of the human cytomegalovirus (HCMV) UL36-38 and US3 immediate-early (IE) gene products to alter gene expression in human cells by using transient transfection assays. The cellular heat shock protein 70 (hsp70) promoter was transactivated following cotransfection with the HCMV IE regions in nonpermissive HeLa cells by UL36-38, US3, or IE1 and in permissive human diploid fibroblasts (HFF) by IE1 or IE2. Moreover, hsp70 expression was synergistically increased in HeLa cells cotransfected with US3 and UL36, with US3 and UL37, or with US3 and UL37x1. The synergistic transactivation of hsp70 expression by US3 and UL36-38 was not observed in HFF cells. Synergy was also not observed in HeLa cells between US3 and UL38, an early gene product encoded by the UL36-38 IE locus. Synergistic transactivation of hsp70 expression in HeLa cells required the syntheses of UL36-38 and US3 IE proteins, since nonsense mutants were not functional. hsp70 expression increased with increasing amounts of transfected US3 and UL37 DNA and occurred at the level of stable hsp70-promoted RNA. In contrast to the broad hsp70 response, promoters from the HCMV UL112 early gene and another cellular gene, brain creatine kinase, both responded strongly only to singly transfected IE2 in HeLa cells. Nevertheless, IE2 transactivation of the UL112 promoter was further stimulated by cotransfection of IE1 or of UL36-38 in both HeLa and HFF cells. Thus, different patterns of promoter transactivation and interactions between HCMV IE gene products in transactivation were found in HFF cells and in HeLa cells. These results establish the ability of the HCMV US3 and UL36-38 proteins to alter cellular and viral gene expression and are consistent with involvement of cellular transcription factors in HCMV IE regulation of gene expression.
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