Xl. Zhang et al., DOWN-REGULATION OF HUMAN ADENOVIRUS E1A BY E3 GENE-PRODUCTS - EVIDENCE FOR TRANSLATIONAL CONTROL OF E1A BY E3 14.5K AND OR E3 10.4K PRODUCTS/, Journal of General Virology, 75, 1994, pp. 1943-1951
The mechanism for down-regulation of E1a expression by products encode
d in the E3 transcription unit of human adenovirus types 2 and 5, that
occurs in infected L929 cells, has been investigated further. We show
that the phenomenon occurs in different mouse cells and also in some
human cells suggesting that the observations have relevance to natural
human infections. We also provide evidence that probably all viral pr
oteins are down-regulated by E3 products, although to different extent
s, but that host proteins are unaffected. Whereas E1a protein levels a
nd synthesis are reduced in the presence of E3 products, E1a protein h
alf-life and polysomal E1a RNA levels and size distribution are not. T
hese data suggest that E3 products down-regulate Ela protein levels by
interfering with the translation of E1a-specific mRNA. Studies were a
dditionally carried out with mutant adenoviruses containing different
defects in the E3 transcription unit. Based on these studies it seems
likely that the E3 14.5K and 10.4K proteins are crucially involved in
E1a down-regulation. Our data are discussed in terms of strategies for
immune evasion by group C human adenoviruses.