A common mechanism for the enhancement of mRNA 3' processing by U3 sequences in two distantly related lentiviruses

The protein coding regions of all retroviral pre-mRNAs are flanked by a direct repeat of R-U5 sequences, In many retroviruses, the R-U5 repeat contains a complete core poly(A) site composed of a highly conserved AAUAAA hexamer and a GU-rich downstream element, A mechanism that allows for the bypass of the 5' core poly(A) site and the exclusive use of the 3' core poly(A) site must therefore exist, In human immunodeficiency virus type 1 (HIV-1), sequences within the U3 region appear to play a key role in poly(A) site selection, U3 sequences are required for efficient 3' processing at the HIV-1 poly(A) site both in vivo and in vitro, These sequences serve to promote the interaction of cleavage and polyadenylation specificity factor (CPSF) with the core poly(A) site, We have now demonstrated the presence of a functionally analogous 3' processing enhancer within the U3 region of a distantly related lentivirus, equine infectious anemia virus (EIAV). U3 sequences enhanced processing at the EIAV core poly(A) site sevenfold in vitro, The U3 sequences also enhanced the stability of CPSF binding at the core poly(A) site, Optimal processing required the TAR RNA secondary structure that resides within the R region 28 nucleotides upstream of the AAUAAA hexamer, Disruption of TAR reduced processing, while compensatory changes that restored the RNA structure also restored processing to the wild-type level, suggesting a position dependence of the U3-encoded enhancer sequences. Finally, the reciprocal exchange of the EIAV and HIV U3 regions demonstrated the ability of each of these sequences to enhance both 3' processing and the binding of CPSF in the context of the heterologous core poly(A) site, The impact of U3 sequences upon the interaction of CPSF at the core poly(A) site may therefore represent a common strategy for retroviral poly(A) site selection.