Activation of a cryptic splice donor in human immunodeficiency virus type-1.

Abstract

The human immunodeficiency virus type-1 regulatory protein Rev is absolutely required for the production of viral structural proteins. Splice sites have been seen to function as cis-acting repressor sequendes (CRS) and inhibit expression of the Rev-dependent RNAs. In order to analyze the role of a splice donor in Rev dependence, the wild-type 5' splice donor of HIV-1 was mutated in the context of other gag sequences. Following transient transfection, RNA expression by RT-PCR was analyzed. The unspliced RNA produced by the mutant construct still required Rev for the cytoplasmic accumulation of the RNA. Despite deletion of the wild-type 5' splice donor and the tat splice acceptor was used. A cryptic splice donor was identified by PCR and subsequent cloning of the spliced RNA. The cryptic site is 5/9 to the consensus sequence and located immediately downstream of the initiation codon (ATG) for Gag. Analysis of the RNA product containing the cryptic splice donor revealed that the Rev was required for the cytoplasmic accumulation of unspliced RNA, while spliced RNA was Rev independent. Transfection of a wild-type construct also demonstrated usage of the cryptic splice donor. These results indicate that a cryptic splice donor can be activated when the wild-type splice donor is inactivated and that the cryptic splice donor may retain Rev regulation. The findings also suggest the potential for cryptic splice sites to serve as CRS in the determining the Rev dependence of viral RNAs.