The Cleavage/Polyadenylation Activity Triggered by a U-rich Motif Sequence Is Differently Required Depending on the Poly(A) Site Location at Either the First or Last 3′-Terminal Exon of the 2′-5′ Oligo(A) Synthetase Gene

Youssef Aissouni,Christophe Perez,Boris Calmels,Philippe D Benech

doi:10.1074/jbc.m200540200

Youssef Aissouni, Christophe Perez + Show 2 more

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https://doi.org/10.1074/jbc.m200540200

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Abstract

Production of the two mRNAs encoding distinct forms of 2'-5'-oligoadenylate synthetase depends on processing that involves the recognition of alternative poly(A) sites and an internal 5'-splice site located within the first 3'-terminal exon. The resulting 1.6- and 1.8-kb mRNAs are expressed in fibroblast cell lines, whereas lymphoblastoid B cells, such as Daudi, produce only the 1.8-kb mRNA. In the present study, we have shown that the 3'-end processing at the last 3'-terminal exon occurs independently of the core poly(A) site sequence or the presence of regulatory elements. In contrast, in Daudi cells, the recognition of the poly(A) site at the first 3'-terminal exon is impaired because of an unfavorable sequence context. The 3'-end processing at this particular location requires a strong stabilization of the cleavage/polyadenylation factors, which can be achieved by the insertion of a 25-nucleotide long U-rich motif identified upstream of the last poly(A) site. Consequently, we speculate that in cells expressing the 1.6-kb mRNA, such as fibroblasts, direct or indirect participation of a specific mechanism or cell type-specific factors are required for an efficient polyadenylation at the first 3'-terminal exon.

Highlights

Polyadenylation of most eukaryotic pre-mRNAs is an obligatory step in the maturation of transcripts
Poly(Aϩ)RNAs purified from different Vwt-transfected cell lines were reverse transcribed, and specific sets of primers were used in PCR reactions to amplify cDNAs corresponding to chimeric mRNAs (Fig. 1B)
These results demonstrate that the chimeric pre-mRNA encoded by the Vwt minigene is submitted to the same cell type-specific maturation as the endogenous OASE precursor

Summary

The abbreviations used are

CstF, cleavage stimulating factor; USE, upstream sequence enhancer; OASE, oligoadenylate synthetase enzyme; nt, nucleotide; CPSF, cleavage/polyadenylation specificity factor. To gain more insights into the mechanisms leading to the cell type-specific selection of alternative poly(A) sites, we have investigated the processing of the pre-mRNA encoding the 2Ј-5Јoligoadenylate synthetase enzyme (OASE) [33]. Further experiments led to the identification within pA1.8 of a 25-nt long U-rich motif located immediately upstream of the AAUAAA signal that enhances cleavage/polyadenylation Insertion of this U-rich motif upstream of the pA1.6 poly(A) site is sufficient to induce an efficient cleavage/polyadenylation. Because the 1.6-kb mRNA is efficiently expressed in fibroblast cells, these cells may contain some specific factors that allow 3Ј-end processing of pA1.6 in the absence of USE

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION