George K. Arhin scite author profile

Previous studies on the regulation of polyadenylation of the immunoglobulin (Ig) heavy-chain pre-mRNA argued for trans-acting modifiers of the cleavage-polyadenylation reaction operating differentially during B-cell developmental stages. Using four complementary approaches, we demonstrate that a change in the level of hnRNP F is an important determinant in the regulated use of alternative polyadenylation sites between memory and plasma stage B cells. First, by Western analyses of cellular proteins, the ratio of hnRNP F to H or H was found to be higher in memory B cells than in plasma cells. In memory B cells the activity of CstF-64 binding to pre-mRNA, but not its amount, was reduced. Second, examination of the complexes formed on input pre-mRNA in nuclear extracts revealed large assemblages containing hnRNP H, H, and F but deficient in CstF-64 in memory B-cell extracts but not in plasma cells. Formation of these large complexes is dependent on the region downstream of the AAUAAA in pre-mRNA, suggesting that CstF-64 and the hnRNPs compete for a similar region. Third, using a recombinant protein we showed that hnRNP F could bind to the region downstream of a poly(A) site, block CstF-64 association with RNA, and inhibit the cleavage reaction. Fourth, overexpression of recombinant hnRNP F in plasma cells resulted in a decrease in the endogenous Ig heavychain mRNA secretory form-to-membrane ratio. These results demonstrate that mammalian hnRNP F can act as a negative regulator in the pre-mRNA cleavage reaction and that increased expression of F in memory B cells contributes to the suppression of the Ig heavy-chain secretory poly(A) site.The immunoglobulin (Ig) heavy-chain transcription unit and the two heavy-chain mRNAs it encodes are shown in Fig. 1A (reviewed in reference 8). In mature and memory B cells the promoter-distal membrane-specific poly(A) site (mb-pA) is selected and splicing to the downstream M1 exon occurs via a 5Ј splice site within the coding region of CH4. The secretoryspecies-specific poly(A) (sec-pA) and mb-pA sites are used with equal frequency in mature and memory B cells and their tumor analogs, lymphoma cells. Plasma cells are terminally differentiated B cells; myeloma cells are their tumor counterparts, which accurately reflect their pattern of Ig gene expression. In plasma and myeloma lines polyadenylation takes place preferentially at the weaker, promoter-proximal sec-pA site, precluding the splicing to membrane-specific exons; the sec-pA site is used up to 100-fold more often than the mb-pA site in plasma cells (23). Polyadenylation at the promoter-proximal secretory site and splicing of CH4 to M1 are mutually exclusive events; consequently, it is the balance between these two that determines the final ratio of secretory-form to membrane mRNA (sec-to-mb mRNA ratio) (26). Previous experiments demonstrated that regulation of Ig heavy-chain mRNA production occurs primarily at the level of polyadenylation, not message stability, transcription termination, or splicing efficiency (14-16, 19, 2...

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In vivo epitope tagging of Trypanosoma brucei genes using a one step PCR-based strategy

Shen

Arhin

Ullu

et al. 2001

Molecular and Biochemical Parasitology

103

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Downstream sequence elements with different affinities for the hnRNP H/H' protein influence the processing efficiency of mammalian polyadenylation signals

Arhin

Boots²,

Bagga³

et al. 2002

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Auxiliary factors likely play an important role in determining the polyadenylation efficiency of mammalian pre-mRNAs. We previously identified an auxiliary factor, hnRNP H/H', which stimulates 3'-end processing through an interaction with sequences downstream of the core elements of the SV40 late polyadenylation signal. Using in vitro reconstitution assays we have demonstrated that hnRNP H/H' can stimulate processing of two additional model polyadenylation signals by binding at similar relative downstream locations but with significantly different affinities. A short tract of G residues was determined to be a common property of all three hnRNP H/H' binding sites. A survey of mammalian polyadenylation signals identified potential G-rich hnRNP H/H' binding sites at similar downstream locations in approximately 34% of these signals. All of the novel G-rich elements tested were found to bind hnRNP H/H' protein and the processing of selected signals identified in the survey was stimulated by the protein both in vivo and in vitro. Downstream G-rich tracts, therefore, are a common auxiliary element in mammalian polyadenylation signals. Sequences capable of binding hnRNP H protein with varying affinities may play a role in determining the processing efficiency of a significant number of mammalian polyadenylation signals.

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Upstream Elements Present in the 3′-Untranslated Region of Collagen Genes Influence the Processing Efficiency of Overlapping Polyadenylation Signals

Natalizio¹,

Muñiz²,

Arhin

et al. 2002

Journal of Biological Chemistry

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3-Untranslated regions (UTRs) of genes often contain key regulatory elements involved in gene expression control. A high degree of evolutionary conservation in regions of the 3-UTR suggests important, conserved elements. In particular, we are interested in those elements involved in regulation of 3 end formation. In addition to canonical sequence elements, auxiliary sequences likely play an important role in determining the polyadenylation efficiency of mammalian pre-mRNAs. We identified highly conserved sequence elements upstream of the AAUAAA in three human collagen genes, COL1A1, COL1A2, and COL2A1, and demonstrate that these upstream sequence elements (USEs) influence polyadenylation efficiency. Mutation of the USEs decreases polyadenylation efficiency both in vitro and in vivo, and inclusion of competitor oligoribonucleotides representing the USEs specifically inhibit polyadenylation. We have also shown that insertion of a USE into a weak polyadenylation signal can enhance 3 end formation. Close inspection of the COL1A2 3-UTR reveals an unusual feature of two closely spaced, competing polyadenylation signals. Taken together, these data demonstrate that USEs are important auxiliary polyadenylation elements in mammalian genes.Poly(A) tails are found on the 3Ј end of nearly every fully processed eukaryotic mRNA. The poly(A) tail has been suggested to influence mRNA stability, translation, and transport (for review, see Refs. 1-4). Polyadenylation is a two-step process that first involves specific endonucleolytic cleavage at a site determined by binding of polyadenylation factors (for review, see Refs. 5-10). The second step involves polymerization of an adenosine tail to an average length of ϳ200 residues. These steps are tightly coupled processes since reaction intermediates are not detectable under normal conditions.The vast majority of eukaryotic polyadenylation signals contain the consensus sequence AAUAAA between 10 and 35 nucleotides upstream of the actual cleavage and polyadenylation site. In addition, sequences 10 -30 nucleotides downstream of the cleavage site are known to be involved in directing polyadenylation (Refs. 11-13 and references therein). These downstream elements (DSEs) 1 can be characterized as a block containing 4 of 5 uracil (U) residues. These two sequence elements recruit cleavage and polyadenylation specificity factor (CPSF) and cleavage stimulatory factor (CstF), respectively, to define the cleavage site; therefore, mutations within these sequences abolish polyadenylation.The intricate nature of this process implies that polyadenylation might be a useful mechanism to regulate gene expression. The efficiency of 3Ј end processing is a level at which regulation can occur. Because most pre-mRNAs in the cell are not efficiently processed, even small changes in the overall processing efficiency of a particular pre-mRNA may have a substantial effect on gene expression. Experimental evidence has demonstrated that poly(A) signal strength directly influences the amount of mature, exported mR...

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DSEF-1 is a member of the hnRNP H family of RNA-binding proteins and stimulates pre-mRNA cleavage and polyadenylation in vitro

Bagga

Arhin

Wilusz

1998

Nucleic Acids Research

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DSEF-1 protein selectively binds to a G-rich auxiliary sequence element which influences the efficiency of processing of the SV40 late polyadenylation signal. We have obtained cDNA clones of DSEF-1 using sequence information from tryptic peptides isolated from DSEF-1 protein purified from HeLa cells. DSEF-1 protein contains three RNA-binding motifs and is a member of the hnRNP H family of RNA-binding proteins. Recombinant DSEF-1 protein stimulated the efficiency of cleavage and polyadenylation in an AAUAAA-dependent manner in in vitro reconstitution assays. DSEF-1 protein was shown to be able to interact with several poly(A) signals that lacked a G-rich binding site using a less stringent, low ionic strength gel band shift assay. Recombinant DSEF-1 protein specifically stimulated the processing of all of the poly(A) signals tested that contained a high affinity G-rich or low affinity binding site. DSEF-1 specifically increased the level of cross-linking of the 64 kDa protein of CstF to polyadenylation substrate RNAs. These observations suggest that DSEF-1 is an auxiliary factor that assists in the assembly of the general 3'-end processing factors onto the core elements of the polyadenylation signal.

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George K. Arhin

hnRNP F Influences Binding of a 64-Kilodalton Subunit of Cleavage Stimulation Factor to mRNA Precursors in Mouse B Cells

In vivo epitope tagging of Trypanosoma brucei genes using a one step PCR-based strategy

Downstream sequence elements with different affinities for the hnRNP H/H' protein influence the processing efficiency of mammalian polyadenylation signals

Upstream Elements Present in the 3′-Untranslated Region of Collagen Genes Influence the Processing Efficiency of Overlapping Polyadenylation Signals

DSEF-1 is a member of the hnRNP H family of RNA-binding proteins and stimulates pre-mRNA cleavage and polyadenylation in vitro

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