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Alternative polyadenylation factors link cell cycle to migration.

Genome biology (2018-10-27)
Mithun Mitra, Elizabeth L Johnson, Vinay S Swamy, Lois E Nersesian, David C Corney, David G Robinson, Daniel G Taylor, Aaron M Ambrus, David Jelinek, Wei Wang, Sandra L Batista, Hilary A Coller
ABSTRACT

In response to a wound, fibroblasts are activated to migrate toward the wound, to proliferate and to contribute to the wound healing process. We hypothesize that changes in pre-mRNA processing occurring as fibroblasts enter the proliferative cell cycle are also important for promoting their migration. RNA sequencing of fibroblasts induced into quiescence by contact inhibition reveals downregulation of genes involved in mRNA processing, including splicing and cleavage and polyadenylation factors. These genes also show differential exon use, especially increased intron retention in quiescent fibroblasts compared to proliferating fibroblasts. Mapping the 3' ends of transcripts reveals that longer transcripts from distal polyadenylation sites are more prevalent in quiescent fibroblasts and are associated with increased expression and transcript stabilization based on genome-wide transcript decay analysis. Analysis of dermal excisional wounds in mice reveals that proliferating cells adjacent to wounds express higher levels of cleavage and polyadenylation factors than quiescent fibroblasts in unwounded skin. Quiescent fibroblasts contain reduced levels of the cleavage and polyadenylation factor CstF-64. CstF-64 knockdown recapitulates changes in isoform selection and gene expression associated with quiescence, and results in slower migration. Our findings support cleavage and polyadenylation factors as a link between cellular proliferation state and migration.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-U1-70K Antibody, from rabbit
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Anti-Histone H4 Antibody, pan, clone 62-141-13, rabbit monoclonal, clone 62-141-13, Upstate®, from rabbit
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Anti-α-Tubulin antibody, Mouse monoclonal, clone B-5-1-2, purified from hybridoma cell culture