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Conserved Senescence Associated Genes and Pathways in Primary Human Fibroblasts Detected by RNA-Seq.

PloS one (2016-05-04)
S Marthandan, M Baumgart, S Priebe, M Groth, J Schaer, C Kaether, R Guthke, A Cellerino, M Platzer, S Diekmann, P Hemmerich
RESUMO

Cellular senescence correlates with changes in the transcriptome. To obtain a complete view on senescence-associated transcription networks and pathways, we assessed by deep RNA sequencing the transcriptomes of five of the most commonly used laboratory strains of human fibroblasts during their transition into senescence. In a number of cases, we verified the RNA-seq data by real-time PCR. By determining cellular protein levels we observed that the age-related expression of most but not all genes is regulated at the transcriptional level. We found that 78% of the age-affected differentially expressed genes were commonly regulated in the same direction (either up- or down-regulated) in all five fibroblast strains, indicating a strong conservation of age-associated changes in the transcriptome. KEGG pathway analyses confirmed up-regulation of the senescence-associated secretory phenotype and down-regulation of DNA synthesis/repair and most cell cycle pathways common in all five cell strains. Newly identified senescence-induced pathways include up-regulation of endocytotic/phagocytic pathways and down-regulation of the mRNA metabolism and the mRNA splicing pathways. Our results provide an unprecedented comprehensive and deep view into the individual and common transcriptome and pathway changes during the transition into of senescence of five human fibroblast cell strains.

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Anti-p21WAF1 (Ab-1) Mouse mAb (EA10), liquid, clone EA10, Calbiochem®
Sigma-Aldrich
Monoclonal Anti-RNASEH2A antibody produced in mouse, clone 3G5-F5, purified immunoglobulin, buffered aqueous solution