ANKRD1-RBMS1_Uncropped figures_CS.pdf

Cellular senescence is a dynamic biological process triggered by sublethal cell damage and driven by specific changes in gene expression programs. We recently identified ANKRD1 (ankyrin repeat domain 1) as a protein strongly elevated after triggering senescence in fibroblasts. Here, we set out to in...

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Hauptverfasser:	Shin, Chang Hoon, Rossi, Martina, Anerillas, Carlos, Martindale, Jennifer L., Yang, Xiaoling, Ji, Eunbyul, Pal, Apala, Munk, Rachel, Yang, Jen-Hao, Tsitsipatis, Dimitrios, Mazan-Mamczarz, Krystyna, Abdelmohsen, Kotb, Gorospe, Myriam
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Schlagworte:	Gene expression (incl. microarray and other genome-wide approaches)
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creator	Shin, Chang Hoon Rossi, Martina Anerillas, Carlos Martindale, Jennifer L. Yang, Xiaoling Ji, Eunbyul Pal, Apala Munk, Rachel Yang, Jen-Hao Tsitsipatis, Dimitrios Mazan-Mamczarz, Krystyna Abdelmohsen, Kotb Gorospe, Myriam
description	Cellular senescence is a dynamic biological process triggered by sublethal cell damage and driven by specific changes in gene expression programs. We recently identified ANKRD1 (ankyrin repeat domain 1) as a protein strongly elevated after triggering senescence in fibroblasts. Here, we set out to investigate the mechanisms driving the elevated production of ANKRD1 in early stages of senescence. Our results indicated that the rise in ANKRD1 levels after triggering senescence using etoposide (Eto) was the result of moderate increases in transcription and translation, and robust mRNA stabilization. Antisense oligomer (ASO) pulldown followed by mass spectrometry revealed a specific interaction of the RNA-binding protein RBMS1 with ANKRD1 mRNA that was confirmed by ribonucleoprotein immunoprecipitation analysis. RBMS1 abundance decreased in the nucleus and increased in the cytoplasm during Eto-induced senescence; in agreement with the hypothesis that RBMS1 may participate in post-transcriptional stabilization of ANKRD1 mRNA, silencing RBMS1 reduced, while overexpressing RBMS1 enhanced ANKRD1 mRNA half-life after Eto treatment. A segment proximal to the ANKRD1 coding region was identified as binding RBMS1 and conferring RBMS1-dependent increased expression of a heterologous reporter. We propose that RBMS1 increases expression of ANKRD1 during the early stages of senescence by stabilizing ANKRD1 mRNA.
doi_str_mv	10.6084/m9.figshare.25681281
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subjects	Gene expression (incl. microarray and other genome-wide approaches)
title	ANKRD1-RBMS1_Uncropped figures_CS.pdf
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