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Literature DB >> 31447100

Aberrant Function of the C-Terminal Tail of HIST1H1E Accelerates Cellular Senescence and Causes Premature Aging.

Elisabetta Flex¹, Simone Martinelli², Anke Van Dijck³, Andrea Ciolfi⁴, Serena Cecchetti⁵, Elisa Coluzzi⁶, Luca Pannone⁷, Cristina Andreoli⁸, Francesca Clementina Radio⁴, Simone Pizzi⁴, Giovanna Carpentieri⁷, Alessandro Bruselles², Giuseppina Catanzaro⁹, Lucia Pedace¹⁰, Evelina Miele¹⁰, Elena Carcarino¹¹, Xiaoyan Ge¹², Chieko Chijiwa¹³, M E Suzanne Lewis¹³, Marije Meuwissen¹⁴, Sandra Kenis¹⁵, Nathalie Van der Aa¹⁴, Austin Larson¹⁶, Kathleen Brown¹⁶, Melissa P Wasserstein¹⁷, Brian G Skotko¹⁸, Amber Begtrup¹⁹, Richard Person¹⁹, Maria Karayiorgou²⁰, J Louw Roos²¹, Koen L Van Gassen²², Marije Koopmans²², Emilia K Bijlsma²³, Gijs W E Santen²³, Daniela Q C M Barge-Schaapveld²³, Claudia A L Ruivenkamp²³, Mariette J V Hoffer²³, Seema R Lalani²⁴, Haley Streff²⁴, William J Craigen²⁴, Brett H Graham²⁵, Annette P M van den Elzen²⁶, Daan J Kamphuis²⁷, Katrin Õunap²⁸, Karit Reinson²⁸, Sander Pajusalu²⁹, Monica H Wojcik³⁰, Clara Viberti³¹, Cornelia Di Gaetano³¹, Enrico Bertini⁴, Simona Petrucci³², Alessandro De Luca³³, Rossella Rota¹⁰, Elisabetta Ferretti³⁴, Giuseppe Matullo³¹, Bruno Dallapiccola⁴, Antonella Sgura⁶, Magdalena Walkiewicz³⁵, R Frank Kooy³⁶, Marco Tartaglia³⁷.

Abstract

Histones mediate dynamic packaging of nuclear DNA in chromatin, a process that is precisely controlled to guarantee efficient compaction of the genome and proper chromosomal segregation during cell division and to accomplish DNA replication, transcription, and repair. Due to the important structural and regulatory roles played by histones, it is not surprising that histone functional dysregulation or aberrant levels of histones can have severe consequences for multiple cellular processes and ultimately might affect development or contribute to cell transformation. Recently, germline frameshift mutations involving the C-terminal tail of HIST1H1E, which is a widely expressed member of the linker histone family and facilitates higher-order chromatin folding, have been causally linked to an as-yet poorly defined syndrome that includes intellectual disability. We report that these mutations result in stable proteins that reside in the nucleus, bind to chromatin, disrupt proper compaction of DNA, and are associated with a specific methylation pattern. Cells expressing these mutant proteins have a dramatically reduced proliferation rate and competence, hardly enter into the S phase, and undergo accelerated senescence. Remarkably, clinical assessment of a relatively large cohort of subjects sharing these mutations revealed a premature aging phenotype as a previously unrecognized feature of the disorder. Our findings identify a direct link between aberrant chromatin remodeling, cellular senescence, and accelerated aging.

Entities: Gene

Keywords: HIST1H1E; accelerated aging; cellular senescence; chromatin compaction; chromatin dynamics; chromatin remodeling; linker histone; linker histone H1.4; methylation profiling; replicative senescence

Mesh：

Substances：
Chromatin
Histones

Year: 2019 PMID： 31447100 PMCID： PMC6731364 DOI： 10.1016/j.ajhg.2019.07.007

Source DB: PubMed Journal: Am J Hum Genet ISSN： 0002-9297 Impact factor: 11.025

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