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

Elisabetta Flex; Simone Martinelli; Anke Van Dijck; Andrea Ciolfi; Serena Cecchetti; Elisa Coluzzi; Luca Pannone; Cristina Andreoli; Francesca Clementina Radio; Simone Pizzi; Giovanna Carpentieri; Alessandro Bruselles; Giuseppina Catanzaro; Lucia Pedace; Evelina Miele; Elena Carcarino; Xiaoyan Ge; Chieko Chijiwa; M. E.Suzanne Lewis; Marije Meuwissen; Sandra Kenis; Nathalie Van der Aa; Austin Larson; Kathleen Brown; Melissa P. Wasserstein; Brian G. Skotko; Amber Begtrup; Richard Person; Maria Karayiorgou; J. Louw Roos; Koen L. Van Gassen; Marije Koopmans; Emilia K. Bijlsma; Gijs W.E. Santen; Daniela Q.C.M. Barge-Schaapveld; Claudia A.L. Ruivenkamp; Mariette J.V. Hoffer; Seema R. Lalani; Haley Streff; William J. Craigen; Brett H. Graham; Annette P.M. van den Elzen; Daan J. Kamphuis; Katrin Õunap; Karit Reinson; Sander Pajusalu; Monica H. Wojcik; Clara Viberti; Cornelia Di Gaetano; Enrico Bertini; Simona Petrucci; Alessandro De Luca; Rossella Rota; Elisabetta Ferretti; Giuseppe Matullo; Bruno Dallapiccola; Antonella Sgura; Magdalena Walkiewicz; R. Frank Kooy; Marco Tartaglia

doi:10.1016/j.ajhg.2019.07.007

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

Elisabetta Flex, Simone Martinelli, Anke Van Dijck, Andrea Ciolfi, Serena Cecchetti, Elisa Coluzzi, Luca Pannone, Cristina Andreoli, Francesca Clementina Radio, Simone Pizzi, Giovanna Carpentieri, Alessandro Bruselles, Giuseppina Catanzaro, Lucia Pedace, Evelina Miele, Elena Carcarino, Xiaoyan Ge, Chieko Chijiwa, M. E.Suzanne Lewis, Marije MeuwissenSandra Kenis, Nathalie Van der Aa, Austin Larson, Kathleen Brown, Melissa P. Wasserstein, Brian G. Skotko, Amber Begtrup, Richard Person, Maria Karayiorgou, J. Louw Roos, Koen L. Van Gassen, Marije Koopmans, Emilia K. Bijlsma, Gijs W.E. Santen, Daniela Q.C.M. Barge-Schaapveld, Claudia A.L. Ruivenkamp, Mariette J.V. Hoffer, Seema R. Lalani, Haley Streff, William J. Craigen, Brett H. Graham, Annette P.M. van den Elzen, Daan J. Kamphuis, Katrin Õunap, Karit Reinson, Sander Pajusalu, Monica H. Wojcik, Clara Viberti, Cornelia Di Gaetano, Enrico Bertini, Simona Petrucci, Alessandro De Luca, Rossella Rota, Elisabetta Ferretti, Giuseppe Matullo, Bruno Dallapiccola, Antonella Sgura, Magdalena Walkiewicz, R. Frank Kooy, Marco Tartaglia

Pediatrics

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

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.

Original language	English (US)
Pages (from-to)	493-508
Number of pages	16
Journal	American Journal of Human Genetics
Volume	105
Issue number	3
DOIs	https://doi.org/10.1016/j.ajhg.2019.07.007
State	Published - Sep 5 2019

Keywords

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

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1016/j.ajhg.2019.07.007

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Flex, E., Martinelli, S., Van Dijck, A., Ciolfi, A., Cecchetti, S., Coluzzi, E., Pannone, L., Andreoli, C., Radio, F. C., Pizzi, S., Carpentieri, G., Bruselles, A., Catanzaro, G., Pedace, L., Miele, E., Carcarino, E., Ge, X., Chijiwa, C., Lewis, M. E. S., ... Tartaglia, M. (2019). Aberrant Function of the C-Terminal Tail of HIST1H1E Accelerates Cellular Senescence and Causes Premature Aging. American Journal of Human Genetics, 105(3), 493-508. https://doi.org/10.1016/j.ajhg.2019.07.007

Flex, E, Martinelli, S, Van Dijck, A, Ciolfi, A, Cecchetti, S, Coluzzi, E, Pannone, L, Andreoli, C, Radio, FC, Pizzi, S, Carpentieri, G, Bruselles, A, Catanzaro, G, Pedace, L, Miele, E, Carcarino, E, Ge, X, Chijiwa, C, Lewis, MES, Meuwissen, M, Kenis, S, Van der Aa, N, Larson, A, Brown, K, Wasserstein, MP, Skotko, BG, Begtrup, A, Person, R, Karayiorgou, M, Roos, JL, Van Gassen, KL, Koopmans, M, Bijlsma, EK, Santen, GWE, Barge-Schaapveld, DQCM, Ruivenkamp, CAL, Hoffer, MJV, Lalani, SR, Streff, H, Craigen, WJ, Graham, BH, van den Elzen, APM, Kamphuis, DJ, Õunap, K, Reinson, K, Pajusalu, S, Wojcik, MH, Viberti, C, Di Gaetano, C, Bertini, E, Petrucci, S, De Luca, A, Rota, R, Ferretti, E, Matullo, G, Dallapiccola, B, Sgura, A, Walkiewicz, M, Kooy, RF & Tartaglia, M 2019, 'Aberrant Function of the C-Terminal Tail of HIST1H1E Accelerates Cellular Senescence and Causes Premature Aging', American Journal of Human Genetics, vol. 105, no. 3, pp. 493-508. https://doi.org/10.1016/j.ajhg.2019.07.007

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title = "Aberrant Function of the C-Terminal Tail of HIST1H1E Accelerates Cellular Senescence and Causes Premature Aging",

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.",

keywords = "HIST1H1E, accelerated aging, cellular senescence, chromatin compaction, chromatin dynamics, chromatin remodeling, linker histone, linker histone H1.4, methylation profiling, replicative senescence",

author = "Elisabetta Flex and Simone Martinelli and {Van Dijck}, Anke and Andrea Ciolfi and Serena Cecchetti and Elisa Coluzzi and Luca Pannone and Cristina Andreoli and Radio, {Francesca Clementina} and Simone Pizzi and Giovanna Carpentieri and Alessandro Bruselles and Giuseppina Catanzaro and Lucia Pedace and Evelina Miele and Elena Carcarino and Xiaoyan Ge and Chieko Chijiwa and Lewis, {M. E.Suzanne} and Marije Meuwissen and Sandra Kenis and {Van der Aa}, Nathalie and Austin Larson and Kathleen Brown and Wasserstein, {Melissa P.} and Skotko, {Brian G.} and Amber Begtrup and Richard Person and Maria Karayiorgou and Roos, {J. Louw} and {Van Gassen}, {Koen L.} and Marije Koopmans and Bijlsma, {Emilia K.} and Santen, {Gijs W.E.} and Barge-Schaapveld, {Daniela Q.C.M.} and Ruivenkamp, {Claudia A.L.} and Hoffer, {Mariette J.V.} and Lalani, {Seema R.} and Haley Streff and Craigen, {William J.} and Graham, {Brett H.} and {van den Elzen}, {Annette P.M.} and Kamphuis, {Daan J.} and Katrin {\~O}unap and Karit Reinson and Sander Pajusalu and Wojcik, {Monica H.} and Clara Viberti and {Di Gaetano}, Cornelia and Enrico Bertini and Simona Petrucci and {De Luca}, Alessandro and Rossella Rota and Elisabetta Ferretti and Giuseppe Matullo and Bruno Dallapiccola and Antonella Sgura and Magdalena Walkiewicz and Kooy, {R. Frank} and Marco Tartaglia",

note = "Publisher Copyright: {\textcopyright} 2019 American Society of Human Genetics",

year = "2019",

month = sep,

day = "5",

doi = "10.1016/j.ajhg.2019.07.007",

language = "English (US)",

volume = "105",

pages = "493--508",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "3",

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TY - JOUR

T1 - Aberrant Function of the C-Terminal Tail of HIST1H1E Accelerates Cellular Senescence and Causes Premature Aging

AU - Flex, Elisabetta

AU - Martinelli, Simone

AU - Van Dijck, Anke

AU - Ciolfi, Andrea

AU - Cecchetti, Serena

AU - Coluzzi, Elisa

AU - Pannone, Luca

AU - Andreoli, Cristina

AU - Radio, Francesca Clementina

AU - Pizzi, Simone

AU - Carpentieri, Giovanna

AU - Bruselles, Alessandro

AU - Catanzaro, Giuseppina

AU - Pedace, Lucia

AU - Miele, Evelina

AU - Carcarino, Elena

AU - Ge, Xiaoyan

AU - Chijiwa, Chieko

AU - Lewis, M. E.Suzanne

AU - Meuwissen, Marije

AU - Kenis, Sandra

AU - Van der Aa, Nathalie

AU - Larson, Austin

AU - Brown, Kathleen

AU - Wasserstein, Melissa P.

AU - Skotko, Brian G.

AU - Begtrup, Amber

AU - Person, Richard

AU - Karayiorgou, Maria

AU - Roos, J. Louw

AU - Van Gassen, Koen L.

AU - Koopmans, Marije

AU - Bijlsma, Emilia K.

AU - Santen, Gijs W.E.

AU - Barge-Schaapveld, Daniela Q.C.M.

AU - Ruivenkamp, Claudia A.L.

AU - Hoffer, Mariette J.V.

AU - Lalani, Seema R.

AU - Streff, Haley

AU - Craigen, William J.

AU - Graham, Brett H.

AU - van den Elzen, Annette P.M.

AU - Kamphuis, Daan J.

AU - Õunap, Katrin

AU - Reinson, Karit

AU - Pajusalu, Sander

AU - Wojcik, Monica H.

AU - Viberti, Clara

AU - Di Gaetano, Cornelia

AU - Bertini, Enrico

AU - Petrucci, Simona

AU - De Luca, Alessandro

AU - Rota, Rossella

AU - Ferretti, Elisabetta

AU - Matullo, Giuseppe

AU - Dallapiccola, Bruno

AU - Sgura, Antonella

AU - Walkiewicz, Magdalena

AU - Kooy, R. Frank

AU - Tartaglia, Marco

PY - 2019/9/5

Y1 - 2019/9/5

N2 - 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.

AB - 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.

KW - HIST1H1E

KW - accelerated aging

KW - cellular senescence

KW - chromatin compaction

KW - chromatin dynamics

KW - chromatin remodeling

KW - linker histone

KW - linker histone H1.4

KW - methylation profiling

KW - replicative senescence

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U2 - 10.1016/j.ajhg.2019.07.007

DO - 10.1016/j.ajhg.2019.07.007

M3 - Article

C2 - 31447100

AN - SCOPUS:85071515684

SN - 0002-9297

VL - 105

SP - 493

EP - 508

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 3

ER -

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

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Keywords

ASJC Scopus subject areas

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