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Recurrent de novo point mutations in lamin A cause Hutchinson–Gilford progeria syndrome

Author

Listed:
  • Maria Eriksson

    (National Institutes of Health)

  • W. Ted Brown

    (New York State Institute for Basic Research in Developmental Disabilities)

  • Leslie B. Gordon

    (Tufts University School of Medicine
    Rhode Island Hospital)

  • Michael W. Glynn

    (National Institutes of Health)

  • Joel Singer

    (University of Michigan)

  • Laura Scott

    (University of Michigan)

  • Michael R. Erdos

    (National Institutes of Health)

  • Christiane M. Robbins

    (National Institutes of Health)

  • Tracy Y. Moses

    (National Institutes of Health)

  • Peter Berglund

    (National Institutes of Health)

  • Amalia Dutra

    (National Institutes of Health)

  • Evgenia Pak

    (National Institutes of Health)

  • Sandra Durkin

    (National Institutes of Health)

  • Antonei B. Csoka

    (Brown University)

  • Michael Boehnke

    (University of Michigan)

  • Thomas W. Glover

    (National Institutes of Health)

  • Francis S. Collins

    (National Institutes of Health)

Abstract

Hutchinson–Gilford progeria syndrome (HGPS) is a rare genetic disorder characterized by features reminiscent of marked premature ageing1,2. Here, we present evidence of mutations in lamin A (LMNA) as the cause of this disorder. The HGPS gene was initially localized to chromosome 1q by observing two cases of uniparental isodisomy of 1q—the inheritance of both copies of this material from one parent—and one case with a 6-megabase paternal interstitial deletion. Sequencing of LMNA, located in this interval and previously implicated in several other heritable disorders3,4, revealed that 18 out of 20 classical cases of HGPS harboured an identical de novo (that is, newly arisen and not inherited) single-base substitution, G608G(GGC > GGT), within exon 11. One additional case was identified with a different substitution within the same codon. Both of these mutations result in activation of a cryptic splice site within exon 11, resulting in production of a protein product that deletes 50 amino acids near the carboxy terminus. Immunofluorescence of HGPS fibroblasts with antibodies directed against lamin A revealed that many cells show visible abnormalities of the nuclear membrane. The discovery of the molecular basis of this disease may shed light on the general phenomenon of human ageing.

Suggested Citation

  • Maria Eriksson & W. Ted Brown & Leslie B. Gordon & Michael W. Glynn & Joel Singer & Laura Scott & Michael R. Erdos & Christiane M. Robbins & Tracy Y. Moses & Peter Berglund & Amalia Dutra & Evgenia Pa, 2003. "Recurrent de novo point mutations in lamin A cause Hutchinson–Gilford progeria syndrome," Nature, Nature, vol. 423(6937), pages 293-298, May.
    • Handle: RePEc:nat:nature:v:423:y:2003:i:6937:d:10.1038_nature01629
    DOI: 10.1038/nature01629
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    Cited by:

    1. Mu Li & Aaron Zhong & Youjun Wu & Mega Sidharta & Michael Beaury & Xiaolan Zhao & Lorenz Studer & Ting Zhou, 2022. "Transient inhibition of p53 enhances prime editing and cytosine base-editing efficiencies in human pluripotent stem cells," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    2. Jorge Mata-Garrido & Yao Xiang & Yunhua Chang-Marchand & Caroline Reisacher & Elisabeth Ageron & Ida Chiara Guerrera & Iñigo Casafont & Aurelia Bruneau & Claire Cherbuy & Xavier Treton & Anne Dumay & , 2022. "The Heterochromatin protein 1 is a regulator in RNA splicing precision deficient in ulcerative colitis," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    3. Daniel Whisenant & Kayeong Lim & Gwladys Revêchon & Haidong Yao & Martin O. Bergo & Piotr Machtel & Jin-Soo Kim & Maria Eriksson, 2022. "Transient expression of an adenine base editor corrects the Hutchinson-Gilford progeria syndrome mutation and improves the skin phenotype in mice," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    4. Patricia R. Pitrez & Luis M. Monteiro & Oliver Borgogno & Xavier Nissan & Jerome Mertens & Lino Ferreira, 2024. "Cellular reprogramming as a tool to model human aging in a dish," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    5. Kari E. North & Lisa J. Martin, 2008. "The Importance of Gene—Environment Interaction," Sociological Methods & Research, , vol. 37(2), pages 164-200, November.

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