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Familial dementia caused by polymerization of mutant neuroserpin

Author

Listed:
  • Richard L. Davis

    (Departments of Clinical Pathology)

  • Antony E. Shrimpton

    (Departments of Clinical Pathology)

  • Peter D. Holohan

    (Pharmacology)

  • Charles Bradshaw

    (Neurology)

  • David Feiglin

    (Radiology, State University of New York Health Science, Center)

  • George H. Collins

    (Departments of Clinical Pathology)

  • Peter Sonderegger

    (University of Zurich)

  • Jochen Kinter
  • Lyn Marie Becker
  • Felicitas Lacbawan

    (National Human Genome Research Institute, National Institutes of Health)

  • Donna Krasnewich

    (National Human Genome Research Institute, National Institutes of Health)

  • Maximilian Muenke

    (National Human Genome Research Institute, National Institutes of Health)

  • Daniel A. Lawrence

    (American Red Cross, Holland Laboratories)

  • Mark S. Yerby

    (Public Health and Obstetrics-Gynecology, Oregon Health Sciences University)

  • Cheng-Mei Shaw

    (University of Washington, School of Medicine)

  • Bibek Gooptu

    (University of Cambridge, Cambridge Institute for Medical Research
    University of Cambridge, Cambridge Institute for Medical Research)

  • Peter R. Elliott

    (University of Cambridge, Cambridge Institute for Medical Research
    University of Cambridge, Cambridge Institute for Medical Research)

  • John T. Finch

    (Laboratory of Molecular Biology, MRC Centre)

  • Robin W. Carrell

    (University of Cambridge, Cambridge Institute for Medical Research)

  • David A. Lomas

    (University of Cambridge, Cambridge Institute for Medical Research
    University of Cambridge, Cambridge Institute for Medical Research)

Abstract

Aberrant protein processing with tissue deposition is associated with many common neurodegenerative disorders1,2; however, the complex interplay of genetic and environmental factors has made it difficult to decipher the sequence of events linking protein aggregation with clinical disease3. Substantial progress has been made toward understanding the pathophysiology of prototypical conformational diseases and protein polymerization in the superfamily of serine proteinase inhibitors (serpins)4,5. Here we describe a new disease, familial encephalopathy with neuroserpin inclusion bodies, characterized clinically as an autosomal dominantly inherited dementia, histologically by unique neuronal inclusion bodies and biochemically by polymers of the neuron-specific serpin, neuroserpin6,7. We report the cosegregation of point mutations in the neuroserpin gene (PI12) with the disease in two families. The significance of one mutation, S49P, is evident from its homology to a previously described serpin mutation8, whereas that of the other, S52R, is predicted by modelling of the serpin template. Our findings provide a molecular mechanism for a familial dementia and imply that inhibitors of protein polymerization may be effective therapies for this disorder and perhaps for other more common neurodegenerative diseases.

Suggested Citation

  • Richard L. Davis & Antony E. Shrimpton & Peter D. Holohan & Charles Bradshaw & David Feiglin & George H. Collins & Peter Sonderegger & Jochen Kinter & Lyn Marie Becker & Felicitas Lacbawan & Donna Kra, 1999. "Familial dementia caused by polymerization of mutant neuroserpin," Nature, Nature, vol. 401(6751), pages 376-379, September.
    • Handle: RePEc:nat:nature:v:401:y:1999:i:6751:d:10.1038_43894
    DOI: 10.1038/43894
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