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Basal body dysfunction is a likely cause of pleiotropic Bardet–Biedl syndrome

Author

Listed:
  • Stephen J. Ansley

    (Institute of Genetic Medicine, Johns Hopkins University)

  • Jose L. Badano

    (Institute of Genetic Medicine, Johns Hopkins University)

  • Oliver E. Blacque

    (Simon Fraser University)

  • Josephine Hill

    (University College London)

  • Bethan E. Hoskins

    (Institute of Genetic Medicine, Johns Hopkins University
    University College London)

  • Carmen C. Leitch

    (Institute of Genetic Medicine, Johns Hopkins University)

  • Jun Chul Kim

    (Simon Fraser University)

  • Alison J. Ross

    (University College London)

  • Erica R. Eichers

    (Baylor College of Medicine)

  • Tanya M. Teslovich

    (Institute of Genetic Medicine, Johns Hopkins University)

  • Allan K. Mah

    (Simon Fraser University)

  • Robert C. Johnsen

    (Simon Fraser University)

  • John C. Cavender

    (King Khaled Eye Hospital)

  • Richard Alan Lewis

    (Baylor College of Medicine
    Baylor College of Medicine)

  • Michel R. Leroux

    (Simon Fraser University)

  • Philip L. Beales

    (University College London)

  • Nicholas Katsanis

    (Institute of Genetic Medicine, Johns Hopkins University
    Johns Hopkins University)

Abstract

Bardet–Biedl syndrome (BBS) is a genetically heterogeneous disorder characterized primarily by retinal dystrophy, obesity, polydactyly, renal malformations and learning disabilities. Although five BBS genes have been cloned1,2,3,4,5,6, the molecular basis of this syndrome remains elusive. Here we show that BBS is probably caused by a defect at the basal body of ciliated cells. We have cloned a new BBS gene, BBS8, which encodes a protein with a prokaryotic domain, pilF, involved in pilus formation and twitching mobility. In one family, a homozygous null BBS8 mutation leads to BBS with randomization of left–right body axis symmetry, a known defect of the nodal cilium. We have also found that BBS8 localizes specifically to ciliated structures, such as the connecting cilium of the retina and columnar epithelial cells in the lung. In cells, BBS8 localizes to centrosomes and basal bodies and interacts with PCM1, a protein probably involved in ciliogenesis. Finally, we demonstrate that all available Caenorhabditis elegans BBS homologues are expressed exclusively in ciliated neurons, and contain regulatory elements for RFX, a transcription factor that modulates the expression of genes associated with ciliogenesis and intraflagellar transport.

Suggested Citation

  • Stephen J. Ansley & Jose L. Badano & Oliver E. Blacque & Josephine Hill & Bethan E. Hoskins & Carmen C. Leitch & Jun Chul Kim & Alison J. Ross & Erica R. Eichers & Tanya M. Teslovich & Allan K. Mah & , 2003. "Basal body dysfunction is a likely cause of pleiotropic Bardet–Biedl syndrome," Nature, Nature, vol. 425(6958), pages 628-633, October.
    • Handle: RePEc:nat:nature:v:425:y:2003:i:6958:d:10.1038_nature02030
    DOI: 10.1038/nature02030
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