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Sphingolipid lysosomal storage disorders

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  • Frances M. Platt

    (University of Oxford)

Abstract

Lysosomal storage diseases are inborn errors of metabolism, the hallmark of which is the accumulation, or storage, of macromolecules in the late endocytic system. They are monogenic disorders that occur at a collective frequency of 1 in 5,000 live births and are caused by inherited defects in genes that mainly encode lysosomal proteins, most commonly lysosomal enzymes. A subgroup of these diseases involves the lysosomal storage of glycosphingolipids. Through our understanding of the genetics, biochemistry and, more recently, cellular aspects of sphingolipid storage disorders, we have gained insights into fundamental aspects of cell biology that would otherwise have remained opaque. In addition, study of these disorders has led to significant progress in the development of therapies, several of which are now in routine clinical use. Emerging mechanistic links with more common diseases suggest we need to rethink our current concept of disease boundaries.

Suggested Citation

  • Frances M. Platt, 2014. "Sphingolipid lysosomal storage disorders," Nature, Nature, vol. 510(7503), pages 68-75, June.
  • Handle: RePEc:nat:nature:v:510:y:2014:i:7503:d:10.1038_nature13476
    DOI: 10.1038/nature13476
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    Cited by:

    1. Zidan Wang & Donghui Zhang & Junhan Wu & Wenpeng Zhang & Yu Xia, 2024. "Illuminating the dark space of neutral glycosphingolipidome by selective enrichment and profiling at multi-structural levels," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    2. Yuzhe Weng & Dawn Shepherd & Yi Liu & Nitya Krishnan & Brian D. Robertson & Nick Platt & Gerald Larrouy-Maumus & Frances M. Platt, 2022. "Inhibition of the Niemann-Pick C1 protein is a conserved feature of multiple strains of pathogenic mycobacteria," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    3. Yu Yuan & Dawid Jaślan & Taufiq Rahman & Stephen R. Bolsover & Vikas Arige & Larry E. Wagner & Carla Abrahamian & Rachel Tang & Marco Keller & Jonas Hartmann & Anna S. Rosato & Eva-Maria Weiden & Fran, 2022. "Segregated cation flux by TPC2 biases Ca2+ signaling through lysosomes," Nature Communications, Nature, vol. 13(1), pages 1-13, December.

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