A dual Golgi- and mitochondria-localised Ala25Ser precursor cystatin C: An additional tool for characterising intracellular mis-localisation leading to increased AMD susceptibility

Arjuna Ratnayaka, Luminita Paraoan, Dave G. Spiller, Paul Hiscott, Glyn Nelson, Michael R H White, Ian Grierson

    Research output: Contribution to journalArticlepeer-review

    Abstract

    An artificial mutant Ala25Ser precursor cystatin C was created to help elucidate the cause of intracellular mis-localisation of the biochemically related variant B (Ala25Thr) precursor cystatin C to the mitochondria. Homozygotes of variant B precursor cystatin C were reported to carry an increased susceptibility to developing the exudative form of AMD. Ala25Ser precursor cystatin C shows a dual distribution to the Golgi apparatus and to the mitochondria. This localisation is thus intermediary between that of wild-type cystatin C (targeted to ER/Golgi compartment) and that of variant B precursor cystatin C. Furthermore, the level of secretion of Ala25Ser cystatin C by RPE cells is intermediary between wild type and variant B cystatin C. Ala25Ser precursor cystatin C thus represents a biochemical intermediate between the wild type and the AMD-associated cystatin C and as such, is a novel tool for the investigation of the mechanism of intracellular mis-localisation of variant B cystatin C. Our findings further support the hypothesis that substitution of the alanine residue in the penultimate position of precursor cystatin C signal sequence with a less hydrophobic amino acid residue, such as threonine (as in variant B cystatin C) or serine is sufficient to impair the intracellular trafficking and processing of the protein. © 2006 Elsevier Ltd. All rights reserved.
    Original languageEnglish
    Pages (from-to)1135-1139
    Number of pages4
    JournalExperimental eye research
    Volume84
    Issue number6
    DOIs
    Publication statusPublished - Jun 2007

    Keywords

    • AMD
    • cystatin C
    • mis-localisation
    • mitochondria
    • signal sequence

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