Mutations in SNRPE, which encodes a core protein of the spliceosome, cause autosomal-dominant hypotrichosis simplex

Sandra M. Pasternack, Melanie Refke, Elham Paknia, Hans Christian Hennies, Thomas Franz, Niklas Schäfer, Alan Fryer, Maurice van Steensel, Elizabeth Sweeney, Miquel Just, Clemens Grimm, Roland Kruse, Carlos Ferrándiz, Markus M. Nöthen, Utz Fischer, Regina C. Betz (Lead / Corresponding author)

    Research output: Contribution to journalArticlepeer-review

    39 Citations (Scopus)

    Abstract

    Hypotrichosis simplex (HS) comprises a group of hereditary isolated alopecias that are characterized by a diffuse and progressive loss of hair starting in childhood and shows a wide phenotypic variability. We mapped an autosomal-dominant form of HS to chromosome 1q31.3-1q41 in a Spanish family. By direct sequencing, we identified the heterozygous mutation c.1A>G (p.Met1?) in SNRPE that results in loss of the start codon of the transcript. We identified the same mutation in a simplex HS case from the UK and an additional mutation (c.133G>A [p.Gly45Ser]) in a simplex HS case originating from Tunisia. SNRPE encodes a core protein of U snRNPs, the key factors of the pre-mRNA processing spliceosome. The missense mutation c.133G>A leads to a glycine to serine substitution and is predicted to disrupt the structure of SNRPE. Western blot analyses of HEK293T cells expressing SNRPE c.1A>G revealed an N-terminally truncated protein, and therefore the mutation might result in use of an alternative in-frame downstream start codon. Subcellular localization of mutant SNRPE by immunofluorescence analyses as well as incorporation of mutant SNRPE proteins into U snRNPs was found to be normal, suggesting that the function of U snRNPs in splicing, rather than their biogenesis, is affected. In this report we link a core component of the spliceosome to hair loss, thus adding another specific factor in the complexity of hair growth. Furthermore, our findings extend the range of human phenotypes that are linked to the splicing machinery.
    Original languageEnglish
    Pages (from-to)81-87
    Number of pages7
    JournalAmerican Journal of Human Genetics
    Volume92
    Issue number1
    Early online date13 Dec 2012
    DOIs
    Publication statusPublished - 10 Jan 2013

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