1. Connexin30 mutations responsible for hidrotic ectodermal dysplasia cause abnormal hemichannel activity.
- Author
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Essenfelder GM, Bruzzone R, Lamartine J, Charollais A, Blanchet-Bardon C, Barbe MT, Meda P, and Waksman G
- Subjects
- Adenosine Triphosphate metabolism, Animals, Connexin 30, DNA Primers, Electrophysiology, Epidermis metabolism, HeLa Cells, Humans, Immunohistochemistry, Ion Channels genetics, Microinjections, Mutagenesis, Site-Directed, Nucleic Acid Amplification Techniques, Oocytes metabolism, Transfection, Xenopus, Connexins genetics, Connexins metabolism, Ectodermal Dysplasia genetics, Ion Channels metabolism, Mutation genetics
- Abstract
Clouston syndrome or hidrotic ectodermal dysplasia (HED) is a rare dominant genodermatosis characterized by palmoplantar hyperkeratosis, generalized alopecia and nail defects. The disease is caused by mutations in the human GJB6 gene which encodes the gap junction protein connexin30 (Cx30). To gain insight into the molecular mechanisms underlying HED, we have analyzed the consequences of two of these mutations (G11R Cx30 and A88V Cx30) on the functional properties of the connexons they form. Here, we show that the distribution of Cx30 is similar in affected palmoplantar skin and in normal epidermis. We further demonstrate that the presence of the wild-type protein (wt Cx30) improves the trafficking of mutated Cx30 to the plasma membrane where both G11R and A88V Cx30 co-localize with wt Cx30 and form functional intercellular channels. The electrophysiological properties of channels made of G11R and A88V Cx30 differ slightly from those of wt Cx30 but allow for dye transfer between transfected HeLa cells. Finally, we document a gain of function of G11R and A88V Cx30, which form functional hemichannels at the cell surface and, when expressed in HeLa cells, generate a leakage of ATP into the extracellular medium. Such increased ATP levels might act as a paracrine messenger that, by altering the epidermal factors which control the proliferation and differentiation of keratinocytes, may play an important role in the pathophysiological processes leading to the HED phenotype.
- Published
- 2004
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