Human connexin26 (GJB2) deafness mutations affect the function of gap junction channels at different levels of protein expression.

Mutations in the connexin26 (GJB2) gene account for about half of inherited non-syndromic deafness cases in Western countries. The connexin26 protein is a subunit of gap junctions that form a network of intercellular communication among supporting cells and fibrocytes in the mammalian inner ear. Here we describe functional implications of mutations in the coding region of connexin26 genes (M1V, M34T, L90P, R127H, F161S, P173R, and R184P), identified in patients and stably transfected in human HeLa cells. While all mutated connexin26 cDNAs were transcribed, only M34T, L90P, R127H, F161S, and R184P were translated in HeLa cells. Analysis of indirect immunofluorescence showed membranous localization, strong for M34T, L90P, R127H, and very weak for F161S, but no signal corresponding to M1V, P173R and R184P. Tracer coupling experiments revealed diffusion of microinjected neurobiotin into neighbouring cells in the case of M34T and R127H, whereas M1V, L90P, F161S, P173R and R184P mutants did not show intercellular coupling. The results of oligomerisation studies suggested a partly disturbed assembly of hemichannels in M34T and L90P mutants but complete absence of hemichannel formation in the R184P mutant. The R127H mutation did not affect channel formation and is likely to represent a polymorphism. Our results show that mutations in the connexin26 gene can affect gap junctional intercellular communication at the level of protein translation, trafficking or assembly of hemichannels.

Authors and Affiliations

1. Institut für Genetik, Universität Bonn, Römerstrasse 164, 53117 Bonn, Germany, Germany

   Eva Thönnissen, Klaus Willecke & Thomas Ott

2. Centre de Genetica Medica i Molecular, Hospital Duran i Reynals, L´Hospitalet, 08907 Barcelona, Spain, Spain

   Raquel Rabionet, Maria Arbonès & Xavier Estivill

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