Abstract
Three point mutations of the connexin26 (GJB2) gene associated with hereditary deafness were studied using in vitro expression systems. Mutation M34T results in an amino acid substitution in the first transmembrane domain of the connexin protein, W77R is located in the second transmembrane domain and W44C is in the first extracellular loop. Wild-type and mutated connexin vectors were constructed and transfected into communication-deficient HeLa cells to obtain transient expression of the connexin proteins. Intercellular coupling was subsequently assessed by examining transfer of Lucifer yellow between cells. All three mutations resulted in impaired intercellular coupling. The mechanistic reasons for the functional inadequacies of the mutated proteins were investigated. First, intracellular trafficking and targeting of the expressed connexins were determined by immunohistochemistry. Mutation W77R was inefficiently targeted to the plasma membrane and retained in intracellular stores whereas the other two were targeted to the plasma membrane. Oligomerization assays showed that connexins M34T and W77R failed to assemble efficiently into hexameric gap junction hemichannels, but the W44C mutation did so. A cell-free translation system showed that the mutated proteins were inserted into microsomal membranes but the mutations have different effects on the post-translational properties of the expressed proteins. The results point to the conclusion that mutations in the transmembrane domains of connexin proteins influence gap junction assembly.
Highlights
Gap junctions are regions of contact between two cells where channels that allow direct communication between the adjacent cells are formed
Fourteen connexin isoforms have been identified in mammals, all showing a common topography with cytoplasmic amino and carboxyl terminal regions, a single intracellular loop and two extracellular loops (Fig. 1) [2]
Gap junctions are numerous in the cochlea and vestibular portions of the inner ear, where Cx26 is one of the major connexins expressed [10,11]
Summary
Gap junctions are regions of contact between two cells where channels that allow direct communication between the adjacent cells are formed. It has been suggested that EP is maintained by local circulation of potassium [12,13,14,15,16,17] and a role for gap junctions in providing a cell–cell pathway for entry of potassium to the stria vascularis is a strong possibility. If this were so, mutations in genes for gap junction channel proteins would be expected to have a significant effect on hearing sensitivity but not on the vestibular system
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