Aberrant hemichannel properties of Cx26 mutations causing skin disease and deafness.

Mutations in the human GJB2 gene, which encodes connexin26 (Cx26), underlie various forms of hereditary deafness and skin disease. While it has proven difficult to discern the exact pathological mechanisms that cause these disorders, studies have shown that the loss or abnormal function of Cx26 protein has a profound effect on tissue homeostasis. Here, we used the Xenopus oocyte expression system to examine the functional characteristics of a Cx26 mutation (G45E) that results in keratitis-ichthyosis-deafness syndrome (KIDS) with a fatal outcome.

Connexin disorders of the ear, skin, and lens.

Gap junctions provide coupled cells with a direct pathway for sharing ions, nutrients, and small metabolites, thus helping to maintain homeostasis in various tissues. Abnormal function and/or expression of specific connexin genes has been linked to several diseases, including genetic deafness, skin disease, peripheral neuropathies, and cataracts. Research has provided significant insight into the function of gap junction proteins in both in vitro and in vivo models; however, questions regarding the exact mechanisms by which connexin related diseases occur in mammalian systems remain.

Genetic background influences cataractogenesis, but not lens growth deficiency, in Cx50-knockout mice.

Purpose: Deletion of connexin (Cx)50 produces microphthalmia with nuclear cataracts. To determine whether these two traits are influenced by genetic background and are dependent on each other, mice carrying the Cx50 deletion in two different strains were generated, and the growth defect and severity of cataracts were analyzed.

Methods: Cx50-knockout mice were generated in the 129S6 strain, and back-crossed into the C57BL/6J genetic background.