To explore the functional consequences of two common variants, p.V37I and c.299-300delAT in hearing loss associated gene GJB2. Connexin 26 expression and gap junctional permeability were studied in HEK 293T cells transfected with plasmids expressing GJB2 wild-type, p.V37I, or c.299-300delAT CX26 proteins with fluorescent tags. Functional analyses of different GJB2 haplotypes were performed to fully assess the alteration of ionic and small-molecule coupling. The p.V37I protein was localized at the plasma membrane, but failed to effectively transport intercellular propidium iodide or Ca2+ efficiently, indicating impairment of both biochemical and ionic coupling. The presence of GJB2 p.V37I appeared to increase the sensitivity of cells to H2O2 treatment. In contrast, the known variant c.299-300delAT protein was not transported to the cell membrane and could not form gap junctions, instead being confined to the cytoplasm. Ionic and biochemical coupling was defective in c.299-300delAT-transfected cells. The p.V37I and c.299-300delAT GJB2 mutations resulted in deficient gap junction-mediated coupling. Environmental factors may impact the functional consequences of GJB2 p.V37I. These results may inspire the development of molecular therapies targeting GJB2 mutations for hearing loss.