Phosphorylation of connexin 50 by protein kinase A enhances gap junction and hemichannel function.

Phosphorylation of connexins is an important mechanism regulating gap junction channels. However, the role(s) of connexin (Cx) phosphorylation in vivo are largely unknown. Here, we showed by mass spectrometry that Ser-395 in the C terminus of chicken Cx50 was phosphorylated in the lens. Ser-395 is located within a consensus site. Analyses of Cx50 phosphorylation by two-dimensional thin layer chromatography tryptic phosphopeptide profiles suggested that Ser-395 was targeted by duanyu1529 in vivo. duanyu1529 activation increased both gap junction dye coupling and hemichannel dye uptake in a manner not involving increases in total Cx50 expression or relocation to the cell surface or gap junctional plaques. Single channel recordings indicated duanyu1529 enhanced transitions between the closed and ∼200-pS open state while simultaneously reducing transitions between this open state and a ∼65-pS subconductance state. The mutation of Ser-395 to alanine significantly attenuated increases in dye coupling and uptake by Cx50. However, channel records indicated that phosphorylation at this site was unnecessary for enhanced transitions between the closed and ∼200-pS conductance state. Together, these results suggest that Cx50 is phosphorylated in vivo by duanyu1529 at Ser-395 and that this event, although unnecessary for duanyu1529-induced alterations in channel conductance, promotes increased dye permeability of Cx50 channels, which plays an important role in metabolic coupling and transport in lens fibers.

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