Latest Publications

Sarbjit Nijjar, Deborah Brotherton, Jack Butler, Valentin-Mihai Dospinescu, Harry G Gannon, Victoria Linthwaite, Martin Cann, Alexander Cameron, Nicholas Dale 

CO₂ directly modifies the gating of connexin26 (Cx26) gap junction channels and hemichannels. This gating depends upon Lys125, and the proposed mechanism involves carbamylation of Lys125 to allow formation of a salt bridge with Arg104 on the neighbouring subunit. We demonstrate via carbamate trapping and tandem mass spectrometry that five Lys residues within the cytoplasmic loop, including Lys125, are indeed carbamylated by CO₂ . Our findings directly demonstrate carbamylation in connexins, provide further insight into the differential action of CO₂ on Cx26 hemichannels and gap junction channels, and increase support for the role of the N-terminus in gating the Cx26 channel. KEY POINTS: Direct evidence of carbamylation of multiple lysine residues in the cytoplasmic loop of Cx26. Concentration-dependent carbamylation at lysines 108, 122 and 125. Only carbamylation of lysine 125 is essential for hemichannel opening to CO₂. Carbamylation of lysine 108 along with lysine 125 is essential for CO₂-dependent gap junction channel closure.

Journal of Physiology. February 2025