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Human Cx50 Isoleucine177 prevents heterotypic docking and formation of functional gap junction channels with Cx43.

Authors :
Wong, Robert S.
Honghong Chen
Yi X. Li
Esseltine, Jessica L.
Stathopulos, Peter B.
Bai, Donglin
Source :
American Journal of Physiology: Cell Physiology. Feb2024, Vol. 326 Issue 2, pC414-C428. 15p.
Publication Year :
2024

Abstract

The human lens is an avascular organ, and its transparency is dependent on gap junction (GJ)-mediated microcirculation. Lens GJs are composed of three connexins with Cx46 and Cx50 being expressed in lens fiber cells and Cx43 and Cx50 in the epithelial cells. Impairment of GJ communication by either Cx46 or Cx50 mutations has been shown to be one of the main molecular mechanisms of congenital cataracts in mutant carrier families. The docking compatibility and formation of functional heterotypic GJs for human lens connexins have not been studied. Previous study on rodent lens connexins revealed that Cx46 can form functional heterotypic GJs with Cx50 and Cx43, but Cx50 cannot form heterotypic GJ with Cx43 due to its second extracellular (EL2) domain. To study human lens connexin docking and formation of functional heterotypic GJs, we developed a genetically engineered HEK293 cell line with endogenously expressed Cx43 and Cx45 ablated. The human lens connexins showed docking compatibility identical to those found in the rodent connexins. To reveal the structural mechanisms of the docking incompatibility between Cx50 and Cx43, we designed eight variants based on the differences between the EL2 of Cx50 and Cx46. We found that Cx50I177L is sufficient to establish heterotypic docking with Cx43 with some interesting gating properties. Our structure models indicate this residue is important for interdomain interactions within a single connexin, Cx50 I177L showed an increased interdomain interaction which might alter the docking interface structure to be compatible with Cx43. NEW & NOTEWORTHY The human lens is an avascular organ, and its transparency is partially dependent on gap junction (GJ) network composed of Cx46, Cx50, and Cx43. We found that human Cx46 can dock and form functional heterotypic GJs with Cx50 and Cx43, but Cx50 is unable to form functional heterotypic GJs with Cx43. Through mutagenesis and patch-clamp study of several designed variants, we found that Cx50 I177L was sufficient to form functional heterotypic GJs with Cx43. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03636143
Volume :
326
Issue :
2
Database :
Academic Search Index
Journal :
American Journal of Physiology: Cell Physiology
Publication Type :
Academic Journal
Accession number :
175629587
Full Text :
https://doi.org/10.1152/ajpcell.00634.2023