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Biochemical and biophysical analyses of tight junction permeability made of claudin-16 and claudin-19 dimerization.

ABSTRACT: The molecular nature of tight junction architecture and permeability is a long-standing mystery. Here, by comprehensive biochemical, biophysical, genetic, and electron microscopic analyses of claudin-16 and -19 interactions--two claudins that play key polygenic roles in fatal human renal disease, FHHNC--we found that 1) claudin-16 and -19 form a stable dimer through cis association of transmembrane domains 3 and 4; 2) mutations disrupting the claudin-16 and -19 cis interaction increase tight junction ultrastructural complexity but reduce tight junction permeability; and 3) no claudin hemichannel or heterotypic channel made of claudin-16 and -19 trans interaction can exist. These principles can be used to artificially alter tight junction permeabilities in various epithelia by manipulating selective claudin interactions. Our study also emphasizes the use of a novel recording approach based on scanning ion conductance microscopy to resolve tight junction permeabilities with submicrometer precision.

SUBMITTER: Gong Y 

PROVIDER: S-EPMC4666130 | biostudies-literature | 2015 Dec

REPOSITORIES: biostudies-literature

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Biochemical and biophysical analyses of tight junction permeability made of claudin-16 and claudin-19 dimerization.

Gong Yongfeng Y   Renigunta Vijayaram V   Zhou Yi Y   Sunq Abby A   Wang Jinzhi J   Yang Jing J   Renigunta Aparna A   Baker Lane A LA   Hou Jianghui J  

Molecular biology of the cell 20151007 24

The molecular nature of tight junction architecture and permeability is a long-standing mystery. Here, by comprehensive biochemical, biophysical, genetic, and electron microscopic analyses of claudin-16 and -19 interactions--two claudins that play key polygenic roles in fatal human renal disease, FHHNC--we found that 1) claudin-16 and -19 form a stable dimer through cis association of transmembrane domains 3 and 4; 2) mutations disrupting the claudin-16 and -19 cis interaction increase tight jun  ...[more]

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