The Rat Bladder Umbrella Cell Keratin Network: Organization, Dependence on the Plectin Cytolinker, and Responses to Bladder Filling

Overview

Journal Mol Biol Cell

Specialties Cell Biology
Molecular Biology

Date 2024 Oct 2

PMID 39356795

Authors

Wily G Ruiz

Dennis R Clayton

Tanmay Parakala-Jain

Marianela G Dalghi

Jonathan Franks

Gerard Apodaca

Affiliations

Soon will be listed here.

Abstract

The keratin cytoskeleton and associated desmosomes contribute to the mechanical stability of epithelial tissues, but their organization in native bladder umbrella cells and their responses to bladder filling are poorly understood. Using whole rat bladders in conjunction with confocal microscopy, super-resolution image processing, three-dimensional image reconstruction, and platinum replica electron microscopy, we identified a cortical cytoskeleton network in umbrella cells that was organized as a dense tile-like mesh comprised of tesserae bordered by cortical actin filaments, filled with keratin filaments, and cross-linked by plectin. Below these tesserae, keratin formed a subapical meshwork and at the cell periphery a band of keratin was linked via plectin to the junction-associated actin ring. Disruption of plectin led to focal keratin network dissolution, loss of the junction-associated keratin, and defects in cell-cell adhesion. During bladder filling, a junction-localized necklace of desmosomes expanded, and a subjacent girded layer formed linking the keratin network to desmosomes, including those at the umbrella cell-intermediate cell interface. Our studies reveal a novel tile- and mesh-like organization of the umbrella cell keratin network that is dependent on plectin, that reorganizes in response to bladder filling, and that likely serves to maintain umbrella cell continuity in the face of mechanical distension.

Citing Articles

Mechanics of cell sheets: plectin as an integrator of cytoskeletal networks.

Outla Z, Prechova M, Korelova K, Gemperle J, Gregor M Open Biol. 2025; 15(1):240208.

PMID: 39875099 PMC: 11774597. DOI: 10.1098/rsob.240208.

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