Rho Flares Repair Local Tight Junction Leaks

Tight junctions contribute to epithelial barrier function by selectively regulating the quantity and type of molecules that cross the paracellular barrier. Experimental approaches to evaluate the effectiveness of tight junctions are typically global, tissue-scale measures. Here, we introduce Zinc-ba...

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Bibliographic Details
Published in:Developmental cell 2019-02, Vol.48 (4), p.445-459.e5
Main Authors: Stephenson, Rachel E., Higashi, Tomohito, Erofeev, Ivan S., Arnold, Torey R., Leda, Marcin, Goryachev, Andrew B., Miller, Ann L.
Format: Article
Language:English
Subjects:
actin
Actins - metabolism
Adherens Junctions - metabolism
Animals
barrier assay
Caco-2 Cells - cytology
Epithelial Cells - metabolism
epithelium
Humans
junction contraction
leak pathway
Membrane Proteins - metabolism
myosin II
Phosphoproteins - metabolism
Rho GTPase
rho-Associated Kinases - metabolism
tight junction
Tight Junctions - metabolism
Tight Junctions - pathology
Xenopus
Xenopus laevis - metabolism
ZnUMBA (Zinc-based Ultrasensitive Microscopic Barrier Assay)
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Summary:Tight junctions contribute to epithelial barrier function by selectively regulating the quantity and type of molecules that cross the paracellular barrier. Experimental approaches to evaluate the effectiveness of tight junctions are typically global, tissue-scale measures. Here, we introduce Zinc-based Ultrasensitive Microscopic Barrier Assay (ZnUMBA), which we used in Xenopus laevis embryos to visualize short-lived, local breaches in epithelial barrier function. These breaches, or leaks, occur as cell boundaries elongate, correspond to visible breaks in the tight junction, and are followed by transient localized Rho activation, or Rho flares. We discovered that Rho flares restore barrier function by driving concentration of tight junction proteins through actin polymerization and ROCK-mediated localized contraction of the cell boundary. We conclude that Rho flares constitute a damage control mechanism that reinstates barrier function when tight junctions become locally compromised because of normally occurring changes in cell shape and tissue tension. [Display omitted] •ZnUMBA is a novel zinc-based ultrasensitive microscopic barrier assay•ZnUMBA detects transient, localized tight junction breaches in developing epithelia•Rho flares rapidly repair tight junctions to minimize leakiness at breach points•Actomyosin-mediated junction contraction promotes tight junction reinforcement Epithelial barrier function is critical for normal organ function. Stephenson et al. present a barrier assay capable of detecting transient breaches of the epithelial barrier with high spatial and temporal resolution. Additionally, they find that Rho flares promote actomyosin-mediated junction contraction, which rapidly repairs transient leaks to maintain barrier integrity.
ISSN:1534-5807
1878-1551
DOI:10.1016/j.devcel.2019.01.016