Assembly of tight junction belts by ZO1 surface condensation and local actin polymerization

Daxiao  Sun; Xueping Zhao; Tina  Wiegand; Cecilie  Martin-Lemaitre; Tom  Borianne; Lennart  Kleinschmidt; Stephan W.  Grill; Anthony A.  Hyman; Christoph  Weber; Alf  Honigmann

doi:10.1016/j.devcel.2024.12.012

Assembly of tight junction belts by ZO1 surface condensation and local actin polymerization

Daxiao Sun, Xueping Zhao, Tina Wiegand, Cecilie Martin-Lemaitre, Tom Borianne, Lennart Kleinschmidt, Stephan W. Grill, Anthony A. Hyman, Christoph Weber, Alf Honigmann

School of Mathematical Sciences

Research output: Journal Publication › Article › peer-review

Abstract

Tight junctions play an essential role in sealing tissues, by forming belts of adhesion strands around cellular perimeters. Recent work has shown that the condensation of ZO1 scaffold proteins is required for tight junction assembly. However, the mechanisms by which junctional condensates initiate at cell-cell contacts and elongate around cell perimeters remain unknown. Combining biochemical reconstitutions and live-cell imaging of MDCKII tissue, we found that tight junction belt formation is driven by adhesion receptor-mediated ZO1
surface condensation coupled to local actin polymerization. Adhesion receptor oligomerization provides the signal for surface binding and local condensation of ZO1 at the cell membrane. Condensation produces a molecular scaffold that selectively enriches junctional proteins. Finally, ZO1 condensates directly facilitate local actin polymerization and filament bundling, driving the elongation into a continuous tight junction belt. More broadly, our work identifies how cells couple surface condensation with cytoskeleton organization
to assemble and structure adhesion complexes.

Original language	English
Journal	Developmental Cell
DOIs	https://doi.org/10.1016/j.devcel.2024.12.012
Publication status	Published - 31 Dec 2024

Keywords

tissue sealing
tight junction
receptor oligomerization
surface phase separation
protein condensation
cytoskeleton organization
condensate shaping

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10.1016/j.devcel.2024.12.012

Cite this

@article{74a51ae03d384ce6bc9c35d700ef2c0e,

title = "Assembly of tight junction belts by ZO1 surface condensation and local actin polymerization",

abstract = "Tight junctions play an essential role in sealing tissues, by forming belts of adhesion strands around cellular perimeters. Recent work has shown that the condensation of ZO1 scaffold proteins is required for tight junction assembly. However, the mechanisms by which junctional condensates initiate at cell-cell contacts and elongate around cell perimeters remain unknown. Combining biochemical reconstitutions and live-cell imaging of MDCKII tissue, we found that tight junction belt formation is driven by adhesion receptor-mediated ZO1surface condensation coupled to local actin polymerization. Adhesion receptor oligomerization provides the signal for surface binding and local condensation of ZO1 at the cell membrane. Condensation produces a molecular scaffold that selectively enriches junctional proteins. Finally, ZO1 condensates directly facilitate local actin polymerization and filament bundling, driving the elongation into a continuous tight junction belt. More broadly, our work identifies how cells couple surface condensation with cytoskeleton organizationto assemble and structure adhesion complexes.",

keywords = "tissue sealing, tight junction, receptor oligomerization, surface phase separation, protein condensation, cytoskeleton organization, condensate shaping",

author = "Daxiao Sun and Xueping Zhao and Tina Wiegand and Cecilie Martin-Lemaitre and Tom Borianne and Lennart Kleinschmidt and Grill, {Stephan W.} and Hyman, {Anthony A.} and Christoph Weber and Alf Honigmann",

year = "2024",

month = dec,

day = "31",

doi = "10.1016/j.devcel.2024.12.012",

language = "English",

journal = "Developmental Cell",

issn = "1534-5807",

publisher = "Cell Press",

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TY - JOUR

T1 - Assembly of tight junction belts by ZO1 surface condensation and local actin polymerization

AU - Sun, Daxiao

AU - Zhao, Xueping

AU - Wiegand, Tina

AU - Martin-Lemaitre, Cecilie

AU - Borianne, Tom

AU - Kleinschmidt, Lennart

AU - Grill, Stephan W.

AU - Hyman, Anthony A.

AU - Weber, Christoph

AU - Honigmann, Alf

PY - 2024/12/31

Y1 - 2024/12/31

N2 - Tight junctions play an essential role in sealing tissues, by forming belts of adhesion strands around cellular perimeters. Recent work has shown that the condensation of ZO1 scaffold proteins is required for tight junction assembly. However, the mechanisms by which junctional condensates initiate at cell-cell contacts and elongate around cell perimeters remain unknown. Combining biochemical reconstitutions and live-cell imaging of MDCKII tissue, we found that tight junction belt formation is driven by adhesion receptor-mediated ZO1surface condensation coupled to local actin polymerization. Adhesion receptor oligomerization provides the signal for surface binding and local condensation of ZO1 at the cell membrane. Condensation produces a molecular scaffold that selectively enriches junctional proteins. Finally, ZO1 condensates directly facilitate local actin polymerization and filament bundling, driving the elongation into a continuous tight junction belt. More broadly, our work identifies how cells couple surface condensation with cytoskeleton organizationto assemble and structure adhesion complexes.

AB - Tight junctions play an essential role in sealing tissues, by forming belts of adhesion strands around cellular perimeters. Recent work has shown that the condensation of ZO1 scaffold proteins is required for tight junction assembly. However, the mechanisms by which junctional condensates initiate at cell-cell contacts and elongate around cell perimeters remain unknown. Combining biochemical reconstitutions and live-cell imaging of MDCKII tissue, we found that tight junction belt formation is driven by adhesion receptor-mediated ZO1surface condensation coupled to local actin polymerization. Adhesion receptor oligomerization provides the signal for surface binding and local condensation of ZO1 at the cell membrane. Condensation produces a molecular scaffold that selectively enriches junctional proteins. Finally, ZO1 condensates directly facilitate local actin polymerization and filament bundling, driving the elongation into a continuous tight junction belt. More broadly, our work identifies how cells couple surface condensation with cytoskeleton organizationto assemble and structure adhesion complexes.

KW - tissue sealing

KW - tight junction

KW - receptor oligomerization

KW - surface phase separation

KW - protein condensation

KW - cytoskeleton organization

KW - condensate shaping

U2 - 10.1016/j.devcel.2024.12.012

DO - 10.1016/j.devcel.2024.12.012

M3 - Article

SN - 1534-5807

JO - Developmental Cell

JF - Developmental Cell

ER -

Assembly of tight junction belts by ZO1 surface condensation and local actin polymerization

Abstract

Keywords

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