Tropomodulin protects α-catenin-dependent junctional-actin networks under stress during epithelial morphogenesis

Elisabeth A. Cox-Paulson; Elise Walck-Shannon; Allison M. Lynch; Sawako Yamashiro; Ronen Zaidel-Bar; Celeste C. Eno; Shoichiro Ono; Jeff Hardin

doi:10.1016/j.cub.2012.06.025

Tropomodulin protects α-catenin-dependent junctional-actin networks under stress during epithelial morphogenesis

Elisabeth A. Cox-Paulson, Elise Walck-Shannon, Allison M. Lynch, Sawako Yamashiro, Ronen Zaidel-Bar, Celeste C. Eno, Shoichiro Ono, Jeff Hardin^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

α-catenin is central to recruitment of actin networks to the cadherin-catenin complex [1, 2], but how such networks are subsequently stabilized against stress applied during morphogenesis is poorly understood. To identify proteins that functionally interact with α-catenin in this process, we performed enhancer screening using a weak allele of the C. elegans α-catenin, hmp-1, thereby identifying UNC-94/tropomodulin. Tropomodulins (Tmods) cap the minus ends of F-actin in sarcomeres [3]. They also regulate lamellipodia [4], can promote actin nucleation [5], and are required for normal cardiovascular development [6, 7] and neuronal growth-cone morphology [8]. Tmods regulate the morphology of cultured epithelial cells [9], but their role in epithelia in vivo remains unexplored. We find that UNC-94 is enriched within a HMP-1-dependent junctional-actin network at epidermal adherens junctions subject to stress during morphogenesis. Loss of UNC-94 leads to discontinuity of this network, and high-speed filming of hmp-1(fe4);unc-94(RNAi) embryos reveals large junctional displacements that depend on the Rho pathway. In vitro, UNC-94 acts in combination with HMP-1, leading to longer actin bundles than with HMP-1 alone. Our data suggest that Tmods protect actin filaments recruited by α-catenin from minus-end subunit loss, enabling them to withstand the stresses of morphogenesis.

Original language	English
Pages (from-to)	1500-1505
Number of pages	6
Journal	Current Biology
Volume	22
Issue number	16
DOIs	https://doi.org/10.1016/j.cub.2012.06.025
State	Published - 21 Aug 2012
Externally published	Yes

Funding

Funders	Funder number
Eunice Kennedy Shriver National Institute of Child Health and Human Development
National Institutes of Health
National Institute of General Medical Sciences	T32GM007133, R01GM058038, F32GM067410
Muscular Dystrophy Association	4218
National Science Foundation	IOB 0518081
National Institute of Arthritis and Musculoskeletal and Skin Diseases	R01AR048615
National Institute of Child Health and Human Development	R15HD059952

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@article{bc4a2ebbdc5d4eceb0a7d907497a935f,

title = "Tropomodulin protects α-catenin-dependent junctional-actin networks under stress during epithelial morphogenesis",

abstract = "α-catenin is central to recruitment of actin networks to the cadherin-catenin complex [1, 2], but how such networks are subsequently stabilized against stress applied during morphogenesis is poorly understood. To identify proteins that functionally interact with α-catenin in this process, we performed enhancer screening using a weak allele of the C. elegans α-catenin, hmp-1, thereby identifying UNC-94/tropomodulin. Tropomodulins (Tmods) cap the minus ends of F-actin in sarcomeres [3]. They also regulate lamellipodia [4], can promote actin nucleation [5], and are required for normal cardiovascular development [6, 7] and neuronal growth-cone morphology [8]. Tmods regulate the morphology of cultured epithelial cells [9], but their role in epithelia in vivo remains unexplored. We find that UNC-94 is enriched within a HMP-1-dependent junctional-actin network at epidermal adherens junctions subject to stress during morphogenesis. Loss of UNC-94 leads to discontinuity of this network, and high-speed filming of hmp-1(fe4);unc-94(RNAi) embryos reveals large junctional displacements that depend on the Rho pathway. In vitro, UNC-94 acts in combination with HMP-1, leading to longer actin bundles than with HMP-1 alone. Our data suggest that Tmods protect actin filaments recruited by α-catenin from minus-end subunit loss, enabling them to withstand the stresses of morphogenesis.",

author = "Cox-Paulson, {Elisabeth A.} and Elise Walck-Shannon and Lynch, {Allison M.} and Sawako Yamashiro and Ronen Zaidel-Bar and Eno, {Celeste C.} and Shoichiro Ono and Jeff Hardin",

note = "Funding Information: We thank Yuji Kohara for providing complementary DNA, Shohei Mitani for providing the unc-94(tm724) allele, Ryan King and the Ivan Rayment lab for technical assistance in expression and purification of His-tagged UNC-94, and Michael Joyce for help with coimmunoprecipitation assays. We thank Vida Praitis and Bill Bement for critical reading of the manuscript and Theresa Grana for helpful comments. This work was supported by National Institutes of Health (NIH) grants NRSA GM067410 and R15 HD059952 to E.A.C.-P.; NIH grant R01 GM58038, Muscular Dystrophy Association grant 4218, and National Science Foundation grant IOB 0518081 to J.H., and NIH grant R01 AR48615 to S.O. ",

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doi = "10.1016/j.cub.2012.06.025",

language = "אנגלית",

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AU - Cox-Paulson, Elisabeth A.

AU - Walck-Shannon, Elise

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AU - Yamashiro, Sawako

AU - Zaidel-Bar, Ronen

AU - Eno, Celeste C.

AU - Ono, Shoichiro

AU - Hardin, Jeff

N1 - Funding Information: We thank Yuji Kohara for providing complementary DNA, Shohei Mitani for providing the unc-94(tm724) allele, Ryan King and the Ivan Rayment lab for technical assistance in expression and purification of His-tagged UNC-94, and Michael Joyce for help with coimmunoprecipitation assays. We thank Vida Praitis and Bill Bement for critical reading of the manuscript and Theresa Grana for helpful comments. This work was supported by National Institutes of Health (NIH) grants NRSA GM067410 and R15 HD059952 to E.A.C.-P.; NIH grant R01 GM58038, Muscular Dystrophy Association grant 4218, and National Science Foundation grant IOB 0518081 to J.H., and NIH grant R01 AR48615 to S.O.

PY - 2012/8/21

Y1 - 2012/8/21

N2 - α-catenin is central to recruitment of actin networks to the cadherin-catenin complex [1, 2], but how such networks are subsequently stabilized against stress applied during morphogenesis is poorly understood. To identify proteins that functionally interact with α-catenin in this process, we performed enhancer screening using a weak allele of the C. elegans α-catenin, hmp-1, thereby identifying UNC-94/tropomodulin. Tropomodulins (Tmods) cap the minus ends of F-actin in sarcomeres [3]. They also regulate lamellipodia [4], can promote actin nucleation [5], and are required for normal cardiovascular development [6, 7] and neuronal growth-cone morphology [8]. Tmods regulate the morphology of cultured epithelial cells [9], but their role in epithelia in vivo remains unexplored. We find that UNC-94 is enriched within a HMP-1-dependent junctional-actin network at epidermal adherens junctions subject to stress during morphogenesis. Loss of UNC-94 leads to discontinuity of this network, and high-speed filming of hmp-1(fe4);unc-94(RNAi) embryos reveals large junctional displacements that depend on the Rho pathway. In vitro, UNC-94 acts in combination with HMP-1, leading to longer actin bundles than with HMP-1 alone. Our data suggest that Tmods protect actin filaments recruited by α-catenin from minus-end subunit loss, enabling them to withstand the stresses of morphogenesis.

AB - α-catenin is central to recruitment of actin networks to the cadherin-catenin complex [1, 2], but how such networks are subsequently stabilized against stress applied during morphogenesis is poorly understood. To identify proteins that functionally interact with α-catenin in this process, we performed enhancer screening using a weak allele of the C. elegans α-catenin, hmp-1, thereby identifying UNC-94/tropomodulin. Tropomodulins (Tmods) cap the minus ends of F-actin in sarcomeres [3]. They also regulate lamellipodia [4], can promote actin nucleation [5], and are required for normal cardiovascular development [6, 7] and neuronal growth-cone morphology [8]. Tmods regulate the morphology of cultured epithelial cells [9], but their role in epithelia in vivo remains unexplored. We find that UNC-94 is enriched within a HMP-1-dependent junctional-actin network at epidermal adherens junctions subject to stress during morphogenesis. Loss of UNC-94 leads to discontinuity of this network, and high-speed filming of hmp-1(fe4);unc-94(RNAi) embryos reveals large junctional displacements that depend on the Rho pathway. In vitro, UNC-94 acts in combination with HMP-1, leading to longer actin bundles than with HMP-1 alone. Our data suggest that Tmods protect actin filaments recruited by α-catenin from minus-end subunit loss, enabling them to withstand the stresses of morphogenesis.

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Tropomodulin protects α-catenin-dependent junctional-actin networks under stress during epithelial morphogenesis

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