Nance-Horan Syndrome-like 1 protein negatively regulates Scar/WAVE-Arp2/3 activity and inhibits lamellipodia stability and cell migration

Law, Ah-Lai; Jalal, Shamsinar; Mosis, Fuad; Pallett, Tommy; Guni, Ahmad; Brayford, Simon; Yolland, Lawrence; Marcotti, Stefania; Levitt, James A.; Poland, Simon P.; Rowe-Sampson, Maia; Jandke, Anett; Koechl, Robert; Pula, Giordano; Ameer-Beg, Simon; Stramer, Brian; Krause, Matthias

doi:10.1101/2020.05.11.083030

Cited by 8 publications

(25 citation statements)

References 46 publications

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“…Yet the extracts prepared from NHSL1-depleted cells and those prepared from cells simultaneously depleted of PPP2R1A and NHSL1 were as competent as wild type extracts in supporting actin polymerization. Both PPP2R1A and NHSL1 were detected associated with GTP-bound RAC1 Q61L (Fig.S4), in line with the fact that both CYFIP1 and NHSL1 harbor binding sites for active RAC1 7,16 . Together, these results show that PPP2R1A requires NHSL1 to regulate cell migration and actin polymerization.…”

Section: Resultssupporting

confidence: 66%

“…Upon transient transfection of 293T cells with GFP fusion proteins of NHSL1 fragments, we found that the 4 th fragment at the C-terminus of NHSL1 retrieved a large amount of PPP2R1A upon GFP immunoprecipitation (Fig.6a). The 2 nd fragment of NHSL1 that contains the two previously reported binding sites for the SH3 domain of ABI1 16 also retrieved PPP2R1A, but to a much lesser extent than the 4 th fragment. The AlphaFold2 software predicted with high confidence three motifs in fragment 4 that interact with the PPP2R1A scaffold or the PPP2R5D regulatory subunit retrieved in the WSC TAP (Fig.6b).…”

Section: Resultsmentioning

confidence: 81%

“…NHSL1 was previously described as a negative regulator of cell migration 16 . It was thus surprising to find PPP2R1A and NHSL1 biochemically associated.…”

Section: Presence Of Nhsl1mentioning

confidence: 99%

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PPP2R1A Regulates Migration Persistence through the WAVE Shell Complex

Wang

Chiappetta

Guérois

et al. 2022

Preprint

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The RAC1-WAVE-Arp2/3 signaling pathway generates branched actin networks that power lamellipodium protrusion of migrating cells. Feedback is thought to control protrusion lifetime and migration persistence, but its molecular circuitry remains elusive. Using proteomics, we identified PPP2R1A among proteins differentially associated with the WAVE complex subunit ABI1 when RAC1 was activated and downstream generation of branched actin was blocked. PPP2R1A was found to associate at the lamellipodial edge with a novel form of WAVE complex, the WAVE Shell Complex (WSC), that contains NHSL1 instead of the Arp2/3 activating subunit WAVE as in the canonical WAVE Regulatory Complex (WRC). PPP2R1A was required for persistence in random and directed migration assays and for RAC1-dependent actin polymerization in cell extracts. PPP2R1A requirement was abolished by NHSL1 depletion. PPP2R1A mutations found in tumors impaired WSC binding and migration regulation, suggesting that this novel function of PPP2R1A is critical for its tumor suppressor activity.

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Section: Resultssupporting

confidence: 66%

Section: Resultsmentioning

confidence: 81%

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PPP2R1A Regulates Migration Persistence through the WAVE Shell Complex

Wang

Chiappetta

Guérois

et al. 2022

Preprint

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“…Thus, NHSL1, NHSL2 and KIAA1522 also act to regulate actin assembly. A recent mechanistic study supports this hypothesis: NHSL1 localizes at the cell's leading edge and directly binds SCAR/WAVE to negatively regulate its activity, reducing F-actin content in lamellipodia and inhibiting cell migration (41). The authors identified NHSL1's SCAR/WAVE binding sites, and we find these sequences to be conserved in NSHL2 and KIA1522 (Fig.…”

Section: Interactome Analysis and Stoichiometry-driven Clusteringsupporting

confidence: 77%

OpenCell: proteome-scale endogenous tagging enables the cartography of human cellular organization

Cho

Brunner

et al. 2021

Preprint

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Elucidating the wiring diagram of the human cell is one of the central goals of the post-genomic era. Here, we integrate genome engineering, confocal imaging, mass spectrometry and data science to systematically map protein localization in live cells and protein interactions under endogenous expression conditions. For this, we generated a library of 1,311 CRISPR-edited cell lines harboring fluorescent tags that also serve as handles for affinity capture, and applied a new machine learning framework to encode the interaction and localization profiles of each protein. Our approach provides a data-driven description of the molecular and spatial networks that organize the human proteome. We show that unsupervised clustering of these networks delineates functional groups and facilitates biological discovery, while hierarchical analyses uncover the core features that template cellular architecture. Furthermore, we discover that localization signatures are remarkably predictive of protein function, and often contain enough information to identify molecular interactions. Paired with a fully interactive website (opencell.czbiohub.org), OpenCell is a resource for the quantitative cartography of human cellular organization.

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“…Thus, NHSL1, NHSL2, and KIAA1522 might also act to regulate actin assembly. A recent mechanistic study supports this hypothesis: NHSL1 localizes at the cell’s leading edge and directly binds SCAR/WAVE to negatively regulate its activity, reducing F-actin content in lamellipodia and inhibiting cell migration ( 41 ). The authors identified NHSL1’s SCAR/WAVE binding sites, and we found these sequences to be conserved in NSHL2 and KIA1522 (Fig.…”

Section: Interactome Analysis and Stoichiometry-driven Clusteringmentioning

confidence: 91%

OpenCell: Endogenous tagging for the cartography of human cellular organization

Cho

Brunner

et al. 2022

Science

267

276

View full text Add to dashboard Cite

Elucidating the wiring diagram of the human cell is a central goal of the postgenomic era. We combined genome engineering, confocal live-cell imaging, mass spectrometry, and data science to systematically map the localization and interactions of human proteins. Our approach provides a data-driven description of the molecular and spatial networks that organize the proteome. Unsupervised clustering of these networks delineates functional communities that facilitate biological discovery. We found that remarkably precise functional information can be derived from protein localization patterns, which often contain enough information to identify molecular interactions, and that RNA binding proteins form a specific subgroup defined by unique interaction and localization properties. Paired with a fully interactive website (opencell.czbiohub.org), our work constitutes a resource for the quantitative cartography of human cellular organization.

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Nance-Horan Syndrome-like 1 protein negatively regulates Scar/WAVE-Arp2/3 activity and inhibits lamellipodia stability and cell migration

Cited by 8 publications

References 46 publications

PPP2R1A Regulates Migration Persistence through the WAVE Shell Complex

PPP2R1A Regulates Migration Persistence through the WAVE Shell Complex

OpenCell: proteome-scale endogenous tagging enables the cartography of human cellular organization

OpenCell: Endogenous tagging for the cartography of human cellular organization

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