Scar/WAVE drives actin protrusions independently of its VCA domain using proline-rich domains

Cell migration requires the constant modification of cellular shape by reorganization of the actin cytoskeleton. Fine-tuning of this process is critical to ensure new actin filaments are formed only at specific times and in defined regions of the cell. The Scar/WAVE complex is the main catalyst of p...

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Veröffentlicht in:	Current biology 2024-10, Vol.34 (19), p.4436-4451.e9
Hauptverfasser:	Buracco, Simona, Döring, Hermann, Engelbart, Stefanie, Singh, Shashi Prakash, Paschke, Peggy, Whitelaw, Jamie, Thomason, Peter A., Paul, Nikki R., Tweedy, Luke, Lilla, Sergio, McGarry, Lynn, Corbyn, Ryan, Claydon, Sophie, Mietkowska, Magdalena, Machesky, Laura M., Rottner, Klemens, Insall, Robert H.
Format:	Artikel
Sprache:	eng
Schlagworte:	actin Arp2/3 Dictyostelium discoideum lamellipodium N-WASP polyproline Scar/WAVE VCA domain WAVE regulatory complex WRC
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creator	Buracco, Simona Döring, Hermann Engelbart, Stefanie Singh, Shashi Prakash Paschke, Peggy Whitelaw, Jamie Thomason, Peter A. Paul, Nikki R. Tweedy, Luke Lilla, Sergio McGarry, Lynn Corbyn, Ryan Claydon, Sophie Mietkowska, Magdalena Machesky, Laura M. Rottner, Klemens Insall, Robert H.
description	Cell migration requires the constant modification of cellular shape by reorganization of the actin cytoskeleton. Fine-tuning of this process is critical to ensure new actin filaments are formed only at specific times and in defined regions of the cell. The Scar/WAVE complex is the main catalyst of pseudopod and lamellipodium formation during cell migration. It is a pentameric complex highly conserved through eukaryotic evolution and composed of Scar/WAVE, Abi, Nap1/NCKAP1, Pir121/CYFIP, and HSPC300/Brk1. Its function is usually attributed to activation of the Arp2/3 complex through Scar/WAVE’s VCA domain, while other parts of the complex are expected to mediate spatial-temporal regulation and have no direct role in actin polymerization. Here, we show in both B16-F1 mouse melanoma and Dictyostelium discoideum cells that Scar/WAVE without its VCA domain still induces the formation of morphologically normal, actin-rich protrusions, extending at comparable speeds despite a drastic reduction of Arp2/3 recruitment. However, the proline-rich regions in Scar/WAVE and Abi subunits are essential, though either is sufficient for the generation of actin protrusions in B16-F1 cells. We further demonstrate that N-WASP can compensate for the absence of Scar/WAVE’s VCA domain and induce lamellipodia formation, but it still requires an intact WAVE complex, even if without its VCA domain. We conclude that the Scar/WAVE complex does more than directly activating Arp2/3, with proline-rich domains playing a central role in promoting actin protrusions. This implies a broader function for the Scar/WAVE complex, concentrating and simultaneously activating many actin-regulating proteins as a lamellipodium-producing core. [Display omitted] •Scar/WAVE, without its VCA domain, promotes the formation of actin-rich protrusions•Scar/WAVEΔVCA’s function is conserved in both B16-F1 and D. dictyostelium cells•At least one of the WRC’s polyproline domains is required for actin protrusions•N-WASP compensates for the absence of WRC’s VCA domain and promotes lamellipodia Buracco et al. show that the WRC, without its VCA domain, still promotes actin-rich protrusions. However, WRC’s proline-rich regions and N-WASP are essential, with the latter compensating for the absence of Scar/WAVE’s VCA domain. This proves that the WRC has a broader function than activating Arp2/3.
doi_str_mv	10.1016/j.cub.2024.08.013
format	Article
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Fine-tuning of this process is critical to ensure new actin filaments are formed only at specific times and in defined regions of the cell. The Scar/WAVE complex is the main catalyst of pseudopod and lamellipodium formation during cell migration. It is a pentameric complex highly conserved through eukaryotic evolution and composed of Scar/WAVE, Abi, Nap1/NCKAP1, Pir121/CYFIP, and HSPC300/Brk1. Its function is usually attributed to activation of the Arp2/3 complex through Scar/WAVE’s VCA domain, while other parts of the complex are expected to mediate spatial-temporal regulation and have no direct role in actin polymerization. Here, we show in both B16-F1 mouse melanoma and Dictyostelium discoideum cells that Scar/WAVE without its VCA domain still induces the formation of morphologically normal, actin-rich protrusions, extending at comparable speeds despite a drastic reduction of Arp2/3 recruitment. However, the proline-rich regions in Scar/WAVE and Abi subunits are essential, though either is sufficient for the generation of actin protrusions in B16-F1 cells. We further demonstrate that N-WASP can compensate for the absence of Scar/WAVE’s VCA domain and induce lamellipodia formation, but it still requires an intact WAVE complex, even if without its VCA domain. We conclude that the Scar/WAVE complex does more than directly activating Arp2/3, with proline-rich domains playing a central role in promoting actin protrusions. This implies a broader function for the Scar/WAVE complex, concentrating and simultaneously activating many actin-regulating proteins as a lamellipodium-producing core. [Display omitted] •Scar/WAVE, without its VCA domain, promotes the formation of actin-rich protrusions•Scar/WAVEΔVCA’s function is conserved in both B16-F1 and D. dictyostelium cells•At least one of the WRC’s polyproline domains is required for actin protrusions•N-WASP compensates for the absence of WRC’s VCA domain and promotes lamellipodia Buracco et al. show that the WRC, without its VCA domain, still promotes actin-rich protrusions. However, WRC’s proline-rich regions and N-WASP are essential, with the latter compensating for the absence of Scar/WAVE’s VCA domain. 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Fine-tuning of this process is critical to ensure new actin filaments are formed only at specific times and in defined regions of the cell. The Scar/WAVE complex is the main catalyst of pseudopod and lamellipodium formation during cell migration. It is a pentameric complex highly conserved through eukaryotic evolution and composed of Scar/WAVE, Abi, Nap1/NCKAP1, Pir121/CYFIP, and HSPC300/Brk1. Its function is usually attributed to activation of the Arp2/3 complex through Scar/WAVE’s VCA domain, while other parts of the complex are expected to mediate spatial-temporal regulation and have no direct role in actin polymerization. Here, we show in both B16-F1 mouse melanoma and Dictyostelium discoideum cells that Scar/WAVE without its VCA domain still induces the formation of morphologically normal, actin-rich protrusions, extending at comparable speeds despite a drastic reduction of Arp2/3 recruitment. However, the proline-rich regions in Scar/WAVE and Abi subunits are essential, though either is sufficient for the generation of actin protrusions in B16-F1 cells. We further demonstrate that N-WASP can compensate for the absence of Scar/WAVE’s VCA domain and induce lamellipodia formation, but it still requires an intact WAVE complex, even if without its VCA domain. We conclude that the Scar/WAVE complex does more than directly activating Arp2/3, with proline-rich domains playing a central role in promoting actin protrusions. This implies a broader function for the Scar/WAVE complex, concentrating and simultaneously activating many actin-regulating proteins as a lamellipodium-producing core. [Display omitted] •Scar/WAVE, without its VCA domain, promotes the formation of actin-rich protrusions•Scar/WAVEΔVCA’s function is conserved in both B16-F1 and D. dictyostelium cells•At least one of the WRC’s polyproline domains is required for actin protrusions•N-WASP compensates for the absence of WRC’s VCA domain and promotes lamellipodia Buracco et al. show that the WRC, without its VCA domain, still promotes actin-rich protrusions. However, WRC’s proline-rich regions and N-WASP are essential, with the latter compensating for the absence of Scar/WAVE’s VCA domain. This proves that the WRC has a broader function than activating Arp2/3.</description><subject>actin</subject><subject>Arp2/3</subject><subject>Dictyostelium discoideum</subject><subject>lamellipodium</subject><subject>N-WASP</subject><subject>polyproline</subject><subject>Scar/WAVE</subject><subject>VCA domain</subject><subject>WAVE regulatory complex</subject><subject>WRC</subject><issn>0960-9822</issn><issn>1879-0445</issn><issn>1879-0445</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><recordid>eNp9kMFO3DAQhi1EBQvlAbigHLkkzNhOYqun1YqWSkg9tKWnyvKOHfAqm2ztBIm3r1e79NjL-DDf_2v8MXaNUCFgc7epaF5XHLisQFWA4oQtULW6BCnrU7YA3UCpFefn7CKlDQBypZszdi60EFxovWC_v5ONd7-WT_eFi-HVp8LSFIZiF8cpzimMQyrC4PzO5zFM_VsxdkWYUvG0WhZu3NrMZmx43if6MPgyBno5btJH9qGzffJXx_eS_fx8_2P1UD5--_J1tXwsibdqylN2LThBupaEJKwWyvla4LqWuG5AKkRqtJDUYF1DpzuuJSdpFbetciQu2e2hNx_xZ_ZpMtuQyPe9Hfw4JyMQoRWAGjKKB5TimFL0ndnFsLXxzSCYvVWzMdmq2Vs1oEy2mjM3x_p5vfXuX-JdYwY-HQCfP_kafDSJgh_IuxA9TcaN4T_1fwGzS4dF</recordid><startdate>20241007</startdate><enddate>20241007</enddate><creator>Buracco, Simona</creator><creator>Döring, Hermann</creator><creator>Engelbart, Stefanie</creator><creator>Singh, Shashi Prakash</creator><creator>Paschke, Peggy</creator><creator>Whitelaw, Jamie</creator><creator>Thomason, Peter A.</creator><creator>Paul, Nikki R.</creator><creator>Tweedy, Luke</creator><creator>Lilla, Sergio</creator><creator>McGarry, Lynn</creator><creator>Corbyn, Ryan</creator><creator>Claydon, Sophie</creator><creator>Mietkowska, Magdalena</creator><creator>Machesky, Laura M.</creator><creator>Rottner, Klemens</creator><creator>Insall, Robert H.</creator><general>Elsevier Inc</general><scope>6I.</scope><scope>AAFTH</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><orcidid>https://orcid.org/0000-0001-5661-7147</orcidid></search><sort><creationdate>20241007</creationdate><title>Scar/WAVE drives actin protrusions independently of its VCA domain using proline-rich domains</title><author>Buracco, Simona ; Döring, Hermann ; Engelbart, Stefanie ; Singh, Shashi Prakash ; Paschke, Peggy ; Whitelaw, Jamie ; Thomason, Peter A. ; Paul, Nikki R. ; Tweedy, Luke ; Lilla, Sergio ; McGarry, Lynn ; Corbyn, Ryan ; Claydon, Sophie ; Mietkowska, Magdalena ; Machesky, Laura M. ; Rottner, Klemens ; Insall, Robert H.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c278t-c24f70d3c954c1c3a938de531b541b604811c6934c61550f9f2942c4a82a78dc3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2024</creationdate><topic>actin</topic><topic>Arp2/3</topic><topic>Dictyostelium discoideum</topic><topic>lamellipodium</topic><topic>N-WASP</topic><topic>polyproline</topic><topic>Scar/WAVE</topic><topic>VCA domain</topic><topic>WAVE regulatory complex</topic><topic>WRC</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Buracco, Simona</creatorcontrib><creatorcontrib>Döring, Hermann</creatorcontrib><creatorcontrib>Engelbart, Stefanie</creatorcontrib><creatorcontrib>Singh, Shashi Prakash</creatorcontrib><creatorcontrib>Paschke, Peggy</creatorcontrib><creatorcontrib>Whitelaw, Jamie</creatorcontrib><creatorcontrib>Thomason, Peter A.</creatorcontrib><creatorcontrib>Paul, Nikki R.</creatorcontrib><creatorcontrib>Tweedy, Luke</creatorcontrib><creatorcontrib>Lilla, Sergio</creatorcontrib><creatorcontrib>McGarry, Lynn</creatorcontrib><creatorcontrib>Corbyn, Ryan</creatorcontrib><creatorcontrib>Claydon, Sophie</creatorcontrib><creatorcontrib>Mietkowska, Magdalena</creatorcontrib><creatorcontrib>Machesky, Laura M.</creatorcontrib><creatorcontrib>Rottner, Klemens</creatorcontrib><creatorcontrib>Insall, Robert H.</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Current biology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Buracco, Simona</au><au>Döring, Hermann</au><au>Engelbart, Stefanie</au><au>Singh, Shashi Prakash</au><au>Paschke, Peggy</au><au>Whitelaw, Jamie</au><au>Thomason, Peter A.</au><au>Paul, Nikki R.</au><au>Tweedy, Luke</au><au>Lilla, Sergio</au><au>McGarry, Lynn</au><au>Corbyn, Ryan</au><au>Claydon, Sophie</au><au>Mietkowska, Magdalena</au><au>Machesky, Laura M.</au><au>Rottner, Klemens</au><au>Insall, Robert H.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Scar/WAVE drives actin protrusions independently of its VCA domain using proline-rich domains</atitle><jtitle>Current biology</jtitle><addtitle>Curr Biol</addtitle><date>2024-10-07</date><risdate>2024</risdate><volume>34</volume><issue>19</issue><spage>4436</spage><epage>4451.e9</epage><pages>4436-4451.e9</pages><issn>0960-9822</issn><issn>1879-0445</issn><eissn>1879-0445</eissn><abstract>Cell migration requires the constant modification of cellular shape by reorganization of the actin cytoskeleton. Fine-tuning of this process is critical to ensure new actin filaments are formed only at specific times and in defined regions of the cell. The Scar/WAVE complex is the main catalyst of pseudopod and lamellipodium formation during cell migration. It is a pentameric complex highly conserved through eukaryotic evolution and composed of Scar/WAVE, Abi, Nap1/NCKAP1, Pir121/CYFIP, and HSPC300/Brk1. Its function is usually attributed to activation of the Arp2/3 complex through Scar/WAVE’s VCA domain, while other parts of the complex are expected to mediate spatial-temporal regulation and have no direct role in actin polymerization. Here, we show in both B16-F1 mouse melanoma and Dictyostelium discoideum cells that Scar/WAVE without its VCA domain still induces the formation of morphologically normal, actin-rich protrusions, extending at comparable speeds despite a drastic reduction of Arp2/3 recruitment. However, the proline-rich regions in Scar/WAVE and Abi subunits are essential, though either is sufficient for the generation of actin protrusions in B16-F1 cells. We further demonstrate that N-WASP can compensate for the absence of Scar/WAVE’s VCA domain and induce lamellipodia formation, but it still requires an intact WAVE complex, even if without its VCA domain. We conclude that the Scar/WAVE complex does more than directly activating Arp2/3, with proline-rich domains playing a central role in promoting actin protrusions. This implies a broader function for the Scar/WAVE complex, concentrating and simultaneously activating many actin-regulating proteins as a lamellipodium-producing core. [Display omitted] •Scar/WAVE, without its VCA domain, promotes the formation of actin-rich protrusions•Scar/WAVEΔVCA’s function is conserved in both B16-F1 and D. dictyostelium cells•At least one of the WRC’s polyproline domains is required for actin protrusions•N-WASP compensates for the absence of WRC’s VCA domain and promotes lamellipodia Buracco et al. show that the WRC, without its VCA domain, still promotes actin-rich protrusions. However, WRC’s proline-rich regions and N-WASP are essential, with the latter compensating for the absence of Scar/WAVE’s VCA domain. This proves that the WRC has a broader function than activating Arp2/3.</abstract><cop>England</cop><pub>Elsevier Inc</pub><pmid>39332399</pmid><doi>10.1016/j.cub.2024.08.013</doi><orcidid>https://orcid.org/0000-0001-5661-7147</orcidid><oa>free_for_read</oa></addata></record>
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subjects	actin Arp2/3 Dictyostelium discoideum lamellipodium N-WASP polyproline Scar/WAVE VCA domain WAVE regulatory complex WRC
title	Scar/WAVE drives actin protrusions independently of its VCA domain using proline-rich domains
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