Christopher Lambert, Marius Karger, Anika Steffen, Yubo Tang, Hermann Doering, Theresia E.B. Stradal, Pekka Lappalainen, Jan Faix, Peter Bieling, Klemens Rottner
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Here we combine live cell imaging and analysis of fluorescent actin-binding protein dynamics with acute treatment of lamellipodia in migrating cells with cytochalasin B. Our results show that in spite of an abrupt halt of lamellipodium protrusion, cytochalasin B affects various actin filament barbed end-binding proteins in a differential fashion. Cytochalasin B enhances instead of diminishes the accumulation of prominent barbed end-binding factors such as Ena/VASP family proteins and heterodimeric capping protein (CP) in the lamellipodium. Similar results were obtained with cytochalasin D. All these effects are highly specific, as cytochalasin-induced VASP accumulation requires the presence of CP, but not vice versa, and coincides with abrogation of both actin and VASP turnover. Cytochalasin B can also increase apparent barbed end interactions with the actin-binding β-tentacle of CP and partially mimic its Arp2/3 complex-promoting activity in the lamellipodium. In conclusion, our results reveal a new spectrum of cytochalasin activities on barbed end-binding factors, with important implications for the interpretation of their effects on dynamic actin structures.","PeriodicalId":501590,"journal":{"name":"bioRxiv - Cell Biology","volume":"18 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-09-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Differential interference with actin-binding protein function by acute Cytochalasin B\",\"authors\":\"Christopher Lambert, Marius Karger, Anika Steffen, Yubo Tang, Hermann Doering, Theresia E.B. 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引用次数: 0
摘要
动态肌动蛋白丝重塑对从细胞分裂和迁移到细胞通讯、细胞内贩运或组织发育等大量基本细胞生物学过程至关重要。Cytochalasin B 和 -D 是真菌的次级代谢产物,经常用于干扰此类过程。虽然人们普遍认为细胞松弛素 B 和-D 会在其快速增长的倒钩末端阻断肌动蛋白丝的聚合,并在这些部位与调节剂竞争,但我们对它们在动态肌动蛋白结构中的精确作用的分子认识却很匮乏。在这里,我们将活细胞成像和荧光肌动蛋白结合蛋白动态分析与用细胞松弛素 B 对迁移细胞中的片层突起进行急性处理相结合。细胞松弛素 B 会增强而不是减少薄壁基质中主要的带刺末端结合因子(如 Ena/VASP 家族蛋白和异源二聚体盖层蛋白 (CP))的积累。所有这些效应都具有高度的特异性,因为细胞松素诱导的 VASP 积累需要 CP 的存在,反之亦然,并且与肌动蛋白和 VASP 的周转减弱同时发生。细胞松弛素 B 还能增加与 CP 的肌动蛋白结合 β 触角的明显倒钩末端相互作用,并部分模拟其在瓣膜中的 Arp2/3 复合物促进活性。总之,我们的研究结果揭示了细胞松弛素对带刺末端结合因子的新的活性谱系,对解释它们对动态肌动蛋白结构的影响具有重要意义。
Differential interference with actin-binding protein function by acute Cytochalasin B
Dynamic actin filament remodeling is crucial for a plethora of fundamental cell biological processes, ranging from cell division and migration to cell communication, intracellular trafficking or tissue development. Cytochalasin B and -D are fungal secondary metabolites frequently used for interference with such processes. Although generally assumed to block actin filament polymerization at their rapidly growing barbed ends and compete with regulators at these sites, our molecular understanding of their precise effects in dynamic actin structures is scarce. Here we combine live cell imaging and analysis of fluorescent actin-binding protein dynamics with acute treatment of lamellipodia in migrating cells with cytochalasin B. Our results show that in spite of an abrupt halt of lamellipodium protrusion, cytochalasin B affects various actin filament barbed end-binding proteins in a differential fashion. Cytochalasin B enhances instead of diminishes the accumulation of prominent barbed end-binding factors such as Ena/VASP family proteins and heterodimeric capping protein (CP) in the lamellipodium. Similar results were obtained with cytochalasin D. All these effects are highly specific, as cytochalasin-induced VASP accumulation requires the presence of CP, but not vice versa, and coincides with abrogation of both actin and VASP turnover. Cytochalasin B can also increase apparent barbed end interactions with the actin-binding β-tentacle of CP and partially mimic its Arp2/3 complex-promoting activity in the lamellipodium. In conclusion, our results reveal a new spectrum of cytochalasin activities on barbed end-binding factors, with important implications for the interpretation of their effects on dynamic actin structures.