Maria V Sukhanova, Rashid O Anarbaev, Konstantin N Naumenko, Loic Hamon, Anastasia S Singatulina, David Pastré, Olga I Lavrik
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We observed that biologically relevant cations such as Mg<sup>2+</sup>, Ca<sup>2+</sup>, or Mn<sup>2+</sup> or polyamines (spermine<sup>4+</sup> or spermidine<sup>3+</sup>) were essential for the assembly of FUS with PAR-PARP1<sup>WT</sup> and FUS with PAR-PARP1<sup>Y986S</sup> in vitro. We estimated the range of the FUS-to-PAR-PARP1 molar ratio and the cation concentration that are favorable for the stability of the protein's microphase-separated state. We also found that FUS microphase separation induced by PAR-PARP1<sup>Y986H</sup> (i.e., a PARP1 variant attaching short hyperbranched PAR to itself) can occur in the absence of cations. The dependence of PAR-PARP1-induced FUS microphase separation on cations and on the branching of the PAR structure points to a potential role of the latter in the regulation of the formation of FUS-related biological condensates and requires further investigation.</p>","PeriodicalId":14156,"journal":{"name":"International Journal of Molecular Sciences","volume":"25 22","pages":""},"PeriodicalIF":5.6000,"publicationDate":"2024-11-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Phase Separation of FUS with Poly(ADP-ribosyl)ated PARP1 Is Controlled by Polyamines, Divalent Metal Cations, and Poly(ADP-ribose) Structure.\",\"authors\":\"Maria V Sukhanova, Rashid O Anarbaev, Konstantin N Naumenko, Loic Hamon, Anastasia S Singatulina, David Pastré, Olga I Lavrik\",\"doi\":\"10.3390/ijms252212445\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Fused in sarcoma (FUS) is involved in the formation of nuclear biomolecular condensates associated with poly(ADP-ribose) [PAR] synthesis catalyzed by a DNA damage sensor such as PARP1. Here, we studied FUS microphase separation induced by poly(ADP-ribosyl)ated PARP1<sup>WT</sup> [PAR-PARP1<sup>WT</sup>] or its catalytic variants PARP1<sup>Y986S</sup> and PARP1<sup>Y986H</sup>, respectively, synthesizing (short PAR)-PARP1<sup>Y986S</sup> or (short hyperbranched PAR)-PARP1<sup>Y986H</sup> using dynamic light scattering, fluorescence microscopy, turbidity assays, and atomic force microscopy. We observed that biologically relevant cations such as Mg<sup>2+</sup>, Ca<sup>2+</sup>, or Mn<sup>2+</sup> or polyamines (spermine<sup>4+</sup> or spermidine<sup>3+</sup>) were essential for the assembly of FUS with PAR-PARP1<sup>WT</sup> and FUS with PAR-PARP1<sup>Y986S</sup> in vitro. We estimated the range of the FUS-to-PAR-PARP1 molar ratio and the cation concentration that are favorable for the stability of the protein's microphase-separated state. We also found that FUS microphase separation induced by PAR-PARP1<sup>Y986H</sup> (i.e., a PARP1 variant attaching short hyperbranched PAR to itself) can occur in the absence of cations. 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Phase Separation of FUS with Poly(ADP-ribosyl)ated PARP1 Is Controlled by Polyamines, Divalent Metal Cations, and Poly(ADP-ribose) Structure.
Fused in sarcoma (FUS) is involved in the formation of nuclear biomolecular condensates associated with poly(ADP-ribose) [PAR] synthesis catalyzed by a DNA damage sensor such as PARP1. Here, we studied FUS microphase separation induced by poly(ADP-ribosyl)ated PARP1WT [PAR-PARP1WT] or its catalytic variants PARP1Y986S and PARP1Y986H, respectively, synthesizing (short PAR)-PARP1Y986S or (short hyperbranched PAR)-PARP1Y986H using dynamic light scattering, fluorescence microscopy, turbidity assays, and atomic force microscopy. We observed that biologically relevant cations such as Mg2+, Ca2+, or Mn2+ or polyamines (spermine4+ or spermidine3+) were essential for the assembly of FUS with PAR-PARP1WT and FUS with PAR-PARP1Y986S in vitro. We estimated the range of the FUS-to-PAR-PARP1 molar ratio and the cation concentration that are favorable for the stability of the protein's microphase-separated state. We also found that FUS microphase separation induced by PAR-PARP1Y986H (i.e., a PARP1 variant attaching short hyperbranched PAR to itself) can occur in the absence of cations. The dependence of PAR-PARP1-induced FUS microphase separation on cations and on the branching of the PAR structure points to a potential role of the latter in the regulation of the formation of FUS-related biological condensates and requires further investigation.
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The International Journal of Molecular Sciences (ISSN 1422-0067) provides an advanced forum for chemistry, molecular physics (chemical physics and physical chemistry) and molecular biology. It publishes research articles, reviews, communications and short notes. Our aim is to encourage scientists to publish their theoretical and experimental results in as much detail as possible. Therefore, there is no restriction on the length of the papers or the number of electronics supplementary files. For articles with computational results, the full experimental details must be provided so that the results can be reproduced. Electronic files regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material (including animated pictures, videos, interactive Excel sheets, software executables and others).
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