New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2014 |
| Outros Autores: | , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) |
| Texto Completo: | http://hdl.handle.net/10198/16225 |
Resumo: | Poisonous α-amanitin-containing mushrooms are responsible for the major cases of fatalities after mushroom ingestion. α-Amanitin is known to inhibit the RNA polymerase II (RNAP II), although the underlying mechanisms are not fully understood. Benzylpenicillin, ceftazidime and silybin have been the most frequently used drugs in the management of α-amanitin poisoning, mostly based on empirical rationale. The present study provides an in silico insight into the inhibition of RNAP II by α-amanitin and also on the interaction of the antidotes on the active site of this enzyme. Docking and molecular dynamics (MD) simulations combined with molecular mechanics- generalized Born surface area method (MM-GBSA) were carried out to investigate the binding of α-amanitin and three antidotes benzylpenicillin, ceftazidime and silybin to RNAP II. Our results reveal that α-amanitin should affects RNAP II transcription by compromising trigger loop (TL) function. The observed direct interactions between α-amanitin and TL residues Leu1081, Asn1082, Thr1083, His1085 and Gly1088 alters the elongation process and thus contribute to the inhibition of RNAP II. We also present evidences that α-amanitin can interact directly with the bridge helix residues Gly819, Gly820 and Glu822, and indirectly with His816 and Phe815. This destabilizes the bridge helix, possibly causing RNAP II activity loss. We demonstrate that benzylpenicillin, ceftazidime and silybin are able to bind to the same site as α-amanitin, although not replicating the unique α-amanitin binding mode. They establish considerably less intermolecular interactions and the ones existing are essential confine to the bridge helix and adjacent residues. Therefore, the therapeutic effect of these antidotes does not seem to be directly related with binding to RNAP II. RNAP II α-amanitin binding site can be divided into specific zones with different properties provi ding a reliable platform for the structure-based drug design of novel antidotes for α-amatoxin poisoning. An ideal drug candidate should be a competitive RNAP II binder that interacts with Arg726, Ile756, Ala759, Gln760 and Gln767, but not with TL and bridge helix residues. |
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New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotesBenzylpenicillinBridge helixCeftazidimeRNA polymerase IISilybinTrigger loopα-AmanitinPoisonous α-amanitin-containing mushrooms are responsible for the major cases of fatalities after mushroom ingestion. α-Amanitin is known to inhibit the RNA polymerase II (RNAP II), although the underlying mechanisms are not fully understood. Benzylpenicillin, ceftazidime and silybin have been the most frequently used drugs in the management of α-amanitin poisoning, mostly based on empirical rationale. The present study provides an in silico insight into the inhibition of RNAP II by α-amanitin and also on the interaction of the antidotes on the active site of this enzyme. Docking and molecular dynamics (MD) simulations combined with molecular mechanics- generalized Born surface area method (MM-GBSA) were carried out to investigate the binding of α-amanitin and three antidotes benzylpenicillin, ceftazidime and silybin to RNAP II. Our results reveal that α-amanitin should affects RNAP II transcription by compromising trigger loop (TL) function. The observed direct interactions between α-amanitin and TL residues Leu1081, Asn1082, Thr1083, His1085 and Gly1088 alters the elongation process and thus contribute to the inhibition of RNAP II. We also present evidences that α-amanitin can interact directly with the bridge helix residues Gly819, Gly820 and Glu822, and indirectly with His816 and Phe815. This destabilizes the bridge helix, possibly causing RNAP II activity loss. We demonstrate that benzylpenicillin, ceftazidime and silybin are able to bind to the same site as α-amanitin, although not replicating the unique α-amanitin binding mode. They establish considerably less intermolecular interactions and the ones existing are essential confine to the bridge helix and adjacent residues. Therefore, the therapeutic effect of these antidotes does not seem to be directly related with binding to RNAP II. RNAP II α-amanitin binding site can be divided into specific zones with different properties provi ding a reliable platform for the structure-based drug design of novel antidotes for α-amatoxin poisoning. An ideal drug candidate should be a competitive RNAP II binder that interacts with Arg726, Ile756, Ala759, Gln760 and Gln767, but not with TL and bridge helix residues.The authors gratefully acknowledge the Foundation for the Sci-ence and Technology (FCT, Portugal) for financial support and alsothank FCT for PhD grant SFRH/BD/74979/2010. We acknowledgeQtrex cluster and SNIC-UPPMAX for CPU time allocation.Biblioteca Digital do IPBGarcia, JulianaCarvalho, Alexandra T.P.Dourado, Daniel F.A.R.Baptista, PaulaBastos, Maria de LourdesCarvalho, Félix2018-01-19T10:00:00Z20142014-01-01T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleapplication/pdfhttp://hdl.handle.net/10198/16225engGarcia, Juliana; Carvalho, Alexandra T.P.; Dourado, Daniel F.A.R.; Baptista, Paula; De Lourdes Bastos, Maria; Carvalho, Félix (2014). New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes. Journal of Molecular Graphics and Modelling. ISSN 1093-3263. 51, p. 120-1271093-326310.1016/j.jmgm.2014.05.002info:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2023-11-21T10:37:20Zoai:bibliotecadigital.ipb.pt:10198/16225Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-19T23:05:27.803048Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse |
| dc.title.none.fl_str_mv |
New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes |
| title |
New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes |
| spellingShingle |
New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes Garcia, Juliana Benzylpenicillin Bridge helix Ceftazidime RNA polymerase II Silybin Trigger loop α-Amanitin |
| title_short |
New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes |
| title_full |
New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes |
| title_fullStr |
New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes |
| title_full_unstemmed |
New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes |
| title_sort |
New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes |
| author |
Garcia, Juliana |
| author_facet |
Garcia, Juliana Carvalho, Alexandra T.P. Dourado, Daniel F.A.R. Baptista, Paula Bastos, Maria de Lourdes Carvalho, Félix |
| author_role |
author |
| author2 |
Carvalho, Alexandra T.P. Dourado, Daniel F.A.R. Baptista, Paula Bastos, Maria de Lourdes Carvalho, Félix |
| author2_role |
author author author author author |
| dc.contributor.none.fl_str_mv |
Biblioteca Digital do IPB |
| dc.contributor.author.fl_str_mv |
Garcia, Juliana Carvalho, Alexandra T.P. Dourado, Daniel F.A.R. Baptista, Paula Bastos, Maria de Lourdes Carvalho, Félix |
| dc.subject.por.fl_str_mv |
Benzylpenicillin Bridge helix Ceftazidime RNA polymerase II Silybin Trigger loop α-Amanitin |
| topic |
Benzylpenicillin Bridge helix Ceftazidime RNA polymerase II Silybin Trigger loop α-Amanitin |
| description |
Poisonous α-amanitin-containing mushrooms are responsible for the major cases of fatalities after mushroom ingestion. α-Amanitin is known to inhibit the RNA polymerase II (RNAP II), although the underlying mechanisms are not fully understood. Benzylpenicillin, ceftazidime and silybin have been the most frequently used drugs in the management of α-amanitin poisoning, mostly based on empirical rationale. The present study provides an in silico insight into the inhibition of RNAP II by α-amanitin and also on the interaction of the antidotes on the active site of this enzyme. Docking and molecular dynamics (MD) simulations combined with molecular mechanics- generalized Born surface area method (MM-GBSA) were carried out to investigate the binding of α-amanitin and three antidotes benzylpenicillin, ceftazidime and silybin to RNAP II. Our results reveal that α-amanitin should affects RNAP II transcription by compromising trigger loop (TL) function. The observed direct interactions between α-amanitin and TL residues Leu1081, Asn1082, Thr1083, His1085 and Gly1088 alters the elongation process and thus contribute to the inhibition of RNAP II. We also present evidences that α-amanitin can interact directly with the bridge helix residues Gly819, Gly820 and Glu822, and indirectly with His816 and Phe815. This destabilizes the bridge helix, possibly causing RNAP II activity loss. We demonstrate that benzylpenicillin, ceftazidime and silybin are able to bind to the same site as α-amanitin, although not replicating the unique α-amanitin binding mode. They establish considerably less intermolecular interactions and the ones existing are essential confine to the bridge helix and adjacent residues. Therefore, the therapeutic effect of these antidotes does not seem to be directly related with binding to RNAP II. RNAP II α-amanitin binding site can be divided into specific zones with different properties provi ding a reliable platform for the structure-based drug design of novel antidotes for α-amatoxin poisoning. An ideal drug candidate should be a competitive RNAP II binder that interacts with Arg726, Ile756, Ala759, Gln760 and Gln767, but not with TL and bridge helix residues. |
| publishDate |
2014 |
| dc.date.none.fl_str_mv |
2014 2014-01-01T00:00:00Z 2018-01-19T10:00:00Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
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http://hdl.handle.net/10198/16225 |
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eng |
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eng |
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Garcia, Juliana; Carvalho, Alexandra T.P.; Dourado, Daniel F.A.R.; Baptista, Paula; De Lourdes Bastos, Maria; Carvalho, Félix (2014). New in silico insights into the inhibition of RNAP II by α-amanitin and the protective effect mediated by effective antidotes. Journal of Molecular Graphics and Modelling. ISSN 1093-3263. 51, p. 120-127 1093-3263 10.1016/j.jmgm.2014.05.002 |
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