ToxAlerts: a Web server of structural alerts for toxic chemicals and compounds with potential adverse reactions

doi:10.1021/ci300245q

. 2012 Aug 27;52(8):2310-6.

doi: 10.1021/ci300245q. Epub 2012 Aug 10.

ToxAlerts: a Web server of structural alerts for toxic chemicals and compounds with potential adverse reactions

Iurii Sushko¹, Elena Salmina, Vladimir A Potemkin, Gennadiy Poda, Igor V Tetko

Affiliations

PMID: 22876798
PMCID: PMC3640409
DOI: 10.1021/ci300245q

Free PMC article

ToxAlerts: a Web server of structural alerts for toxic chemicals and compounds with potential adverse reactions

Iurii Sushko et al. J Chem Inf Model. 2012.

Free PMC article

. 2012 Aug 27;52(8):2310-6.

doi: 10.1021/ci300245q. Epub 2012 Aug 10.

Authors

Iurii Sushko¹, Elena Salmina, Vladimir A Potemkin, Gennadiy Poda, Igor V Tetko

Affiliation

¹ eADMET GmbH, Ingolstädter Landstraße 1, D-85764 Neuherberg, Germany.

PMID: 22876798
PMCID: PMC3640409
DOI: 10.1021/ci300245q

Abstract

The article presents a Web-based platform for collecting and storing toxicological structural alerts from literature and for virtual screening of chemical libraries to flag potentially toxic chemicals and compounds that can cause adverse side effects. An alert is uniquely identified by a SMARTS template, a toxicological endpoint, and a publication where the alert was described. Additionally, the system allows storing complementary information such as name, comments, and mechanism of action, as well as other data. Most importantly, the platform can be easily used for fast virtual screening of large chemical datasets, focused libraries, or newly designed compounds against the toxicological alerts, providing a detailed profile of the chemicals grouped by structural alerts and endpoints. Such a facility can be used for decision making regarding whether a compound should be tested experimentally, validated with available QSAR models, or eliminated from consideration altogether. The alert-based screening can also be helpful for an easier interpretation of more complex QSAR models. The system is publicly accessible and tightly integrated with the Online Chemical Modeling Environment (OCHEM, http://ochem.eu). The system is open and expandable: any registered OCHEM user can introduce new alerts, browse, edit alerts introduced by other users, and virtually screen his/her data sets against all or selected alerts. The user sets being passed through the structural alerts can be used at OCHEM for other typical tasks: exporting in a wide variety of formats, development of QSAR models, additional filtering by other criteria, etc. The database already contains almost 600 structural alerts for such endpoints as mutagenicity, carcinogenicity, skin sensitization, compounds that undergo metabolic activation, and compounds that form reactive metabolites and, thus, can cause adverse reactions. The ToxAlerts platform is accessible on the Web at http://ochem.eu/alerts, and it is constantly growing.

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Figures

**Figure 1**
Simplified schema of the ToxAlerts database. The key identifying elements are marked with a star. In addition, the alerts have several other properties, i.e. the name of the OCHEM user who introduced or modified the data, creation date and time, modification history, and visibility control inherited from OCHEM.

**Figure 2**
ToxAlerts dialogue with virtual screening results. The left panel shows the compounds grouped by alerts and endpoints. The right panel shows the identified compounds and the respective alerts.

**Figure 3**
Formation of a toxic reactive metabolite from Acetaminophen.

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References

1. Sushko I.; Novotarskyi S.; Körner R.; Pandey A. K.; Cherkasov A.; Li J.; Gramatica P.; Hansen K.; Schroeter T.; Müller K.-R.; Xi L.; Liu H.; Yao X.; Öberg T.; Hormozdiari F.; Dao P.; Sahinalp C.; Todeschini R.; Polishchuk P.; Artemenko A.; Kuz’min V.; Martin T. M.; Young D. M.; Fourches D.; Muratov E.; Tropsha A.; Baskin I.; Horvath D.; Marcou G.; Varnek A.; Prokopenko V. V.; Tetko I. V. Applicability Domains for Classification Problems: Benchmarking of Distance to Models for Ames Mutagenicity Set. J. Chem. Inf. Mod. 2010, 27, 2094–111. - PubMed
1. Guidance on information requirements and chemical safety assessment. Chapter R.7A–Endpoint specific guidance. ECHA. http://echa.europa.eu/web/guest/guidance-documents/guidance-on-informati..., (accessed July 1, 2012).
1. Saiakhov R. D.; Klopman G. MultiCASE Expert Systems and the REACH Initiative. Toxicol. Mech. Methods 2008, 18, 159–175. - PubMed
1. Sanderson D. M.; Earnshaw C. G. Computer prediction of possible toxic action from chemical structure; the DEREK system. Hum. Exp. Toxicol. 1991, 10, 261–273. - PubMed
1. Enoch S. J.; Ellison C. M.; Schultz T. W.; Cronin M. T. D. A review of the electrophilic reaction chemistry involved in covalent protein binding relevant to toxicity. Crit. Rev. Toxicol. 2011, 41, 783–802. - PubMed

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[1] Sushko I.; Novotarskyi S.; Körner R.; Pandey A. K.; Cherkasov A.; Li J.; Gramatica P.; Hansen K.; Schroeter T.; Müller K.-R.; Xi L.; Liu H.; Yao X.; Öberg T.; Hormozdiari F.; Dao P.; Sahinalp C.; Todeschini R.; Polishchuk P.; Artemenko A.; Kuz’min V.; Martin T. M.; Young D. M.; Fourches D.; Muratov E.; Tropsha A.; Baskin I.; Horvath D.; Marcou G.; Varnek A.; Prokopenko V. V.; Tetko I. V. Applicability Domains for Classification Problems: Benchmarking of Distance to Models for Ames Mutagenicity Set. J. Chem. Inf. Mod. 2010, 27, 2094–111. - PubMed

[2] Sushko I.; Novotarskyi S.; Körner R.; Pandey A. K.; Cherkasov A.; Li J.; Gramatica P.; Hansen K.; Schroeter T.; Müller K.-R.; Xi L.; Liu H.; Yao X.; Öberg T.; Hormozdiari F.; Dao P.; Sahinalp C.; Todeschini R.; Polishchuk P.; Artemenko A.; Kuz’min V.; Martin T. M.; Young D. M.; Fourches D.; Muratov E.; Tropsha A.; Baskin I.; Horvath D.; Marcou G.; Varnek A.; Prokopenko V. V.; Tetko I. V. Applicability Domains for Classification Problems: Benchmarking of Distance to Models for Ames Mutagenicity Set. J. Chem. Inf. Mod. 2010, 27, 2094–111. - PubMed

[3] Guidance on information requirements and chemical safety assessment. Chapter R.7A–Endpoint specific guidance. ECHA. http://echa.europa.eu/web/guest/guidance-documents/guidance-on-informati..., (accessed July 1, 2012).

[4] Guidance on information requirements and chemical safety assessment. Chapter R.7A–Endpoint specific guidance. ECHA. http://echa.europa.eu/web/guest/guidance-documents/guidance-on-informati..., (accessed July 1, 2012).

[5] Saiakhov R. D.; Klopman G. MultiCASE Expert Systems and the REACH Initiative. Toxicol. Mech. Methods 2008, 18, 159–175. - PubMed

[6] Saiakhov R. D.; Klopman G. MultiCASE Expert Systems and the REACH Initiative. Toxicol. Mech. Methods 2008, 18, 159–175. - PubMed

[7] Sanderson D. M.; Earnshaw C. G. Computer prediction of possible toxic action from chemical structure; the DEREK system. Hum. Exp. Toxicol. 1991, 10, 261–273. - PubMed

[8] Sanderson D. M.; Earnshaw C. G. Computer prediction of possible toxic action from chemical structure; the DEREK system. Hum. Exp. Toxicol. 1991, 10, 261–273. - PubMed

[9] Enoch S. J.; Ellison C. M.; Schultz T. W.; Cronin M. T. D. A review of the electrophilic reaction chemistry involved in covalent protein binding relevant to toxicity. Crit. Rev. Toxicol. 2011, 41, 783–802. - PubMed

[10] Enoch S. J.; Ellison C. M.; Schultz T. W.; Cronin M. T. D. A review of the electrophilic reaction chemistry involved in covalent protein binding relevant to toxicity. Crit. Rev. Toxicol. 2011, 41, 783–802. - PubMed

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ToxAlerts: a Web server of structural alerts for toxic chemicals and compounds with potential adverse reactions

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ToxAlerts: a Web server of structural alerts for toxic chemicals and compounds with potential adverse reactions

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