Application of toxicology in silico methods for prediction of acute toxicity (LD50) for Novichoks

Noga, Maciej; Michalska, Agata; Jurowski, Kamil

doi:10.1007/s00204-023-03507-2

Cited by 11 publications

(7 citation statements)

References 37 publications

(55 reference statements)

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“…The advantages and disadvantages of the methods incorporated in TEST are described in a previous publication (Noga et al 2023 ). Calculation options (end point: oral rat LD 50 , method: Consensus and FDA, relax fragment constraint: disabled, chemical transformation simulator: disabled).…”

Section: Methodsmentioning

confidence: 99%

The prediction of acute toxicity (LD50) for organophosphorus-based chemical warfare agents (V-series) using toxicology in silico methods

Noga,

Michalska,

Jurowski

2023

Arch Toxicol

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Nerve agents are organophosphate chemical warfare agents that exert their toxic effects by irreversibly inhibiting acetylcholinesterase, affecting the breakdown of the neurotransmitter acetylcholine in the synaptic cleft. Due to the risk of exposure to dangerous nerve agents and for animal welfare reasons, in silico methods have been used to assess acute toxicity safely. The next-generation risk assessment (NGRA) is a new approach for predicting toxicological parameters that can meet modern requirements for toxicological research. The present study explains the acute toxicity of the examined V-series nerve agents (n = 9) using QSAR models. Toxicity Estimation Software Tool (ver. 4.2.1 and ver. 5.1.2), QSAR Toolbox (ver. 4.6), and ProTox-II browser application were used to predict the median lethal dose. The Simplified Molecular Input Line Entry Specification (SMILES) was the input data source. The results indicate that the most deadly V-agents were VX and VM, followed by structural VX analogues: RVX and CVX. The least toxic turned out to be V-sub x and Substance 100A. In silico methods for predicting various parameters are crucial for filling data gaps ahead of experimental research and preparing for the upcoming use of nerve agents.

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Section: Methodsmentioning

confidence: 99%

The prediction of acute toxicity (LD50) for organophosphorus-based chemical warfare agents (V-series) using toxicology in silico methods

Noga,

Michalska,

Jurowski

2023

Arch Toxicol

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“…The program allows the prediction of the acute rat oral LD50 for the query compound with three different approaches: consensus, hierarchical clustering, nearest neighbor. Further details on TEST were recently published [ 9 ]. Also, it allows the prediction of various physical properties including density, surface tension, viscosity and vapor pressure using the following approaches: consensus, hierarchical clustering, nearest neighbor, group contribution and single model (additional model for viscosity).…”

Section: Methodsmentioning

confidence: 99%

“…Thus, in silico toxicology is an important field for the assessment of potential chemical warfare agents. Previously, the TEST software was used to predict the acute oral toxicity in rats of Novichok nerve agents [ 9 ]. The ProTox-II program was developed as an alternative to TEST and is an online platform for the prediction of acute oral rat toxicity [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

Underestimations in the In Silico-Predicted Toxicities of V-Agents

Pampalakis

2023

JoX

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V-agents are exceedingly toxic nerve agents. Recently, it was highlighted that V-agents constitute a diverse subclass of compounds with most of them not extensively studied. Although chemical weapons have been banned under the Chemical Weapons Convention (CWC), there is an increased concern for chemical terrorism. Thus, it is important to understand their properties and toxicities, especially since some of these agents are not included in the CWC list. Nonetheless, to achieve this goal, the testing of a huge number of compounds is needed. Alternatively, in silico toxicology offers a great advantage for the rapid assessment of toxic compounds. Here, various in silico tools (TEST, VEGA, pkCSM ProTox-II) were used to estimate the acute oral toxicity (LD50) of different V-agents and compare them with experimental values. These programs underestimated the toxicity of V-agents, and certain V-agents were estimated to be relatively non-toxic. TEST was also used to estimate the physical properties and found to provide good approximations for densities, surface tensions and vapor pressures but not for viscosities. Thus, attention should be paid when interpreting and estimating the toxicities of V-agents in silico, and it is necessary to conduct future detailed experiments to understand their properties and develop effective countermeasures.

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“…The trend of the hydrolysis rate between A-230 > A-232 > A-234 corresponded with the lipophilicity of molecule A-234 > A-232 > A-230 Noga et al ( 2023a ) A-230, A-232, A-234, A-242, A-262 Hydrolysis and biodegradation Evaluation of hydrolysis estimates showed extremely rapid degradation of compounds A-230 and A-242 in contrast to A-232, A-234, and A-262 ChemSpider ( b , 2018c , 2018a ) A-230, A-232, A-234 Density, boiling point, vapor pressure, enthalpy, flash point, etc. Predicted by ACD/Labs ChemAxon Means of modeling: Franca et al ( 2019 )—chemicalize.com; Carlsen et al ( 2019 )—QSAR modeling; Lyagin and Efremenko ( 2019 )—molecular docking; Bhakhoa et al ( 2019 )—DFT; Tan et al ( 2019 )—DFT; De Farias ( 2019 )—SE method; Nakano et al ( 2019 )—DFT; Imrit et al ( 2020 )—DFT; Motlagh et al ( 2020 )—DFT; Yar et al ( 2021 )—DFT; Otsuka and Miyaguchi ( 2021 )—DFT; Vieira et al ( 2021 )—DFT, QSAR modeling; Chernicharo et al ( 2021 )—DFT; Sajid et al ( 2021 )—DFT; Eskandari et al ( 2022 )—DFT; Jeong et al ( 2022a )—DFT, QSAR modeling; Kim et al ( 2022 )—DFT; Jeong et al ( 2022b )—DFT; Rashid et al ( 2023 )—DFT; Noga et al ( 2023a , b )—QSAR modeling DFT density functional theory, SE semiempirical, QSAR quantitative structure–activity relationship, n/a not available …”

Section: Introductionmentioning

confidence: 99%

“… Means of modeling: Franca et al ( 2019 )—chemicalize.com; Carlsen et al ( 2019 )—QSAR modeling; Lyagin and Efremenko ( 2019 )—molecular docking; Bhakhoa et al ( 2019 )—DFT; Tan et al ( 2019 )—DFT; De Farias ( 2019 )—SE method; Nakano et al ( 2019 )—DFT; Imrit et al ( 2020 )—DFT; Motlagh et al ( 2020 )—DFT; Yar et al ( 2021 )—DFT; Otsuka and Miyaguchi ( 2021 )—DFT; Vieira et al ( 2021 )—DFT, QSAR modeling; Chernicharo et al ( 2021 )—DFT; Sajid et al ( 2021 )—DFT; Eskandari et al ( 2022 )—DFT; Jeong et al ( 2022a )—DFT, QSAR modeling; Kim et al ( 2022 )—DFT; Jeong et al ( 2022b )—DFT; Rashid et al ( 2023 )—DFT; Noga et al ( 2023a , b )—QSAR modeling DFT density functional theory, SE semiempirical, QSAR quantitative structure–activity relationship, n/a not available …”

Section: Introductionmentioning

confidence: 99%

A-agents, misleadingly known as “Novichoks”: a narrative review

Opravil,

Pejchal,

Finger

et al. 2023

Arch Toxicol

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Abstract“Novichok” refers to a new group of nerve agents called the A-series agents. Their existence came to light in 2018 after incidents in the UK and again in 2020 in Russia. They are unique organophosphorus-based compounds developed during the Cold War in a program called Foliant in the USSR. This review is based on original chemical entities from Mirzayanov's memoirs published in 2008. Due to classified research, a considerable debate arose about their structures, and hence, various structural moieties were speculated. For this reason, the scientific literature is highly incomplete and, in some cases, contradictory. This review critically assesses the information published to date on this class of compounds. The scope of this work is to summarize all the available and relevant information, including the physicochemical properties, chemical synthesis, mechanism of action, toxicity, pharmacokinetics, and medical countermeasures used to date. The environmental stability of A-series agents, the lack of environmentally safe decontamination, their high toxicity, and the scarcity of information on post-contamination treatment pose a challenge for managing possible incidents.

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Application of toxicology in silico methods for prediction of acute toxicity (LD50) for Novichoks

Cited by 11 publications

References 37 publications

The prediction of acute toxicity (LD50) for organophosphorus-based chemical warfare agents (V-series) using toxicology in silico methods

The prediction of acute toxicity (LD50) for organophosphorus-based chemical warfare agents (V-series) using toxicology in silico methods

Underestimations in the In Silico-Predicted Toxicities of V-Agents

A-agents, misleadingly known as “Novichoks”: a narrative review

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