Evaluation of the Antiviral Potential of Halogenated Dihydrorugosaflavonoids and Molecular Modeling with nsP3 Protein of Chikungunya Virus (CHIKV)

Puranik, Ninad V.; Rani, Ruchi; Singh, Vedita Anand; Tomar, Shailly; Puntambekar, Hemalata M.; Srivastava, Pratibha

doi:10.1021/acsomega.9b02900

Cited by 29 publications

(12 citation statements)

References 53 publications

(103 reference statements)

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“…As reflected from the figure, thethree halogenated compounds reside in the active site pocket of the SARS-CoV-2 M pro , superimposed over Nelfinavir suggesting the same mode of interaction, hence possible inhibition of the main protease of SARS-CoV-2. These results are in support of previous studies on the effectiveness of halogen-containing compounds as potential antiviral agents[63,64].…”

supporting

confidence: 92%

Synthesis of Novel Halogenated Heterocyclic compounds and their uses as Target SARS-CoV-2 main Protease (Mpro) and Potential Anti-Covid-19

Mohareb

Almutairi²,

Elfiky³

et al. 2021

Preprint

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Since the first appearance of the coronavirus disease-2019 (COVID-19) in Wuhan, China, in December 2019, it has been spreading globally with devastating ramifications. The lack of anti-COVID-19 treatment to date warrants urgent research into potential therapeutic targets. Virtual drug screening techniques enable the identification of novel compounds that are capable of targeting the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) main protease (Mpro). The latter plays a fundamental role in mediating viral replication and transcription, rendering it an attractive drug target. In this study, twenty six novel halogenated, heterocyclic compounds, which can inhibit Mpro, were tested by molecular docking combined with molecular dynamics simulation. Three compounds showed the highest binding affinity to the protein active site and their binding modes coincide with that of Nelfinavir. The binding of the halogenated compounds to Mpro may inhibit the replication and transcription of SARS-CoV-2 and, ultimately, stop the virallife cycle. In times of dire need for anti-COVID-19 treatment, this study lays the groundwork for further experimental research to investigate the efficacy and potential medical uses of these compounds to treat COVID-19. Novel compounds including fused thiophene, pyrimidine and pyran derivatives were tested against human RNA N7-MTase (hRNMT) and selected viral N7-MTases such as SARS-CoV nsp14 and Vaccinia D1-D12 complex to evaluate their specificity and their molecular modeling was also studied in the aim of producing anti covid-19 target molecules.

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supporting

confidence: 92%

Synthesis of Novel Halogenated Heterocyclic compounds and their uses as Target SARS-CoV-2 main Protease (Mpro) and Potential Anti-Covid-19

Mohareb

Almutairi²,

Elfiky³

et al. 2021

Preprint

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“…Together, these findings lead to the suggestion that targeting of viral macrodomains is a promising antiviral strategy. The hypothesis gained support recently by the development of dihydrorugosaflavonoid derivatives as inhibitors of the nsP3 macrodomain and the demonstration that these compounds are effective in reducing viral RNA levels in the infected cells (Puranik et al 2019).…”

Section: Viral and Microbial Macrodsmentioning

confidence: 99%

(ADP-ribosyl)hydrolases: structure, function, and biology

2020

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ADP-ribosylation is an intricate and versatile posttranslational modification involved in the regulation of a vast variety of cellular processes in all kingdoms of life. Its complexity derives from the varied range of different chemical linkages, including to several amino acid side chains as well as nucleic acids termini and bases, it can adopt. In this review, we provide an overview of the different families of (ADP-ribosyl)hydrolases. We discuss their molecular functions, physiological roles, and influence on human health and disease. Together, the accumulated data support the increasingly compelling view that (ADP-ribosyl)hydrolases are a vital element within ADP-ribosyl signaling pathways and they hold the potential for novel therapeutic approaches as well as a deeper understanding of ADP-ribosylation as a whole.

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“…It has been reported that a distance of <2.9 Å between the donor group and the acceptor atom is favorable for hydrogen bond formation [ 48 ], and therefore is likely that the favorable nature of the interaction between the compounds (TDC-2M-ME and TDB-2M-ME) and the viral proteins is primarily caused by hydrophobic interactions rather than the hydrogen bonds ( Figure 6 , Table S1 ). These in silico results could explain the decrease in genome copies in the CHIKV/Col cultures treated with TDC-2M-ME and TDB-2M-ME ( Figure 3 A) because it has been described that NSP3 inhibition truncates viral replication [ 49 ] and that helicase function is essential to this process [ 32 ]. Future in vitro evaluations will help to further elucidate these hypotheses.…”

Section: Discussionmentioning

confidence: 88%

In Vitro and In Silico Anti-Arboviral Activities of Dihalogenated Phenolic Derivates of L-Tyrosine

et al. 2021

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Despite the serious public health problem represented by the diseases caused by dengue (DENV), Zika (ZIKV) and chikungunya (CHIKV) viruses, there are still no specific licensed antivirals available for their treatment. Here, we examined the potential anti-arbovirus activity of ten di-halogenated compounds derived from L-tyrosine with modifications in amine and carboxyl groups. The activity of compounds on VERO cell line infection and the possible mechanism of action of the most promising compounds were evaluated. Finally, molecular docking between the compounds and viral and cellular proteins was evaluated in silico with Autodock Vina®, and the molecular dynamic with Gromacs®. Only two compounds (TDC-2M-ME and TDB-2M-ME) inhibited both ZIKV and CHIKV. Within the possible mechanism, in CHIKV, the two compounds decreased the number of genome copies and in the pre-treatment strategy the infectious viral particles. In the ZIKV model, only TDB-2M-ME inhibited the viral protein and demonstrate a virucidal effect. Moreover, in the U937 cell line infected with CHIKV, both compounds inhibited the viral protein and TDB-2M-ME inhibited the viral genome too. Finally, the in silico results showed a favorable binding energy between the compounds and the helicases of both viral models, the NSP3 of CHIKV and cellular proteins DDC and β2 adrenoreceptor.

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Evaluation of the Antiviral Potential of Halogenated Dihydrorugosaflavonoids and Molecular Modeling with nsP3 Protein of Chikungunya Virus (CHIKV)

Cited by 29 publications

References 53 publications

Synthesis of Novel Halogenated Heterocyclic compounds and their uses as Target SARS-CoV-2 main Protease (Mpro) and Potential Anti-Covid-19

Synthesis of Novel Halogenated Heterocyclic compounds and their uses as Target SARS-CoV-2 main Protease (Mpro) and Potential Anti-Covid-19

(ADP-ribosyl)hydrolases: structure, function, and biology

In Vitro and In Silico Anti-Arboviral Activities of Dihalogenated Phenolic Derivates of L-Tyrosine

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