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Molecular docking studies of chloroquine and its derivatives against P23pro-zbd domain of chikungunya virus: Implication in designing of novel therapeutic strategies.
Kumar, Maneesh; Topno, Roshan Kamal; Dikhit, Manas Ranjan; Sahoo, Ganesh Chandra; Madhukar, Major; Pandey, Krishna; Das, Pradeep.
Afiliación
  • Kumar M; Department of Virology, ICMR-Rajendra Memorial Research Institute of Medical Sciences, Agamkuan, Patna, India.
  • Topno RK; Department of Epidemiology, ICMR-Rajendra Memorial Research Institute of Medical Sciences, Agamkuan, Patna, India.
  • Dikhit MR; Department of Bioinformatics, ICMR-Rajendra Memorial Research Institute of Medical Sciences, Agamkuan, Patna, India.
  • Bhawana; Department of Virology, ICMR-Rajendra Memorial Research Institute of Medical Sciences, Agamkuan, Patna, India.
  • Sahoo GC; Department of Bioinformatics, ICMR-Rajendra Memorial Research Institute of Medical Sciences, Agamkuan, Patna, India.
  • Madhukar M; Department of Clinical Medicine, ICMR-Rajendra Memorial Research Institute of Medical Sciences, Agamkuan, Patna, India.
  • Pandey K; Department of Clinical Medicine, ICMR-Rajendra Memorial Research Institute of Medical Sciences, Agamkuan, Patna, India.
  • Das P; Department of Molecular Biology, ICMR-Rajendra Memorial Research Institute of Medical Sciences, Agamkuan, Patna, India.
J Cell Biochem ; 120(10): 18298-18308, 2019 10.
Article en En | MEDLINE | ID: mdl-31310373
The arthropod-transmitted chikungunya virus has emerged as an epidemic menace that causes debilitating polyarthritis. With this life-threatening impact on humans, the possible treatment requires to cure the viral infectivity. But, devoid of any vaccine against the chikungunya virus (CHIKV), there is a need to develop a novel chemotherapeutic strategy to treat this noxious infection. CHIKV carries highly compact P23pro-zbd structure that possesses potential RNA-binding surface domains which extremely influences the use of RNA template during genome replication at the time of infection and pathogenesis. Therefore, computational approaches were used to explore the novel small molecule inhibitors targeting P23pro-zbd domain. The tertiary structure was modeled and optimized using in silico approaches. The results obtained from PROCHECK (93.1% residues in favored regions), ERRAT (87.480 overall model quality) and ProSA (Z-score: -11.72) revealed the reliability of the proposed model. Interestingly, a previously reported inhibitor, chloroquine possesses good binding affinities with the target domain. In-depth analysis revealed that chloroquine derivatives such as didesethyl chloroquine hydroxyacetamide, cletoquine, hydroxychloroquine exhibited a better binding affinity. Notably, MD simulation analysis exhibited that Thr1312, Ala1355, Ala1356, Asn1357, Asp1364, Val1366, Cys1367, Ala1401, Gly1403, Ser1443, Tyr1444, Gly1445, Asn1459, and Thr1463 residues are the key amino acid responsible for stable ligand-protein interaction. The results obtained from this study provide new insights and advances the understanding to develop a new approach to consider effective and novel drug against chikungunya. However, a detailed in vivo study is required to explore its drug likeliness against this life-threatening disease.
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Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Proteínas Virales / Virus Chikungunya / Cloroquina / Proteínas de Unión al ARN / Simulación del Acoplamiento Molecular / Fiebre Chikungunya Tipo de estudio: Prognostic_studies Límite: Humans Idioma: En Revista: J Cell Biochem Año: 2019 Tipo del documento: Article País de afiliación: India

Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Proteínas Virales / Virus Chikungunya / Cloroquina / Proteínas de Unión al ARN / Simulación del Acoplamiento Molecular / Fiebre Chikungunya Tipo de estudio: Prognostic_studies Límite: Humans Idioma: En Revista: J Cell Biochem Año: 2019 Tipo del documento: Article País de afiliación: India