Antiviral viral compound fromStreptomyces ghanaensislike strain against white spot syndrome virus (WSSV) of shrimp

Abstract

AbstractActinomycetes isolates collected from different environments were screened for antiviral activity against WSSV. One isolate designated as CAHSH-2 showed antiviral activity against WSSV at the concentration of 0.2 mg per shrimp. The laboratory trial of determining antiviral activity of ethyl acetate extract (EtOAcE) of CAHSH-2 against WSSV was carried out 21 times since 2014. CAHSH-2 isolate which showed antiviral activity was characterized and identified asStreptomyces ghanaensislike strain. Among the five fractions obtained from EtOAcE of potential actinomycetes isolate, F1 was found to have strong antiviral activity. The F1A and F1B sub-fractions from F1 fraction were subjected to GC-MS, FTIR,1H and13C NMR analyses and, the compounds identified were di-n-octyl phthalate and bis (2-methylheptyl) phthalate, respectively. Among these compounds, di-n-octyl phthalate showed strong antiviral activity against WSSV. Molecular docking studies revealed that di-n-octyl phthalate was found to have high binding affinity with VP26 and VP28 proteins of WSSV, whereas the bis (2-methylheptyl) phthalate showed low binding affinity with VP26 and VP28. The antiviral activity of EtOAcE of actinomycetes against WSSV was confirmed by PCR, RT-PCR, Western blot and ELISA. The EA extract of active isolate was found to be non-toxic toArtemia, post-larvae and adultLitopenaeus vannamei.ImportanceWhite spot syndrome virus (WSSV) is an important shrimp viral pathogen and responsible for huge economic loss to shrimp culture industry worldwide including India. The global loss due to WSSV has been estimated about USD 10 billion and the loss continues at the same extent even now. Various strategies have been followed to prevent or control diseases of aquatic animals. In spite of various preventive and control strategies, WSSV has been still persisting for more than two decades. No control strategies have so far been evolved to put a break to WSSV. In this situation, an attempt was made in the present work to screen some actinomycetes isolates for antiviral activity against WSSV. Among these isolates, one isolate identified asStreptomyces ghanaensislike isolate CAHSH-2 showed activity against WSSV. This article gives the information about the antiviral compound against WSSV and the mechanism of viral inhibition.