Characterization of a multifunctional biocontrol agent, Streptomyces Misakimycin, against Newcastle Disease Virus

Abstract Background The Newcastle Disease Virus (NDV) is present throughout the world, and outbreaks in Egypt caused serious economic losses in the poultry industry. Actinobacteria are a phylum of bacteria known for their potential in producing structurally diversified natural products which promising natural compounds used to combat viruses are presented and evaluated. Streptomyces Misakimycin isolated from Egyptian soil, and evaluated for their efficacy in controlling NDV. On the basis of the biochemical characteristics S. Misakimycin metabolites, identified by infrared (IR) and nuclear magnetic resonance (NMR) spectroscopy. Results In this investigation, NDV was found to have been isolated in February from a chicken farm in the Dakahlia Governorate of Egypt by the Animal Health Research Institute in Dokki, Giza. Diethylpthalate (DEP), a secondary metabolite of S. misakimycin, completely inhibited the hemagglutination (HI) activity of the NDV strain (MN635617) at log107 infectivity titers (EID50/mL). With 0.5 percent and 0.75 percent of chicken RBCs, the HA of the NDV strain was 2 log2 and 5 log2, respectively. In the treated group that received DEP and NDV inoculations, chorioallantoic-membranes (CAM) structures were preserved along with dilated capillary networks. Histological changes in SPF-ECE liver were examined after inoculation in ova to further characterize the DEP effect. Diethylpthalate and NDV mixture inoculated group showed preserved cytoarchitecture of hepatocytes with the presence of perivascular foci of lymphocytes. The group that was inoculated with telomycin alone showed normal histology of hepatic acini, central veins, and portal triads. Conclusion A potentially bioactive substance called diethylpthalate has the potential to be a biological weapon against a fatal chicken NDV that quickly increase cost losses for farmers.