Antiviral activity of marine organisms extracts using as model Newcastle disease virus and avian Metapneumovirus

Natural products isolated from invertebrates and marine organisms have been studied over the past fifty years, mainly due to their structural complexity and potent biological activities. This project was proposed to broaden and deepen the research of bioactive substances in extracts of marine organisms, with the IQSC-USP group, performing bioassays antiviral activity in the laboratory of virology at Unicamp. In order to perform a screening to search antiviral substances were elected two species prominent in poultry, the avian Metapneumovirus (aMPV) and Newcastle disease virus (NDV), representatives of the family Paramyxoviridae. The common properties of the virus within their respective subfamilies, such as genomic organization, sequences of proteins and their biological activities, allow the use of aMPV as a study model for important infectious agents of Pneumovirinae subfamily, and NDV Paramyxovirinae subfamily. For antiviral screening, compounds were tested in vitro using Chicken Embryo Related (CER) cell lineage for the propagation of the virus and analyze the results of viral inhibition against various substances. Among one hundred twenty five extracts tested against aMPV, seven were actives and six have been shown high antiviral potential against the virus. Initially, one hundred fourty seven extracts were tested against NDV. However, the result was inconclusive due to problems with the titer of the viral sample. Thus, the seven active extracts and six extracts with high antiviral potential against the aMPV were tested for the ability to inhibit NDV. Despite the similarities of viruses of the family Paramyxoviridae, the extracts had no activity against NDV, as occurred against aMPV. The active samples were studied in three types of treatment in order to determine the possible mechanisms of action of the extracts: Pre-treatment, stages of adsorption and / or penetration of the virus into the cell; Post-treatment, intracellular steps of virus replication; and Viral Inactivation. At visual analysis of cytopathic effect, from all 7 extracts active against aMPV, 4 disrupt intracellular steps of virus replication, 2 acts on adsorption and / or penetration stages of the virus into the cell, and 1 was not enough to perform the test. In order to assess the possible mechanisms of action more objectively, lower contamination risk and high specificity, the polymerase chain reaction (PCR) in real time methodology was tested. Using a pure compound (pirocina A) against aMPV in CER cell lineage, the methodology is demonstrated efficient. This was confirmed by the decrease of viral RNA when occurs antiviral activity, an evidence of compound's action on intracellular steps of aMPV replication. The detection of extracts with antiviral activity in this study confirms the value of marine biodiversity as a source of promising products in the viral diseases therapeutic. Therefore, the primordiality for more studies and the development of new inputs to control these viruses is extremely important to increasing of Brazilian poultry industry in world trade (AU)