Application of high-throughput serological tests for controlling zoonotic viral infection in Amazon rainforest and as a strategy to prevent future pandemics (Preprint)

UNSTRUCTURED From the bubonic plague on the 14th century to the new Coronavirus disease 2019 (COVID-19), pandemics have profoundly changed societies function. Infectious disease outbreaks are getting shorter and shorter due to our densely populated cities, global travel, and nature mass exploration. In this regard, there is a particular concern about fires occurring in Brazil's Amazon rainforest, one of the most biodiverse places on earth that facilitates cross-species transmission giving rise to the emergency of new virulent pathogens. Situation is further complicated because Amazon spans across eight developing countries with limited preventive health care services. In this perspective, this review highlights the role of new methodologies best suited for epidemiological monitoring in low-income countries, such as high-throughput serological tests. Phage immunoprecipitation sequencing (Phip-Seq), for example, can evaluate antibody-repertoire binding specificities using oligonucleotides libraries encoding epitopes covering the DNA sequences from all human pathogenic viruses or all Arboviruses already described. After incubation with an individual's serum, these libraries can be immunoprecipitated for subsequent analysis by DNA sequencing. Data are analyzed revealing peptides recognized by the antibodies present in the sample. Being a technique at a relatively low cost, its implementation in developing countries is feasible and can generate very interesting scientific information.