Discovering disease-causing pathogens in resource-scarce Southeast Asia using a global metagenomic pathogen monitoring systemJennifer A Bohl, Sreyngim Lay, Sophana Chea, Vida Ahyong, Daniel M Parker, Shannon Gallagher, Jonathan Fintzi, Somnang Man, Aiyana Ponce, Sokunthea Sreng, Dara Kong, Fabiano Oliveira, Katrina Kalantar, Michelle Tan, Liz Fahsbender, Jonathan Sheu, Norma Neff, Angela M Detweiler, Christina Yek, Sokna Ly, Rathanak Sath, Chea Huch, Hok Kry, Rithea Leang, Rekol Huy, Chanthap Lon, Cristina M Tato, Joseph L DeRisi, Jessica E Manning
PNAS, 2022Abstract: Understanding the regional pathogen landscape and surveillance of emerging pathogens is key to mitigating epidemics. Challenges lie in resource-scarce settings, where outbreaks are likely to emerge, but where laboratory diagnostics and bioinformatics capacity are limited. Using metagenomic next-generation sequencing (mNGS), we identified a variety of vector-borne, zoonotic, and emerging pathogens responsible for undifferentiated fevers in a periurban population in Cambodia. From March 2019 to October 2020, we enrolled 464 febrile patients (and 23 afebrile persons) aged 6 mo to 65 y presenting to a large periurban hospital in Cambodia. We collected sera and prepared sequencing libraries from extracted pathogen RNA for unbiased metagenomic sequencing and subsequent bioinformatic analysis on the global cloud-based platform, CZID (“IDseq”). We employed multivariable regression models to evaluate pathogen risk factors associated with undifferentiated febrile illness. mNGS identified vector-borne pathogens as the largest clinical category with dengue virus (124 of 489) as the most abundant pathogen. Underappreciated zoonotic pathogens, such as Plasmodium knowlesi, leptospirosis, and coinfecting HIV were also detected. Early detection of chikungunya virus presaged a larger national outbreak of more than 6,000 cases. Pathogen-agnostic mNGS investigation of febrile persons in resource-scarce Southeast Asia is feasible and revealing of a diverse pathogen landscape. Coordinated and ongoing mNGS pathogen surveillance can better identify the breadth of endemic, zoonotic, or emerging pathogens and deployment of rapid public health response.
