Abstract
BackgroundCompetitive displacement of a weakly virulent pathogen strain by a more virulent strain is one route to disease emergence. However the mechanisms by which pathogens compete for access to hosts are poorly understood. Among vector-borne pathogens, variation in the ability to infect vectors may effect displacement. The current study focused on competitive displacement in dengue virus serotype 3 (DENV3), a mosquito-borne pathogen of humans. In Sri Lanka in the 1980's, a native DENV3 strain associated with relatively mild dengue disease was displaced by an invasive DENV3 strain associated with the most severe disease manifestations, dengue hemorrhagic fever/dengue shock syndrome (DHF/DSS), resulting in an outbreak of DHF/DSS. Here we tested the hypothesis that differences between the invasive and native strain in their infectivity for Aedes aegypti mosquitoes, the primary vector of DENV, contributed to the competitive success of the invasive strainResultsTo be transmitted by a mosquito, DENV must infect and replicate in the midgut, disseminate into the hemocoel, infect the salivary glands, and be released into the saliva. The ability of the native and invasive DENV3 strains to complete the first three steps of this process in Aedes aegypti mosquitoes was measured in vivo. The invasive strain infected a similar proportion of mosquitoes as the native strain but replicated to significantly higher titers in the midgut and disseminated with significantly greater efficiency than the native strain. In contrast, the native and invasive strain showed no significant difference in replication in cultured mosquito, monkey or human cells.ConclusionThe invasive DENV3 strain infects and disseminates in Ae. aegypti more efficiently than the displaced native DENV3 strain, suggesting that the invasive strain is transmitted more efficiently. Replication in cultured cells did not adequately characterize the known phenotypic differences between native and invasive DENV3 strains. Infection dynamics within the vector may have a significant impact on the spread and replacement of dengue virus lineages.
Highlights
Competitive displacement of a weakly virulent pathogen strain by a more virulent strain is one route to disease emergence
In Sri Lanka in the 1980's, a dengue virus serotype 3 (DENV3) strain that caused a high incidence of severe disease displaced a native DENV3 strain that had been associated with milder disease [38], resulting in an outbreak of severe dengue disease that persists to the present day
The resurgence of the dengue virus (DENV) pandemic in recent decades has been characterized by increases in both incidence and disease severity
Summary
Competitive displacement of a weakly virulent pathogen strain by a more virulent strain is one route to disease emergence. In the current study we have investigated competitive displacement among strains of mosquito-borne dengue virus (DENV, genus Flavivirus, family Flaviviridae), the etiological agent of classical dengue fever (DF) and its more severe manifestations, dengue hemorrhagic fever and dengue shock syndrome (DHF/DSS) [16]. Subsequent reduction of these efforts, along with changes in global travel patterns and lifestyles, have permitted a resurgence of this virus over the past several decades, and currently 100 million dengue virus infections per year occur in over 100 countries [21,22,23] This period has seen an increase in the severity of dengue disease, and today DENV poses the greatest threat to human health of all arthropod-borne viruses [21,22,23]
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