AI Article Synopsis
- Puumala orthohantavirus (PUUV) can cause hemorrhagic fever with renal syndrome primarily through infection of endothelial cells, leading to increased vascular permeability.
- Traditional studies used static 2D cultures of endothelial cells, which do not accurately mimic the body's environment, prompting the need for better models.
- The new 3D vessels-on-chip model allows for a more realistic study of endothelial responses to PUUV, showing that infection increases monocyte adhesion instead of vascular permeability, and can potentially aid in researching treatments for similar viruses.
Article Abstract
Puumala orthohantavirus (PUUV) infection in humans can result in hemorrhagic fever with renal syndrome. Endothelial cells (ECs) are primarily infected with increased vascular permeability as a central aspect of pathogenesis. Historically, most studies included ECs cultured under static two-dimensional (2D) conditions, thereby not recapitulating the physiological environment due to their lack of flow and inherent pro-inflammatory state. Here, we present a high-throughput model for culturing primary human umbilical vein ECs in 3D vessels-on-chip in which we compared host responses of these ECs to those of static 2D-cultured ECs on a transcriptional level. The phenotype of ECs in vessels-on-chip more closely resembled the situation due to higher similarity in expression of genes encoding described markers for disease severity and coagulopathy, including , , and , and more diverse endothelial-leukocyte interactions in the context of PUUV infection. In these vessels-on-chip, PUUV infection did not directly increase vascular permeability, but increased monocyte adhesion. This platform can be used for studying pathogenesis and assessment of possible therapeutics for other endotheliotropic viruses even in high biocontainment facilities.
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| http://dx.doi.org/10.1039/d4lc00543k | DOI Listing |
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