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Single-cell herpes simplex virus type 1 infection of neurons using drop-based microfluidics reveals heterogeneous replication kinetics

Jacob P. Fredrikson, Luke F. Domanico, Shawna L. Pratt, Emma K. Loveday, Matthew P. Taylor, Connie B. Chang

2024Science Advances17 citationsDOIOpen Access PDF

Abstract

Single-cell analyses of viral infections reveal heterogeneity that is not detected by traditional population-level studies. This study applies drop-based microfluidics to investigate the dynamics of herpes simplex virus type 1 (HSV-1) infection of neurons at the single-cell level. We used micrometer-scale Matrigel beads, termed microgels, to culture individual murine superior cervical ganglia (SCG) neurons or epithelial cells. Microgel-cultured cells are encapsulated in individual media-in-oil droplets with a dual-fluorescent reporter HSV-1, enabling real-time observation of viral gene expression and replication. Infection within drops revealed that the kinetics of initial viral gene expression and replication were dependent on the inoculating dose. Notably, increasing inoculating doses led to earlier onset of viral gene expression and more frequent productive viral replication. These observations provide crucial insights into the complexity of HSV-1 infection in neurons and emphasize the importance of studying single-cell outcomes of viral infection. These techniques for cell culture and infection in drops provide a foundation for future virology and neurobiology investigations.

Topics & Concepts

Herpes simplex virusVirologyMicrofluidicsDrop (telecommunication)Replication (statistics)Viral replicationKineticsVirusBiologyNanotechnologyMaterials sciencePhysicsComputer scienceTelecommunicationsQuantum mechanicsInnovative Microfluidic and Catalytic Techniques InnovationViral Infectious Diseases and Gene Expression in InsectsCRISPR and Genetic Engineering