A polarized cell system amenable to subcellular resolution imaging of influenza virus infection.
Jean-Baptiste BraultCatherine ThouvenotMagda Cannata SerioSylvain PaisantJulien FernandesDavid GényLydia DanglotAdeline MalletNadia NaffakhPublished in: PloS one (2024)
The life cycle of influenza A viruses (IAV), and notably intracellular trafficking of the viral genome, depends on multiple interactions with the cellular cytoskeleton and endomembrane system. A limitation of the conventional cellular models used for mechanistic study and subcellular imaging of IAV infection is that they are cultured in two dimensions (2D) under non-polarizing conditions, and therefore they do not recapitulate the intracellular organization of the polarized respiratory epithelial cells naturally targeted by IAVs. To overcome this limitation, we developed an IAV-infection assay in a 3D cell culture system which allows imaging along the baso-lateral axis of polarized cells, with subcellular resolution. Here we describe a protocol to grow polarized monolayers of Caco2-TC7 cells on static Cytodex-3 microcarrier beads, infect them with IAV, and subsequently perform immunostaining and confocal imaging, or electron microscopy, on polarized IAV-infected cells. This method can be extended to other pathogens that infect human polarized epithelial cells.
Keyphrases
- induced apoptosis
- high resolution
- cell cycle arrest
- randomized controlled trial
- stem cells
- endoplasmic reticulum stress
- sars cov
- cell death
- life cycle
- dna methylation
- oxidative stress
- cell proliferation
- gene expression
- electron microscopy
- drug delivery
- mass spectrometry
- cancer therapy
- antimicrobial resistance
- photodynamic therapy
- raman spectroscopy