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Article Abstract
We have developed a microfluidic platform for real-time imaging of host-pathogen interactions and cellular signaling events. Host cells are immobilized in a controlled environment for optical interrogation of the kinetics and stochasticity of immune response to pathogenic challenges. Here, we have quantitatively measured activation of the toll-like receptor 4 (TLR4) pathway in RAW264.7 murine macrophage-like cells. This was achieved by measuring the cytoplasm-to-nucleus translocation kinetics of a green fluorescent protein fusion construct to the NF-kappaB transcription factor subunit RelA (GFP-RelA). Translocation kinetics in response to live bacteria and purified lipopolysaccharide (LPS) challenges were measured, and this work presents the first demonstration of live imaging of host cell infection on a microfluidic platform with quantitative analysis of an early (<0.5 h from infection) immune signaling event. Our data show that a 1,000x increase in the LPS dose led to a ~10x increase in a host cell activation metric we developed in order to describe NF-kappaB translocation kinetics. Using this metric, live bacteria challenges were assigned an equivalent LPS dose as a first step towards comparing NF-kappaB translocation kinetics between TLR4-only pathway signaling (activated by LPS) and multiple pathway signaling (activated by whole bacteria). The device also contains a unique architecture for capturing and fluidically isolating single host cells for the purpose of differentiating between primary and secondary immune signaling.
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