Quantifying neutrophil extracellular trap release in a combined infection–inflammation NET-array device
Udaya Sree Datla, Bhaskar Vundurthy, Jessica S. Hook, Nidhi Menon, Hossein Razmi Bagtash, Tarik Shihabeddin, David W. Schmidtke, Jessica G. Moreland, Marko Radic, Caroline N. Jones
Abstract
[20 nM], compared to the infection alone. We also quantified the temporal dynamics of NET release and differences in the relative areas of NETs, showing a high percentage of variable size NET release with combined PAO1 - inflammatory mediator treatment, in the device chambers. Importantly, we demonstrated reduced NET release in the confined loops of our combined infection-inflammation microsystem. Ultimately, our NET-array device stands as a valuable tool, facilitating experiments that enhance our comprehension of the spatiotemporal dynamics of NET release in response to infection within a defined microenvironment. In the future, our system can be used for high throughput and cost-effective screening of novel immunotherapies on human neutrophils in view of the importance of fine-tuning NET release in controlling pathological neutrophil-driven inflammation.