Abstract
There is increasing interest in studying the role of peripheral innervation in tumor growth and metastasis. However, in vitro studies of interactions between cancer cells and axonal projections are technically challenging. To address this, we have developed a microfluidic Device for Axon-Cancer cell Interaction Testing in 2D and 3D (DACIT). We show that DACIT successfully separates neuronal soma from the axons and cancer cells into two compartments, which can be exposed to similar, or different growth conditions, depending on the experimental needs. We compare neoaxonogenesis using either the PC-12 cell line or primary embryonic or adult sensory neurons, demonstrating superior neurite growth in primary cells. Additionally, we show that DACIT can accommodate assessing growth and 3D invasion of tumor spheroids, due to its unique height profile. Hence, DACIT can be used to analyze cancer cell interactions with axons in most typical cell biology assays such as proliferation, invasion, and calcium activity which we demonstrate on examples of imaging transients in GCaMP6-labeled neurons, invadopodia assay, and 3D cancer spheroid invasion.