The Influence of 3D Cell Organization in Tumor Spheroid on Natural Killer Cell Infiltration and Migration

• Main Author: Morrone, Luigi
• Format: Others
• Language: English
• Published: KTH, Skolan för kemi, bioteknologi och hälsa (CBH) 2020
• Subjects: Natural Killer Cells; Tumor Spheroids; Fluorescence Microscopy; Infiltration; Migration; Killing; Medical Engineering; Medicinteknik
• Online Access: http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-286605

Natural Killer cells are a type of lymphocyte belonging to the innate immune system and they operate cell-mediated cytotoxicity and release of pro-inflammatory cytokines against cancerous cells. However, in vivo testings have shown a reduced activity of NK cells against solid tumors probably due to the negative influence of the immunosuppressive tumor microenvironment. Multicellular tumor spheroids may constitute an advantageous model in cancer biology for studying the mechanisms behind cancer immune editing since it more closely mimics the complexity of the human body compared with the 2D model counterpart. This study investigated the interaction between NK cells isolated from blood and tumor spheroids obtained from A498 renal carcinoma cells, using light-sheet microscopy imaging which allows satisfactory cell tracking in the inner layers of the spheroids. NK cells not only indeed interact with tumor spheroids, but many of them were able to penetrate the spheroids inducing some changes in the structure of the latter. NK cells were also tracked over time, displaying the migration path and calculating the speed. The fluorescence intensity of the NK cells was found reduced as soon as they penetrate the spheroid but, conversely, the speed seems to increase inside the spheroid, a possible sign of the fallibility of the tracking algorithm in this specific case. We propose solutions for more sophisticated future implementations, involving the use of marks during the experimental phase and drift corrections at the data analysis level.