Merger of dynamic two-photon and phosphorescence lifetime microscopy reveals dependence of lymphocyte motility on oxygen in solid and hematological tumors.
Mateusz RytelewskiKarine HaryutyunanFelix NwajeiMeenakshi ShanmugasundaramPatrick WspanialyM Anna ZalChao-Hsien ChenMirna El KhatibShane PlunkettSergei A VinogradovMarina KonoplevaTomasz ZalPublished in: Journal for immunotherapy of cancer (2019)
This study demonstrates a versatile and highly contextual FaST-PLIM method for phosphorescence lifetime-based oxygen imaging in living animal tumor immunology models. The initial results of this method application to ALL and solid lung tumor models highlight the importance of oxygen supply for the maintenance of intratumoral T cell migration, define a 5 mmHg local oxygen concentration threshold for TIL motility, and demonstrate efficacy of supplementary oxygen breathing in TIL motility enhancement coincident with reduction of tumor hypoxia.