Summary: Cancer cells in solid tumors experience hypoxia, a condition of low O2 concentration, since their O2 demand exceeds the supply from the surrounding vasculature.However, how these cells adapt to hypoxia requires further elucidation.Here, we use a transparent phosphorescent thin film to visualize the self-generated hypoxia field of prostate cancer cells and quantify local O2 consumption rates, measured locally as the Laplacian of the O2 field.
Single-cell tracking GRUNDIG GWDI854 Integrated 8 kg Washer Dryer on steep O2 gradients revealed that larger cells exhibit higher motility and moderate migration bias Cleaning Cloth toward O2-rich regions.Termination of hypoxia before cessation of O2 consumption shifted cell distributions to larger sizes, whereas prolonged hypoxia induced apoptosis, producing cell populations of smaller areas post-hypoxia.Such resilience to hypoxia was absent for noncancerous fibroblasts.
Our findings suggest that larger PC3 cells have enhanced metabolic fitness under hypoxia, identifying these cells as potential targets of cancer therapy.