Optical sensor revealed abnormal nuclease spatial activity on cancer cell membrane

Nucleases are important enzymes that cleave nucleic acids and play critical roles in DNA repair, immune defense and potentially in cancer invasion. However, their spatial dynamics at subcellular level is much less studied. Here, we developed a surface‐tethered nuclease sensor (SNS) which directly converts membrane‐bound nuclease (MN) activity to fluorescent signal, therefore, mapping MN activity on cell adhesion sites with high resolution and sensitivity. With SNS, we studied MN activity on the ventral membrane of cancer cells, where MN activity initially occurs in punctate regions and advances in a coral‐shaped pattern. In six tested cell‐lines, the MN activity levels in cancer cells are significantly higher than those in non‐cancer cells. We then tested SNS as a sensitive approach to detect cancer cells at single cell level. Single breast cancer cells were successfully detected from thousands of adherent non‐cancer cells and from millions of non‐adherent blood cells. [Image: see text]