Design, synthesis and application of polarity- and pH-sensitive dual-responsive small molecule fluorescent probe for early cancer diagnosis

Cancer is one of the deadliest and most complex diseases globally. It is well known that cancer cells exhibit a unique intracellular microenvironment characterized by low pH and low polarity compared to normal cells. Thus, dual-responsive fluorescent probe are more suitable for such complex and variable physiological environments than single-response probe. In this study, we designed and synthesized a dual-responsive fluorescent probe, CCT, which responds to both pH and polarity based on intramolecular charge transfer (ICT) and photoelectron transfer (PET) mechanisms.We synthesized probe CCT by combining naphthylimide, a coumarin unit, and morpholine through a six-step process. The PET mechanism between morpholine and naphthylimide renders probe CCT pH-sensitive. Additionally, the direct linkage of the polarity-sensitive units, coumarin and naphthylimide, creates a larger polarity-sensitive system. When both low pH and low polarity conditions are present, the fluorescence intensity of probe CCT is significantly higher than under separate conditions. This increased fluorescence intensity matches the low pH and low polarity microenvironment of cancer cells, facilitating bioimaging.Fluorescence imaging results demonstrate that probe CCT effectively distinguishes between cancer and normal cells, suggesting its potential as a powerful tool for early cancer diagnosis.