Development of a novel NIR-II fluorescence probe for monitoring serum albumin fluctuation in cerebra neurotoxicity induced by manganese exposure

Manganese is essential for various biological functions; however, excessive exposure can lead to significant health risks, particularly brain neurotoxicity. Understanding manganese-induced alterations in brain serum protein levels and brain function is crucial for elucidating the mechanisms underlying manganese neurotoxicity. To address this, we developed a novel NIR-II fluorescent probe, RSM, characterized by robust binding to serum albumin and high sensitivity. Using RSM, we observed that heightened BSA uptake in cells exposed to elevated manganese concentrations relative to those exposed to lower levels. Furthermore, we successfully detected changes in serum albumin levels induced by manganese neurotoxicity in brain tissue through in situ NIR-II fluorescence imaging. Our findings establish an association between augmented manganese-induced neurotoxicity and elevated serum albumin content in the brain. This work provides a valuable tool for further investigating the mechanisms of toxic molecules.