A biomimetic sensor for the determination of extracellular O(2)(-) using synthesized Mn-TPAA on TiO(2) nanoneedle film.

By immobilizing synthesized Mn-TPAA (TPAA=tris[2-[N-(2-pyridylmethyl) amino] ethyl] amine) on TiO(2) nanoneedle surface, a biosensor for superoxide ion (O(2)(-)) has been developed and applied for determination of O(2)(-) released from living cells. Direct electron transfer of Mn-TPAA is realized with a formal redox potential (E°') falling in the range of the E°' values of the redox couples O(2)/O(2)(-) and O(2)(-)/H(2)O(2). This suggests that Mn-TPAA on TiO(2) films is electrochemically active and capable of thermodynamically mediating both the oxidation of O(2)(-) to O(2) and the reduction of O(2)(-) to H(2)O(2). Therefore, Mn-TPAA immobilized on the TiO(2) films can be used electrochemically for determination of O(2)(-) due to its electrochemical activities and biomimetic catalytic activities like superoxide dismutase (SOD) toward O(2)(-). The present biomimetic O(2)(-) sensor shows high selectivity at the low working potential of 0V vs. Ag|AgCl, a wide linear range from 10(-7)M to 10(-4)M and a quick response time within 6s. By taking advantage of the developed method and the properties of biomimetic SOD themselves, we have realized the real-time monitoring of O(2)(-) concentration released from living cells and investigated the relationship between the concentration changes of O(2)(-) and intracelluar Ca(2+), which may gain additional insights on the reactive oxygen species (ROS) signal transduction and other physiological and pathological events.