Abstract
Introduction: In addition to many cellular processes, Ca(2+) is also involved in tumor initiation, progression, angiogenesis, and metastasis. The development of new tools for single-cell Ca(2+) measurement could open a new avenue for cancer therapy. Methods: The all-solid-state calcium ion-selective microelectrode (Ca(2+)-ISμE) based on carbon fiber modified with PEDOT (PSS) as solid-contact was developed in this work, and the characteristics of the Ca(2+)-ISμE have also been investigated. Results: The Ca(2+)-ISμE exhibits a stable Nernstian response in CaCl(2) solutions in the active range of 1.0 × 10(-8) - 3.1 × 10(-3) M with a low detection limit of 8.9 × 10(-9) M. The Ca(2+)-ISμE can be connected to a patch clamp to fabricate a single-cell analysis platform for in vivo calcium monitoring of a single renal carcinoma cell. The calcium signal decreased significantly (8.6 ± 3.2 mV, n = 3) with severe fluctuations of 5.9 ± 1.8 mV when the concentration of K(+) in the tumor microenvironment is up to 20 mM. Discussion: The results indicate a severe cell response of a single renal carcinoma cell under high K(+) stimuli. The detection system could also be used for single-cell analysis of other ions by changing different ion-selective membranes with high temporal resolution.