![Sample our Behavioral Sciences journals, sign in here to start your access, latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/110801/TOC-Subject-Sample-2021-Behavioral-Sciences.jpg"})
Abstract
Magnesium ions (Mg2+) play a fundamental role in cellular function, but the cellular dynamic changes of intracellular Mg2+ remain poorly delineated. The present study aims to clarify whether the concentration of intracellular Mg2+ possibly changes cyclically in association with rhythmic contraction and intracellular Ca2+ oscillation in cultured cardiac myocytes from neonatal rats. To do this, we performed a noise analysis of fluctuations in the concentration of intracellular Mg2+ in cardiac myocytes. The concentration was estimated by loading cells with either Mg‐fluo4/AM or KMG‐20/AM. Results revealed that the intensity of Mg‐fluo‐4 or KMG‐20 fluorescence fluctuated cyclically in association with the rhythmic contraction of cardiac myocytes. In addition, the simultaneous measurement of Fura2 and Mg‐fluo‐4 fluorescence revealed phase differences between the dynamics of the two signals, suggesting that the cyclic changes in the Mg‐fluo‐4 or KMG‐20 fluorescent intensity actually reflected the changes in intracellular Mg2+. The complete termination of spontaneous rhythmic contractions did not abolish Mg2+ oscillations, suggesting that the rhythmic fluctuations in intracellular Mg2+ did not result from mechanical movements. We suggest that the concentration of intracellular Mg2+ changes cyclically in association with spontaneous, cyclic changes in the concentration of intracellular Ca2+ of cardiac myocytes. A noise analysis of the fluctuation of subtle changes in fluorescence intensity could contribute to the elucidation of novel functional roles of Mg2+ in cells.