[Metabolites of long-time preserved-acutely isolated rat cardiomyocytes affect L-type Ca2+ channel current.] [Article in Chinese]
YUE Zhi-Jie, Sheng Juan-Juan, Xie Man-Jiang, YU Zhi-Bin*
Key Laboratory of Aerospace Medicine, Ministry of Education; Department of Aerospace Physiology, the Fourth Military Medical University, Xi’an 710032, China
Abstract
The variability of peak current of L-type calcium channel (I(Ca,L)) shows an increase in cardiomyocytes after 6 h of preservation when the acutely isolated cardiomyocytes are preserved in a small volume buffer solution. The mechanism of the increased variability of I(Ca,L) is not clear. In order to obtain more accurately and stably experimental data of I(Ca,L), the aim of this study was to observe the pH changes of preservation buffer solution with acutely isolated rat cardiomyocytes, and the effects of pH changes on the shape of cardiomyocytes, the function of mitochondria and the gating property of L-type calcium channel. The results indicated that the pH was kept stable in 100 mL buffer solution, but was decreased from 7.20 to 6.95 in 20 mL buffer solution during 10 h of cardiomyocyte preservation. Therefore, 100 mL or 20 mL preservation solution was used as a normal control or acidotic group, respectively. The ratio of abnormal to normal rod-shaped cardiomyocytes increased in the acidotic group after 6 h of preservation. The acidosis induced a reduction in mitochondrial membrane potential indicated by JC-1 fluorescent probe after 8 h of cardiomyocyte preservation. The acidosis also shifted the autofluorescence of NADPH from blue to green after 8 h of cardiomyocyte preservation. The above changes in mitochondrial function induced a significant decrease in the peak I(Ca,L) and a shift in the clamped voltage at peak I(Ca,L) from +10 mV to 0 mV, after 10 h of cardiomyocyte preservation. These results suggest that the best way to preserve acutely isolated cardiomyocytes is to use a larger volume buffer system. In order to get stable peak I(Ca,L), we need to not only select a normal shape of cardiomyocyte at a bright field but also a blue fluorescent myocyte at an ultraviolet excitation.
Key words: Cardiomyocyte; acidosis; mitochondrial membrane potential; L-type calcium channel
Received: 2012-05-12 Accepted: 2012-06-30
Corresponding author: 余志斌 E-mail: yuzhib@fmmu.edu.cn
Citing This Article:
YUE Zhi-Jie, Sheng Juan-Juan, Xie Man-Jiang, YU Zhi-Bin. [Metabolites of long-time preserved-acutely isolated rat cardiomyocytes affect L-type Ca2+ channel current.] [Article in Chinese]. Acta Physiol Sin 2013; 65 (1): 83-88 (in Chinese with English abstract).