Transcription of the SERCA2 Gene is Decreased in Pressure-overloaded Hearts: A Study Using In Vivo Direct Gene Transfer into Living Myocardium

T. Takizawa, M. Arai, A. Yoguchi, K. Tomaru, M. Kurabayashi and R. Nagai. Transcription of the SERCA2 Gene is Decreased in Pressure-overloaded Hearts: A Study Using In Vivo Direct Gene Transfer into Living Myocardium.Journal of Molecular and Cellular Cardiology (1999) 31, 2167–2174. The sarcoplasmic reticulum Ca2+-ATPase (SERCA2) controls the myocardial relaxation process. Under pressure-overload, the expression of its mRNA decreases, thus controlling cardiac function to conform to the load. However, it is not known whether this decreased expression is caused by a decrease in the transcription of the SERCA2 gene. The object of this study was to determine the transcription control mechanism of the SERCA2 gene under pressure-overload in vivo, and to identify the pressure-overload-sensitive regions of the SERCA2 gene. Ten micrograms of a plasmid, containing the 5′ upstream (−1810 bp to +350 bp) region of the SERCA2 gene and a luciferase reporter gene, were introduced into adult rat myocardium by in vivo direct gene transfer, and the luciferase activity was measured 5 days later. The transcriptional activity under pressure-overload decreased to 27±17% of the control. Based on this result, we concluded that the decreased mRNA expression of SERCA2 in pressure-overload cardiac hypertrophy is due to decreased gene transcription. In addition, various deletion fragments of the SERCA2 promoter region were produced, and tested for luciferase production under pressure-overload. Our data suggest that a transcription activation site is present between −685 and −284 bp, and two transcription inhibition sites are present between −1810 to −1110 bp and −284 to −72 bp. These may be the pressure-sensitive regions of the SERCA2 gene of in vivo hypertrophied myocardium under pressure-overload.