Jing Meng, Verardi Raffaello, Veglia Gianluigi, Bowser Michael T
Department of Chemistry, University of Minnesota, Minneapolis, Minnesota 55455.
Department of Biochemistry, Molecular Biology, and Biophysics, University of Minnesota, Minneapolis, Minnesota 55455.
Anal Methods. 2014 Mar 7;6(5):1468-1474. doi: 10.1039/C3AY41808A.
Various isoforms of sarco(endo)plasmic reticulum Ca-ATPase (SERCA) regulate Ca homeostatic balance in both the heart (SERCA2a) and skeletal muscle (SERCA1a). Ca plays a key role in these tissues as an intracellular signal that controls contractility. Due to its key role in the contractility cycle, SERCA is emerging as a promising pharmacological target to modulate heart muscle function. SERCA function is regulated by its endogenous inhibitor phospholamban (PLN). Upon binding, PLN decreases SERCA's apparent affinity for Ca. Therefore the interaction between PLN and SERCA has an important role in determining both physiological and pathological conditions. Quantifying the inhibitory potency of PLN is of great importance in understanding the pathophysiology of heart muscle. Traditionally, SERCA activity assays have been performed using a PK/LDH-coupled enzyme reaction, which suffers from limited sensitivity. We have developed a new SERCA activity assay based on the direct detection of the product ADP via time resolved FRET (TR-FRET). Under optimized conditions, our assay reduced the amount of SERCA required to perform the assay 1,000-fold. Inter-day reproducibility was shown to be excellent for SERCA preparations in either detergent (CE) or reconstituted lipids. The inhibitory effect of PLN on SERCA measured under the low-concentration conditions of our assay allowed us to more accurately investigate the binding between PLN and SERCA. Significant inhibitory effects of PLN were observed even at mid-nanomolar concentrations significantly lower than previous K estimates for the SERCA-PLN complex.
肌浆网/内质网Ca-ATP酶(SERCA)的多种同工型调节心脏(SERCA2a)和骨骼肌(SERCA1a)中的Ca稳态平衡。Ca作为控制收缩性的细胞内信号,在这些组织中起关键作用。由于其在收缩周期中的关键作用,SERCA正成为调节心肌功能的一个有前景的药理学靶点。SERCA的功能受其内源性抑制剂受磷蛋白(PLN)的调节。结合后,PLN降低SERCA对Ca的表观亲和力。因此,PLN与SERCA之间的相互作用在决定生理和病理状况方面具有重要作用。量化PLN的抑制效力对于理解心肌的病理生理学非常重要。传统上,SERCA活性测定是使用PK/LDH偶联酶反应进行的,其灵敏度有限。我们开发了一种基于通过时间分辨荧光共振能量转移(TR-FRET)直接检测产物ADP的新的SERCA活性测定方法。在优化条件下,我们的测定方法将进行测定所需的SERCA量减少了1000倍。对于在去污剂(CE)或重构脂质中的SERCA制剂,日间重现性显示极佳。在我们测定的低浓度条件下测量的PLN对SERCA的抑制作用使我们能够更准确地研究PLN与SERCA之间的结合。即使在远低于先前SERCA-PLN复合物K估计值的中纳摩尔浓度下,也观察到PLN有显著的抑制作用。