Research Divisions of Biochemistry and Molecular Biology, Salus University, Elkins Park, PA 19027, USA.
FEBS J. 2010 Jun;277(11):2550-3. doi: 10.1111/j.1742-4658.2010.07670.x.
Atrial natriuretic factor receptor guanylate cyclase (ANF-RGC) is the receptor and the signal transducer of two natriuretic peptide hormones: atrial natriuretic factor and brain natriuretic peptide. It is a single transmembrane-spanning protein. It binds these hormones at its extracellular domain and activates its intracellular catalytic domain. This results in the accelerated production of cyclic GMP, a second messenger in controlling blood pressure, cardiac vasculature and fluid secretion. ATP is obligatory for the transduction of this hormonal signal. Two models of ATP action have been proposed. In Model 1, it is a direct allosteric transducer. It binds to the defined regulatory domain (ATP-regulated module) juxtaposed to the C-terminal side of the transmembrane domain of ANF-RGC, induces a cascade of temporal and spatial changes and activates the catalytic module residing at the C-terminus of the cyclase. In Model 2, before ATP can exhibit its allosteric effect, ANF-RGC must first be phosphorylated by an as yet unidentified protein kinase. This initial step is obligatory in atrial natriuretic factor signaling of ANF-RGC. Until now, none of these models has been directly validated because it has not been possible to segregate the allosteric and the phosphorylation effects of ATP in ANF-RGC activation. The present study accomplishes this aim through a novel probe, staurosporine. This unequivocally validates Model 1 and settles the over two-decade long debate on the role of ATP in ANF-RGC signaling. In addition, the present study demonstrates that the mechanisms of allosteric modification of ANF-RGC by staurosporine and adenylyl-imidodiphosphate, a nonhydrolyzable analog of ATP, are almost (or totally) identical.
心钠素受体鸟苷酸环化酶(ANF-RGC)是两种利钠肽激素:心钠素和脑钠肽的受体和信号转导器。它是一种单一的跨膜蛋白。它在细胞外结构域与这些激素结合,并激活其细胞内催化结构域。这导致环鸟苷酸(cGMP)的加速产生,cGMP 是控制血压、心脏血管和液体分泌的第二信使。ATP 是传递这种激素信号所必需的。已经提出了两种 ATP 作用模型。在模型 1 中,它是一种直接的变构转导物。它与紧邻跨膜结构域 C 端的定义调节结构域(ATP 调节模块)结合,诱导时空变化级联,并激活位于环化酶 C 端的催化模块。在模型 2 中,在 ATP 能够表现出变构效应之前,ANF-RGC 必须首先被一种尚未确定的蛋白激酶磷酸化。这第一步在 ANF-RGC 的心房利钠肽信号转导中是必需的。到目前为止,这些模型都没有被直接验证,因为不可能在 ANF-RGC 激活中分离出 ATP 的变构和磷酸化效应。本研究通过一种新型探针——星形孢菌素实现了这一目标。这明确验证了模型 1,并解决了关于 ATP 在 ANF-RGC 信号转导中的作用的长达二十多年的争论。此外,本研究还表明,星形孢菌素和腺苷酰亚胺二磷酸(ATP 的非水解类似物)对 ANF-RGC 的变构修饰的机制几乎(或完全)相同。