Spratt Donald E, Taiakina Valentina, Palmer Michael, Guillemette J Guy
Department of Chemistry, University of Waterloo, Waterloo, Ontario N2L 3G1, Canada.
Biochemistry. 2007 Jul 17;46(28):8288-300. doi: 10.1021/bi062130b. Epub 2007 Jun 20.
Calmodulin (CaM) is a Ca2+ signal transducing protein that binds and activates many cellular enzymes with physiological relevance, including the mammalian nitric oxide synthase (NOS) isozymes: endothelial NOS (eNOS), neuronal NOS (nNOS), and inducible NOS (iNOS). The mechanism of CaM binding and activation to the iNOS enzyme is poorly understood in part due to the strength of the bound complex and the difficulty of assessing the role played by regions outside of the CaM-binding domain. To further elucidate these processes, we have developed the methodology to investigate CaM binding to the iNOS holoenzyme and generate CaM mutant proteins selectively labeled with fluorescent dyes at specific residues in the N-terminal lobe, C-terminal lobe, or linker region of the protein. In the present study, an iNOS CaM coexpression system allowed for the investigation of CaM binding to the holoenzyme; three different mutant CaM proteins with cysteine substitutions at residues T34 (N-domain), K75 (central linker), and T110 (C-domain) were fluorescently labeled with acrylodan or Alexa Fluor 546 C5-maleimide. These proteins were used to investigate the differential association of each region of CaM with the three NOS isoforms. We have also N-terminally labeled an iNOS CaM-binding domain peptide with dabsyl chloride in order to perform FRET studies between Alexa-labeled residues in the N- and C-terminal domains of CaM to determine CaM's orientation when associated to iNOS. Our FRET results show that CaM binds to the iNOS CaM-binding domain in an antiparallel orientation. Our steady-state fluorescence and circular dichroism studies show that both the N- and C-terminal EF hand pairs of CaM bind to the CaM-binding domain peptide of iNOS in a Ca2+-independent manner; however, only the C-terminal domain showed large Ca2+-dependent conformational changes when associated with the target sequence. Steady-state fluorescence showed that Alexa-labeled CaM proteins are capable of binding to holo-iNOS coexpressed with nCaM, but this complex is a transient species and can be displaced with the addition of excess CaM. Our results show that CaM does not bind to iNOS in a sequential manner as previously proposed for the nNOS enzyme. This investigation provides additional insight into why iNOS remains active even under basal levels of Ca2+ in the cell.
钙调蛋白(CaM)是一种Ca2+信号转导蛋白,它能结合并激活许多具有生理相关性的细胞酶,包括哺乳动物一氧化氮合酶(NOS)同工酶:内皮型NOS(eNOS)、神经元型NOS(nNOS)和诱导型NOS(iNOS)。CaM与iNOS酶的结合和激活机制尚不清楚,部分原因是结合复合物的强度以及评估CaM结合域外区域所起作用的难度。为了进一步阐明这些过程,我们开发了一种方法来研究CaM与iNOS全酶的结合,并生成在蛋白质N端叶、C端叶或连接区的特定残基处用荧光染料选择性标记的CaM突变蛋白。在本研究中,iNOS CaM共表达系统用于研究CaM与全酶的结合;三种不同的突变CaM蛋白,在T34(N结构域)、K75(中央连接区)和T110(C结构域)残基处有半胱氨酸取代,用丙烯罗丹或Alexa Fluor 546 C5-马来酰亚胺进行荧光标记。这些蛋白用于研究CaM每个区域与三种NOS同工酶的差异结合。我们还用丹磺酰氯对iNOS CaM结合结构域肽进行了N端标记,以便在CaM的N端和C端结构域中Alexa标记的残基之间进行荧光共振能量转移(FRET)研究,以确定CaM与iNOS结合时的方向。我们的FRET结果表明,CaM以反平行方向结合到iNOS CaM结合结构域。我们的稳态荧光和圆二色性研究表明,CaM的N端和C端EF手对都以不依赖Ca2+的方式结合到iNOS的CaM结合结构域肽上;然而,只有C端结构域在与靶序列结合时显示出大的Ca2+依赖性构象变化。稳态荧光表明,Alexa标记的CaM蛋白能够结合到与nCaM共表达的全酶iNOS上,但这种复合物是一种瞬态物种,添加过量的CaM可以将其取代。我们的结果表明,CaM不像先前对nNOS酶所提出的那样以顺序方式结合到iNOS上。这项研究为iNOS即使在细胞内Ca2+基础水平下仍保持活性的原因提供了更多见解。
