Sobczak Adam, Blazejczyk Magdalena, Piszczek Grzegorz, Zhao Gang, Kuznicki Jacek, Wojda Urszula
Laboratory of Neurodegeneration, International Institute of Molecular and Cell Biology, Warsaw, Poland.
Acta Biochim Pol. 2005;52(2):469-76. Epub 2005 Jun 1.
The EF-hand Ca(2+)-binding protein calmyrin is expressed in many tissues and can interact with multiple effector proteins, probably as a sensor transferring Ca(2+) signals. As oligomerization may represent one of Ca(2+)-signal transduction mechanisms, we characterised recombinant calmyrin forms using non-reducing SDS/PAGE, analytical ultracentrifugation and gel filtration. We also aimed at identification of biologically active calmyrin forms. Non-reducing SDS/PAGE showed that in vitro apo- and Ca(2+)-bound calmyrin oligomerizes forming stable intermolecular disulfide bridges. Ultracentrifugation indicated that at a 220 microM initial protein concentration apo-calmyrin existed in an equilibrium of a 21.9 kDa monomer and a 43.8 kDa dimer (trimeric or tetrameric species were not detected). The dimerization constant was calculated as Ka = 1.78 x 103 M(-1) at 6 degrees C. Gel filtration of apo- and Ca(2+)-bound calmyrin at a 100 microM protein concentration confirmed an equilibrium of a monomer and a covalent dimer state. Importantly, both monomer and dimer underwent significant conformational changes in response to binding of Ca(2+). However, when calmyrin forms were analyzed under non-reducing conditions in cell extracts by Western blotting, only monomeric calmyrin was detected in human platelets and lymphocytes, and in rat brain. Moreover, in contrast to recombinant calmyrin, crosslinking did not preserve any dimeric species of calmyrin regardless of Ca(2+) concentrations. In summary, our data indicate that although calmyrin forms stable covalent dimers in vitro, it most probably functions as a monomer in vivo.
EF 手型钙离子结合蛋白钙调素在许多组织中表达,并且可能作为传递钙离子信号的传感器与多种效应蛋白相互作用。由于寡聚化可能是钙离子信号转导机制之一,我们使用非还原 SDS/PAGE、分析超速离心和凝胶过滤对重组钙调素形式进行了表征。我们还旨在鉴定具有生物活性的钙调素形式。非还原 SDS/PAGE 表明,体外脱辅基和结合钙离子的钙调素发生寡聚化,形成稳定的分子间二硫键。超速离心表明,在 220 μM 的初始蛋白浓度下,脱辅基钙调素以 21.9 kDa 的单体和 43.8 kDa 的二聚体处于平衡状态(未检测到三聚体或四聚体形式)。在 6℃时,二聚化常数计算为 Ka = 1.78×10³ M⁻¹。在 100 μM 的蛋白浓度下对脱辅基和结合钙离子的钙调素进行凝胶过滤,证实了单体和共价二聚体状态的平衡。重要的是,单体和二聚体在结合钙离子时都会发生显著的构象变化。然而,当在非还原条件下通过 Western 印迹分析细胞提取物中的钙调素形式时,在人血小板、淋巴细胞和大鼠脑中仅检测到单体钙调素。此外,与重组钙调素相反,无论钙离子浓度如何,交联都不会保留任何钙调素的二聚体形式。总之,我们的数据表明,尽管钙调素在体外形成稳定的共价二聚体,但它在体内很可能以单体形式发挥作用。
