Girard Jean-Marie, Lê K H Diêp, Lederer Florence
Laboratoire d'Enzymologie et Biochimie Structurales, UPR9063, Centre National de la Recherche Scientifique, Avenue de la Terrasse, 91198 Gif-sur-Yvette Cedex, France.
Biochimie. 2006 Dec;88(12):1961-71. doi: 10.1016/j.biochi.2006.08.002. Epub 2006 Sep 14.
Lafora disease is a progressive myoclonus epilepsy with an early fatal issue. Two genes were identified thus far, the mutations of which cause the disease. The first one, EPM2A, encodes the consensus sequence of a protein tyrosine phosphatase. Its product, laforin, is the object of the present work. We analysed in detail the amino acid sequence of this protein. This suggested, as also observed by others, that it could present two domains, a carbohydrate-binding domain (CBM20, known as a starch-binding domain) and the catalytic domain of a dual-specificity protein phosphatase. We produced the enzyme as two different GST-fused proteins and as an N-terminally His-tagged protein. Differences in solubility were observed between the constructs. Moreover, the N-terminal carbohydrate-binding domain contains a thrombin cleavage site, which is hidden in the simplest GST-fusion protein we produced, but was accessible after introducing a five-residue linker between the engineered cleavage site and the enzyme N-terminus. The two types of constructs hydrolyse pNPP and OMFP with kinetic parameters consistent with those of a dual-specificity phosphatase. We show in addition that the protein not only binds glycogen, but also starch, amylose and cyclodextrin. Neither binding of glycogen nor of beta-cyclodextrin appreciably affects the phosphatase activity. These results suggest that the role of the N-terminal domain is rather that of targeting the protein in the cell, probably to glycogen and the protein complexes attached to it, rather than that of directly modulating the catalytic activity.
拉福拉病是一种进行性肌阵挛性癫痫,存在早期致命问题。迄今为止已鉴定出两个基因,其突变会导致该疾病。第一个是EPM2A,编码一种蛋白质酪氨酸磷酸酶的共有序列。其产物拉福林是本研究的对象。我们详细分析了该蛋白质的氨基酸序列。这表明,正如其他人所观察到的,它可能有两个结构域,一个碳水化合物结合结构域(CBM20,即淀粉结合结构域)和一个双特异性蛋白质磷酸酶的催化结构域。我们将该酶制备成两种不同的与谷胱甘肽S-转移酶(GST)融合的蛋白质以及一种N端带有组氨酸标签的蛋白质。在这些构建体之间观察到了溶解性差异。此外,N末端碳水化合物结合结构域包含一个凝血酶切割位点,在我们制备的最简单的GST融合蛋白中该位点是隐藏的,但在工程化切割位点与酶N末端之间引入一个五残基接头后该位点变得可及。这两种类型的构建体以与双特异性磷酸酶一致的动力学参数水解对硝基苯磷酸酯(pNPP)和邻甲基荧光素磷酸酯(OMFP)。我们还表明,该蛋白质不仅结合糖原,还结合淀粉、直链淀粉和环糊精。糖原和β-环糊精的结合均未明显影响磷酸酶活性。这些结果表明,N末端结构域的作用更像是将该蛋白质靶向细胞中的糖原以及附着于其上的蛋白质复合物,而不是直接调节催化活性。
