Calpain Project, Department of Advanced Science for Biomolecules, Tokyo Metropolitan Institute of Medical Science, 2-1-6 Kami-kitazawa, Setagaya-ku, Tokyo, 156-8506, Japan.
Genes Cells. 2013 Sep;18(9):753-63. doi: 10.1111/gtc.12071. Epub 2013 Jun 21.
Calpains comprise a superfamily of Ca(2+) -regulated cysteine proteases that are indispensable for the regulation of various cellular functions. Of these, the mammalian μ- and m-calpains are the best characterized isoforms. They are ubiquitously expressed and form heterodimers consisting of a distinct 80-kDa catalytic subunit (CAPN1 for μ-calpain and CAPN2 for m-calpain) and a common 30-kDa regulatory subunit (CAPNS1). To date, various expression systems have been developed for producing recombinant calpains for structural and functional studies; however, no low-cost, simple and efficient bacterial expression system for μ-calpain has been available, because the protein forms aggregates. Here, we established an efficient method for producing active recombinant human μ-calpain using an Escherichia coli expression system. This was achieved by co-expressing CAPN1 and CAPNS1 lacking the N-terminal Gly-rich domain (CAPNS1ΔGR) in the SoluBL21 strain. From 1 L of E. coli culture, over 2 and 6 mg, respectively, of μ-calpain and its active-site mutant μ-calpain:C115S (CAPN1:C115S+CAPNS1ΔGR) were purified by two successive column chromatographies. Compared to the native enzyme, the purified μ-calpain showed almost identical properties, demonstrating its suitability for use in structural and functional studies. This is the first report of the bacterial expression and the simple and efficient purification of active recombinant μ-calpain.
钙蛋白酶包含一组钙(Ca 2+)调节的半胱氨酸蛋白酶超家族,对于调节各种细胞功能是不可或缺的。其中,哺乳动物的 μ-和 m-钙蛋白酶是特征最为明确的同工型。它们广泛表达,并形成由独特的 80 kDa 催化亚基(CAPN1 用于 μ-钙蛋白酶和 CAPN2 用于 m-钙蛋白酶)和共同的 30 kDa 调节亚基(CAPNS1)组成的异二聚体。迄今为止,已经开发了各种表达系统来生产用于结构和功能研究的重组钙蛋白酶;然而,由于蛋白质形成聚集体,因此没有用于 μ-钙蛋白酶的低成本、简单且高效的细菌表达系统。在这里,我们使用大肠杆菌表达系统建立了生产活性重组人 μ-钙蛋白酶的有效方法。这是通过在 SoluBL21 菌株中共同表达缺乏 N 端甘氨酸丰富域的 CAPN1 和 CAPNS1(CAPNS1ΔGR)来实现的。从 1 L 的大肠杆菌培养物中,分别纯化出超过 2 和 6 mg 的 μ-钙蛋白酶及其活性位点突变体 μ-calpain:C115S(CAPN1:C115S+CAPNS1ΔGR),通过两次连续的柱层析。与天然酶相比,纯化的 μ-钙蛋白酶表现出几乎相同的性质,表明其适用于结构和功能研究。这是首次报道细菌表达和活性重组 μ-钙蛋白酶的简单高效纯化。
