Lee Sung H, Altenberg Guillermo A
Membrane Protein Laboratory, Sealy Center for Structural Biology and Department of Physiology and Biophysics, The University of Texas Medical Branch, Galveston, TX 77555-0437, USA.
Biochem J. 2003 Feb 15;370(Pt 1):357-60. doi: 10.1042/BJ20021452.
Overexpression of multidrug resistance protein 1 (MRP1), an ATP-binding cassette protein, causes multidrug resistance. We developed a functional cysteine-less version of MRP1 that provides a framework for detailed biochemical and biophysical studies. The 18 Cys residues of a truncated MRP1 (tMRP1; lacking the first multispanning transmembrane domain) were replaced with Ala to generate Cys-less tMRP1 (CL tMRP1). CL tMRP1 expressed in Saccharomyces cerevisiae membranes displayed high-affinity ATP-dependent transport of the MRP1 substrate leukotriene C4. Compared with full-length MRP1, the K m for leukotriene C4 transport by CL tMRP1 was increased approximately 3-fold, while V max was not affected. Thus a functional CL tMRP1 can be expressed using a low-cost and rapid-generation yeast expression system. This Cys-less protein can be used for biochemical, spectroscopic and structural studies to elucidate the mechanism of drug transport by MRP1.
多药耐药蛋白1(MRP1)是一种ATP结合盒蛋白,其过表达会导致多药耐药。我们开发了一种无半胱氨酸的功能性MRP1版本,为详细的生化和生物物理研究提供了一个框架。将截短的MRP1(tMRP1;缺少第一个多跨膜结构域)的18个半胱氨酸残基替换为丙氨酸,以生成无半胱氨酸的tMRP1(CL tMRP1)。在酿酒酵母膜中表达的CL tMRP1表现出对MRP1底物白三烯C4的高亲和力ATP依赖性转运。与全长MRP1相比,CL tMRP1转运白三烯C4的K m增加了约3倍,而V max不受影响。因此,可以使用低成本且快速生成的酵母表达系统来表达功能性CL tMRP1。这种无半胱氨酸的蛋白可用于生化、光谱和结构研究,以阐明MRP1的药物转运机制。