Bregman D B, Hirsch A H, Rubin C S
Department of Molecular Pharmacology, Atran Laboratories, Albert Einstein College of Medicine, Bronx, New York 10461.
J Biol Chem. 1991 Apr 15;266(11):7207-13.
In mammalian brain, physiological signals carried by cAMP seem to be targeted to intraneuronal sites by the association of cAMP-dependent protein kinase II beta with anchoring proteins that bind the regulatory subunit (RII beta) of the enzyme. Previously, an RII beta-binding domain was characterized in a large (Mr approximately 150,000) candidate anchor protein, rat brain P150 (Bregman, D. B., Bhattacharyya, N., and Rubin, C. S. (1989) J. Biol. Chem. 264, 4648-4656). RII beta-binding proteins with Mr values of 65,000-80,000 were detected in the brains of other species. Since little was known about the structural features of these lower Mr proteins, we undertook the characterization of bovine brain P75 as a prototype. A cDNA encoding 258 amino acid residues at the C terminus of P75 was cloned by probing a lambda gt11 expression library with 32P-RII beta. The cDNA insert was ligated into the pET-3b expression plasmid, and large amounts of the partial P75 polypeptide (designated P47) were produced in Escherichia coli. A purification scheme that yielded 9 mg of soluble P47 from a 1-liter bacterial culture was devised. Antibodies directed against the P47 polypeptide revealed that P75 is expressed almost exclusively in brain. The sequence of 117 amino acid residues at the C terminus of P75 contains the RII beta-binding site and is 80% identical to the corresponding region of P150. In contrast, a lower level of identity (36%) between P75 and P150 at a more N-terminal region indicates that the two RII beta-binding proteins are related, but distinct proteins. P75 is not homologous to microtubule-associated protein 2, an RII alpha-selective binding protein, or any other previously studied proteins. C-terminal truncation analysis disclosed that the final 26 residues in P75 are essential for binding RII beta.
在哺乳动物大脑中,由环磷酸腺苷(cAMP)携带的生理信号似乎通过环磷酸腺苷依赖性蛋白激酶IIβ(cAMP-dependent protein kinase II beta)与结合该酶调节亚基(RIIβ)的锚定蛋白的结合,被靶向到神经元内位点。此前,在一种大分子量(约150,000)的候选锚定蛋白大鼠脑P150中鉴定出一个RIIβ结合结构域(Bregman, D. B., Bhattacharyya, N., and Rubin, C. S. (1989) J. Biol. Chem. 264, 4648 - 4656)。在其他物种的大脑中检测到分子量为65,000 - 80,000的RIIβ结合蛋白。由于对这些较低分子量蛋白的结构特征了解甚少,我们以牛脑P75作为原型进行了表征。通过用³²P-RIIβ探测λgt11表达文库,克隆了一个编码P75 C末端258个氨基酸残基的cDNA。将该cDNA插入片段连接到pET-3b表达质粒中,在大肠杆菌中产生了大量的部分P75多肽(命名为P47)。设计了一种从1升细菌培养物中获得9毫克可溶性P47的纯化方案。针对P47多肽的抗体显示P75几乎只在大脑中表达。P75 C末端117个氨基酸残基的序列包含RIIβ结合位点,与P150的相应区域有80%的同一性。相比之下,P75和P150在更靠近N末端区域的同一性较低(36%),这表明这两种RIIβ结合蛋白相关但不同。P75与微管相关蛋白2(一种RIIα选择性结合蛋白)或任何其他先前研究过的蛋白均无同源性。C末端截短分析表明,P75中最后26个残基对于结合RIIβ至关重要。
