Huang L Y, Tholanikunnel B G, Vakalopoulou E, Malbon C C
Department of Pharmacology, School of Medicine, State University of New York, Stony Brook 11794-8651.
J Biol Chem. 1993 Dec 5;268(34):25769-75.
Delineating the molecular basis for agonist-induced destabilization of mRNA of G-protein-linked receptors that contributes to receptor down-regulation is fundamental to our understanding of long-term regulation of receptors by agonist. Previously we identified a prominent, M(r) 35,000 cytosolic RNA-binding protein that (i) binds selectively to beta 1 and beta 2-adrenergic receptor mRNAs, both of which undergo agonist-induced down-regulation; (ii) does not bind either to alpha 1b-adrenergic receptor mRNA, which does not undergo agonist-induced down-regulation, or to beta-globin mRNA; (iii) displays binding to beta 2-adrenergic receptor mRNA that is selectively competed by poly(U) RNA, but not poly(A),-(C), or -(G) RNA; and (iv) its abundance varies inversely with the level of receptor mRNA, being induced by agonists that down-regulate receptor mRNA (Port, J. D., Huang, L.-y., and Malbon (1992) J. Biol. Chem. 267, 24103-24108). We demonstrate here that the binding of beta-adrenergic receptor mRNA by this protein, termed beta-ARB protein, is sensitive to competition by AU-rich domains of the 3'-untranslated regions of c-fos, c-myc, and human granulocyte-macrophage colony-stimulating factor. Using the AU-rich 3'-untranslated regions of wild-type adenovirus IVa2 mRNA and variants with defined mutations in the AUUUApentamer, AU-rich, and U-rich domains, we were able to define sequences critical to the binding of the beta 2-receptor mRNA by the beta-ARB protein. Recognition of beta-ARB protein requires not only an AUUUA destabilization pentamer, but also a flanking U-rich domain(s). Using radiolabeled 3'-untranslated regions of short-lived mRNA, we were able to identify this same M(r) 35,000 cytosolic RNA-binding protein(s), beta-ARB protein, as selective for beta 2-adrenergic receptor mRNA.
阐明激动剂诱导的G蛋白偶联受体mRNA不稳定的分子基础,这一过程有助于受体下调,对于我们理解激动剂对受体的长期调节至关重要。此前我们鉴定出一种显著的、分子量为35000的胞质RNA结合蛋白,它(i)选择性结合β1和β2肾上腺素能受体mRNA,这两种受体mRNA都会经历激动剂诱导的下调;(ii)既不结合不经历激动剂诱导下调的α1b肾上腺素能受体mRNA,也不结合β-珠蛋白mRNA;(iii)显示出与β2肾上腺素能受体mRNA的结合,这种结合可被聚(U)RNA选择性竞争,但不能被聚(A)、聚(C)或聚(G)RNA竞争;(iv)其丰度与受体mRNA水平呈负相关,可被下调受体mRNA的激动剂诱导(波特,J.D.,黄,L.-y.,和马尔邦(1992年)《生物化学杂志》267,24103 - 24108)。我们在此证明,这种被称为β-ARB蛋白的蛋白质与β肾上腺素能受体mRNA的结合,对来自c-fos、c-myc和人粒细胞 - 巨噬细胞集落刺激因子3'非翻译区富含AU结构域的竞争敏感。利用野生型腺病毒IVa2 mRNA的富含AU的3'非翻译区以及在AUUUApentamer、富含AU和富含U结构域中有特定突变的变体,我们能够确定对β-ARB蛋白结合β2受体mRNA至关重要的序列。β-ARB蛋白的识别不仅需要一个AUUUA不稳定五聚体,还需要一个侧翼富含U的结构域。利用短命mRNA的放射性标记3'非翻译区,我们能够鉴定出这种分子量为35000的相同胞质RNA结合蛋白,即β-ARB蛋白,它对β2肾上腺素能受体mRNA具有选择性。
