Baillie G S, MacKenzie S J, McPhee I, Houslay M D
Molecular Pharmacology Group, Division of Biochemistry & Molecular Biology, Davidson & Wolfson Buildings, IBLS, University of Glasgow, Glasgow G12 8QQ.
Br J Pharmacol. 2000 Oct;131(4):811-9. doi: 10.1038/sj.bjp.0703636.
Expressed in intact cells and in vitro, PDE4B and PDE4C isoenzymes of cyclic nucleotide phosphodiesterase (PDE), in common with PDE4D isoenzymes, are shown to provide substrates for C-terminal catalytic unit phosphorylation by the extracellular signal-regulated kinase Erk2 (p42(MAPK)). In contrast, PDE4A isoenzymes do not provide substrates for C-terminal catalytic unit phosphorylation by Erk2. Mutant PDE4 enzymes were generated to show that Erk2 phosphorylation occurs at a single, cognate serine residue located within the C-terminal portion of the PDE4 catalytic unit. PDE4 long-form isoenzymes were markedly inhibited by Erk2 phosphorylation. The short-form PDE4B2 isoenzyme was activated by Erk2 phosphorylation. These functional changes in PDE activity were mimicked by mutation of the target serine for Erk2 phosphorylation to the negatively charged amino acid, aspartic acid. Epidermal growth factor (EGF) challenge caused diametrically opposed changes in cyclic AMP levels in COS1 cells transfected to express the long PDE4B1 isoenzyme compared to cells expressing the short PDE4B2 isoenzyme. We suggest that PDE4 enzymes may provide a pivotal point for integrating cyclic AMP and Erk signal transduction in cells with 4 genes encoding enzymes that are either insensitive to Erk2 action or may either be activated or inhibited. This indicates that PDE4 isoenzymes have distinct functional roles, giving credence to the notion that distinct therapeutic benefits may accrue using either PDE4 subfamily or isoenzyme-selective inhibitors.
在完整细胞和体外实验中,环核苷酸磷酸二酯酶(PDE)的PDE4B和PDE4C同工酶与PDE4D同工酶一样,被证明是细胞外信号调节激酶Erk2(p42(MAPK))使C末端催化单元磷酸化的底物。相比之下,PDE4A同工酶不是Erk2使C末端催化单元磷酸化的底物。生成的突变型PDE4酶表明,Erk2磷酸化发生在PDE4催化单元C末端部分的单个同源丝氨酸残基上。PDE4长形式同工酶受到Erk2磷酸化的显著抑制。短形式的PDE4B2同工酶被Erk2磷酸化激活。将Erk2磷酸化的靶丝氨酸突变为带负电荷的氨基酸天冬氨酸,可模拟PDE活性的这些功能变化。与表达短PDE4B2同工酶的细胞相比,表皮生长因子(EGF)刺激导致转染表达长PDE4B1同工酶的COS1细胞中环磷酸腺苷(cAMP)水平发生截然相反的变化。我们认为,PDE4酶可能是整合cAMP和Erk信号转导的关键点,在细胞中有4个基因编码的酶,它们要么对Erk2作用不敏感,要么可能被激活或抑制。这表明PDE4同工酶具有不同的功能作用,这支持了使用PDE4亚家族或同工酶选择性抑制剂可能产生不同治疗益处的观点。