Substrate specificity and inhibitor selectivity of PDE

PDE 的底物特异性和抑制剂选择性

• 批准号: 7921707
• 负责人: Hengming Ke
• 金额: $ 21.75万
• 依托单位: UNIV OF NORTH CAROLINA CHAPEL HILL
• 依托单位国家: 美国
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-09-25 至 2011-07-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7921707
• 关键词: Active Sites; Adenosine; Adverse effects; Asthma; Attention; Binding; Catalytic Domain; Characteristics; Chemicals; Cilostazol; Complex; Crystallography; Cyclic AMP; Cyclic GMP; Cyclic Nucleotides; Disease; Elements; Engineering; Enzymes; Erectile dysfunction; Family; Funding; Genes; Guanosine; Guidelines; Human Genome; Individual; Intermittent Claudication; Measures; Medical; Molecular Conformation; Mutate; Mutation; Nature; Pharmaceutical Preparations; Phosphodiesterase Inhibitors; Property; Protein Engineering; Protein Isoforms; Proteins; Research; Second Messenger Systems; Series; Specificity; Structure; Structure-Activity Relationship; Substrate Specificity; System; Therapeutic Agents; Viagra; analog; design; drug structure; improved; inhibitor/antagonist; insight; member; mutant; pharmacophore; phosphodiesterase IV; phosphoric diester hydrolase; second messenger; sildenafil

DESCRIPTION (provided by applicant): Cyclic nucleotide phosphodiesterases (PDEs) are the key enzymes that control the cellular concentration of "second messengers" adenosine or guanosine 3', 5'-cyclic monophosphate (cAMP or cGMP). The human genome encodes 21 PDE genes and over 60 PDE isoforms categorized into 11 families. All PDEs contain a conserved catalytic domain, but each family possesses individual substrate specificity and selective inhibitors. Selective inhibitors of PDEs have been widely studied as therapeutic agents for various diseases. For example, PDEs inhibitor sildenafil (VIAGRA(tm)) is a drug for erectile dysfunction and PDE3 inhibitor cilostazole (Pletal(tm)) is a drug for intermittent claudication. The wide medical applications of PDE inhibitors have attracted great attention from both academic and industrial research groups. However, it has been mysteries how the similar active sites of PDEs distinguish the different substrates and inhibitors. We hypothesize that the substrate specificity and inhibitor selectivity are determined by both the chemical nature of active site residues and the conformations of the PDE active sites. This proposal chooses cAMP specific PDE4 and cGMP specific PDE5 and PDE9 as the target systems to study the substrate specificity and inhibitor selectivity with approaches of crystallography and protein engineering. The structures of PDE4, PDES and PDE9 in complex with substrate, substrate analogues, and selective inhibitors will be determined. The candidate residues will be switched between PDE4 and PDE5 by a single or multiple mutations for further illustration of the substrate specificity. The structures in this proposal, together with those from the last funding period, will reveal key residues and elements for determination of the substrate specificity and identify potential subpockets contributing to the selective binding of the inhibitors. Since the inhibitor selectivity is a key issue for side effects of drugs, the structures of PDEs in complex with inhibitors will provide templates for design of family- or subfamily-selective inhibitors and ultimately improve the drugs efficiency for treatment of the diseases.

描述（由申请人提供）：环核苷酸磷酸二酯酶（PDE）是控制“第二信使”腺苷或鸟苷3 '，5'-环一磷酸（cAMP或cGMP）细胞浓度的关键酶。人类基因组编码21个PDE基因和60多种PDE亚型，分为11个家族。所有PDE都含有保守的催化结构域，但每个家族都具有各自的底物特异性和选择性抑制剂。PDE的选择性抑制剂已被广泛研究作为各种疾病的治疗剂。例如，PDE抑制剂西地那非（VIAGRA（tm））是用于勃起功能障碍的药物，而PDE 3抑制剂西洛他唑（Pletal（tm））是用于间歇性跛行的药物。PDE抑制剂的广泛医学应用引起了学术界和工业界的极大关注。然而，PDE相似的活性位点如何区分不同的底物和抑制剂一直是个谜。我们推测底物特异性和抑制剂选择性由活性位点残基的化学性质和PDE活性位点的构象决定。本研究选择cAMP特异性的PDE 4和cGMP特异性的PDE 5和PDE 9作为靶系统，利用晶体学和蛋白质工程的方法研究底物特异性和抑制剂选择性。将确定与底物、底物类似物和选择性抑制剂复合的PDE 4、PDE和PDE 9的结构。候选残基将通过单个或多个突变在PDE 4和PDE 5之间切换，以进一步说明底物特异性。本提案中的结构以及上一个供资期的结构将揭示用于确定底物特异性的关键残基和元素，并确定有助于抑制剂选择性结合的潜在亚区。由于抑制剂的选择性是药物副作用的关键问题，与抑制剂复合的PDE的结构将为家族或亚家族选择性抑制剂的设计提供模板，并最终提高药物治疗疾病的效率。