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首页> 外文期刊>Journal of Medicinal Chemistry >Structure-Based Design of Selective beta-Site Amyloid Precursor Protein Cleaving Enzyme 1 (BACE1) Inhibitors: Targeting the Flap to Gain Selectivity over BACE2
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Structure-Based Design of Selective beta-Site Amyloid Precursor Protein Cleaving Enzyme 1 (BACE1) Inhibitors: Targeting the Flap to Gain Selectivity over BACE2

机译:基于结构的选择性β-位点淀粉样蛋白前体蛋白质切割酶1(BACE1)抑制剂:靶向翼片以获得对BACE2的选择性

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摘要

BACE1 inhibitors hold potential as agents in disease-modifying treatment for Alzheimer's disease. BACE2 cleaves the melanocyte protein PMEL in pigment cells of the skin and eye, generating melanin pigments. This role of BACE2 implies that nonselective and chronic inhibition of BACE1 may cause side effects derived from BACE2. Herein, we describe the discovery of potent and selective BACE1 inhibitors using structure-based drug design. We targeted the flap region, where the shape and flexibility differ between these enzymes. Analysis of the cocrystal structures of an initial lead 8 prompted us to incorporate spirocycles followed by its fine-tuning, culminating in highly selective compounds 21 and 22. The structures of 22 bound to BACE1 and BACE2 revealed that a relatively high energetic penalty in the flap of the 22-bound BACE2 structure may cause a loss in BACE2 potency, thereby leading to its high selectivity. These findings and insights should contribute to responding to the challenges in exploring selective BACE1 inhibitors.
机译:Bace1抑制剂占Alzheimer疾病的疾病改性治疗中的药物。 Bace2在皮肤和眼睛的颜料细胞中切割黑素细胞蛋白质pmel,产生黑色素颜料。 Bace2的这种作用意味着Bace1的非选择性和慢性抑制可能导致衍生自Bace2的副作用。在此,我们描述了使用基于结构的药物设计的有效和选择性Bace1抑制剂的发现。我们瞄准了翼片区域,其中这些酶之间的形状和柔韧性不同。初始引线8的COCrystal结构分析促使我们掺入螺栓胶质,然后掺入其微调,在高度选择性化合物21和22中。22的结构与Bace1和Bace2结合的结构表明襟翼中的相对高的能量罚款在22个结合的BACE2结构中可能导致Bace2效力的损失,从而导致其高选择性。这些调查结果和见解应该有助于应对探索选择性Bace1抑制剂的挑战。

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  • 来源
    《Journal of Medicinal Chemistry》 |2019年第10期|共16页
  • 作者

    Fujimoto Kazuki; Matsuoka Eriko; Asada Naoya; Tadano Genta; Yamamoto Takahiko; Nakahara Kenji; Fuchino Kouki; Ito Hisanori; Kanegawa Naoki; Moechars Diederik; Gijsen Harrie J. M.; Kusakabe Ken-ichi;

  • 作者单位

    Shionogi Pharmaceut Res Ctr Discovery Res Lab Core Therapeut Areas 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

    Shionogi Pharmaceut Res Ctr Discovery Res Lab Core Therapeut Areas 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

    Shionogi Pharmaceut Res Ctr Discovery Res Lab Core Therapeut Areas 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

    Shionogi Pharmaceut Res Ctr Discovery Res Lab Core Therapeut Areas 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

    Shionogi Pharmaceut Res Ctr Discovery Res Lab Core Therapeut Areas 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

    Shionogi Pharmaceut Res Ctr Discovery Res Lab Core Therapeut Areas 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

    Shionogi Pharmaceut Res Ctr Discovery Res Lab Core Therapeut Areas 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

    Shionogi Pharmaceut Res Ctr Discovery Res Lab Core Therapeut Areas 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

    Shionogi Pharmaceut Res Ctr Res Lab Dev 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

    Janssen Res &

    Dev Neurosci Biol Turnhoutseweg 30 B-2340 Beerse Belgium;

    Janssen Res &

    Dev Discovery Chem Turnhoutseweg 30 B-2340 Beerse Belgium;

    Shionogi Pharmaceut Res Ctr Discovery Res Lab Core Therapeut Areas 1-1 Futaba Cho 3 Chome Toyonaka Osaka 5610825 Japan;

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  • 正文语种 eng
  • 中图分类 药学;
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