基于结构的低纳摩尔PIM激酶抑制剂设计

Structure-based design of low-nanomolar PIM kinase inhibitors.

作者信息

Ishchenko Alexey, Zhang Lin, Le Brazidec Jean-Yves, Fan Junhua, Chong Jer Hong, Hingway Aparna, Raditsis Annie, Singh Latika, Elenbaas Brian, Hong Victor Sukbong, Marcotte Doug, Silvian Laura, Enyedy Istvan, Chao Jianhua

机构信息

Biogen Idec, 14 Cambridge Center, Cambridge, MA 02142, USA.

出版信息

Bioorg Med Chem Lett. 2015 Feb 1;25(3):474-80. doi: 10.1016/j.bmcl.2014.12.041. Epub 2014 Dec 19.

DOI:10.1016/j.bmcl.2014.12.041

PMID:25575657

Abstract

PIM kinases are implicated in variety of cancers by promoting cell survival and proliferation and are targets of interest for therapeutic intervention. We have identified a low-nanomolar pan-PIM inhibitor (PIM1/2/3 potency 5:14:2nM) using structure based modeling. The crystal structure of this compound with PIM1 confirmed the predicted binding mode and protein-ligand interactions except those in the acidic ribose pocket. We show the SAR suggesting the importance of having a hydrogen bond donor in this pocket for inhibiting PIM2; however, this interaction is not important for inhibiting PIM1 or PIM3. In addition, we report the discovery of a new class of PIM inhibitors by using computational de novo design tool implemented in MOE software (Chemical Computing Group). These inhibitors have a different interaction profile.

摘要

PIM激酶通过促进细胞存活和增殖与多种癌症相关，是治疗干预的重要靶点。我们通过基于结构的建模鉴定出一种低纳摩尔的泛PIM抑制剂（对PIM1/2/3的抑制效力分别为5:14:2 nM）。该化合物与PIM1的晶体结构证实了预测的结合模式和蛋白质-配体相互作用，但酸性核糖口袋中的相互作用除外。我们展示的构效关系表明，该口袋中存在氢键供体对于抑制PIM2很重要；然而，这种相互作用对于抑制PIM1或PIM3并不重要。此外，我们报告了通过使用MOE软件（化学计算集团）中实现的计算从头设计工具发现的一类新型PIM抑制剂。这些抑制剂具有不同的相互作用模式。

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基于结构的低纳摩尔PIM激酶抑制剂设计

Structure-based design of low-nanomolar PIM kinase inhibitors.

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