通过预测性化学基因组学鉴定PDE3A的癌症细胞毒性调节剂。

Identification of cancer-cytotoxic modulators of PDE3A by predictive chemogenomics.

作者信息

de Waal Luc, Lewis Timothy A, Rees Matthew G, Tsherniak Aviad, Wu Xiaoyun, Choi Peter S, Gechijian Lara, Hartigan Christina, Faloon Patrick W, Hickey Mark J, Tolliday Nicola, Carr Steven A, Clemons Paul A, Munoz Benito, Wagner Bridget K, Shamji Alykhan F, Koehler Angela N, Schenone Monica, Burgin Alex B, Schreiber Stuart L, Greulich Heidi, Meyerson Matthew

机构信息

The Broad Institute of Harvard and MIT, Cambridge, Massachusetts, USA.

Department of Medical Oncology, Dana-Farber Cancer Institute, Boston, Massachusetts, USA.

出版信息

Nat Chem Biol. 2016 Feb;12(2):102-8. doi: 10.1038/nchembio.1984. Epub 2015 Dec 14.

DOI:10.1038/nchembio.1984

PMID:26656089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4718766/

Abstract

High cancer death rates indicate the need for new anticancer therapeutic agents. Approaches to discovering new cancer drugs include target-based drug discovery and phenotypic screening. Here, we identified phosphodiesterase 3A modulators as cell-selective cancer cytotoxic compounds through phenotypic compound library screening and target deconvolution by predictive chemogenomics. We found that sensitivity to 6-(4-(diethylamino)-3-nitrophenyl)-5-methyl-4,5-dihydropyridazin-3(2H)-one, or DNMDP, across 766 cancer cell lines correlates with expression of the gene PDE3A, encoding phosphodiesterase 3A. Like DNMDP, a subset of known PDE3A inhibitors kill selected cancer cells, whereas others do not. Furthermore, PDE3A depletion leads to DNMDP resistance. We demonstrated that DNMDP binding to PDE3A promotes an interaction between PDE3A and Schlafen 12 (SLFN12), suggestive of a neomorphic activity. Coexpression of SLFN12 with PDE3A correlates with DNMDP sensitivity, whereas depletion of SLFN12 results in decreased DNMDP sensitivity. Our results implicate PDE3A modulators as candidate cancer therapeutic agents and demonstrate the power of predictive chemogenomics in small-molecule discovery.

摘要

高癌症死亡率表明需要新的抗癌治疗药物。发现新癌症药物的方法包括基于靶点的药物发现和表型筛选。在此，我们通过表型化合物库筛选和预测性化学基因组学的靶点反卷积，将磷酸二酯酶3A调节剂鉴定为细胞选择性癌症细胞毒性化合物。我们发现，在766个癌细胞系中，对6-(4-(二乙氨基)-3-硝基苯基)-5-甲基-4,5-二氢哒嗪-3(2H)-酮（DNMDP）的敏感性与编码磷酸二酯酶3A的基因PDE3A的表达相关。与DNMDP一样，已知的PDE3A抑制剂的一个子集可杀死选定的癌细胞，而其他抑制剂则不能。此外，PDE3A的缺失导致对DNMDP的抗性。我们证明，DNMDP与PDE3A的结合促进了PDE3A与Schlafen 12（SLFN12）之间的相互作用，提示一种新的活性。SLFN12与PDE3A的共表达与对DNMDP的敏感性相关，而SLFN12的缺失导致对DNMDP的敏感性降低。我们的结果表明PDE3A调节剂是候选的癌症治疗药物，并证明了预测性化学基因组学在小分子发现中的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/848e/4718766/1937323f01b1/nihms734193f1.jpg

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通过预测性化学基因组学鉴定PDE3A的癌症细胞毒性调节剂。

Identification of cancer-cytotoxic modulators of PDE3A by predictive chemogenomics.

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