药物再利用筛选发现硫司群肽是肿瘤抑制因子 DAB2IP 的新型调节剂

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.12.603185
Rossella De Florian Fania, S. Maiocchi, Raffaella Klima, Valeria Pellegrini, Sabrina Ghetti, Davide Selvestrel, Luca L. Fava, Luca Braga, Licio Collavin
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摘要

肿瘤抑制因子 DAB2IP 是一种 RasGAP 和胞质适配蛋白,它能调节信号转导以响应多种细胞外刺激,从而负向调节多种致癌途径。因此,肿瘤细胞中 DAB2IP 的缺失会促进转移,并增强化疗和放射抗药性。DAB2IP 在癌症中很少发生突变,但经常通过多种机制被下调或失活。确凿的实验证据表明,在多种不同致癌突变驱动的肿瘤中,DAB2IP 的重新激活可降低癌症的侵袭性,从而使该蛋白成为抗癌治疗的一个有趣靶点。基于这些前提,我们筛选了一个美国 FDA 批准的药物库,寻找能提高 DAB2IP 蛋白水平的分子。我们利用 CRISPR/Cas9 基因编辑技术生成了两种前列腺癌细胞模型,在这些模型中,内源性 DAB2IP 与 HiBiT 融合,HiBiT 是一种肽标签,能以发光方式灵敏、定量地检测蛋白质水平。利用这种方法,我们确定了能够提高 DAB2IP 水平的药物。我们将注意力集中在硫司肽上,这是一种天然的环状寡肽抗生素,据报道可抑制多种癌细胞株的存活。功能实验显示,在 DAB2IP 缺失的情况下,硫司肽的抑癌作用会减弱,这表明观察到的上调有助于硫司肽发挥作用。这些发现促进了硫司群在治疗实体瘤方面的进一步发展,并揭示了其抗肿瘤作用的新分子机制。
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Drug-repurposing screen identifies thiostrepton as a novel regulator of the tumor suppressor DAB2IP
The tumor suppressor DAB2IP, a RasGAP and cytoplasmic adaptor protein, modulates signal transduction in response to several extracellular stimuli, negatively regulating multiple oncogenic pathways. Accordingly, the loss of DAB2IP in tumor cells fosters metastasis and enhances chemo- and radio-resistance. DAB2IP is rarely mutated in cancer but is frequently downregulated or inactivated by multiple mechanisms. Solid experimental evidence show that DAB2IP reactivation can reduce cancer aggressiveness in tumors driven by multiple different oncogenic mutations, making this protein an interesting target for anti-cancer therapy. Based on these premises, we screened a library of FDA-approved drugs to search for molecules that can increase DAB2IP protein levels. We exploited CRISPR/Cas9 gene editing to generate two prostate cancer cell models in which endogenous DAB2IP is fused to HiBiT, a peptide tag that enables luminescence-based detection of protein levels in a sensitive and quantitative manner. Using this approach, we identified drugs able to increase DAB2IP levels. We focus our attention on thiostrepton, a natural cyclic oligopeptide antibiotic that has been reported to inhibit survival of various cancer cell lines. Functional experiments revealed that the cancer inhibitory effect of thiostrepton is reduced in the absence of DAB2IP, suggesting that the observed upregulation contributes to its action. These findings encourage the further development of thiostrepton for the treatment of solid cancers, and unveil a novel molecular mechanism underlying its anti-tumoral action.
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