Institute of Molecular Medicine and Cell Research, Faculty of Medicine, University of Freiburg, 79104 Freiburg, Germany.
German Cancer Consortium (DKTK) Partner Site Freiburg, DKFZ, 79104 Freiburg, Germany.
Theranostics. 2022 May 16;12(9):4348-4373. doi: 10.7150/thno.68299. eCollection 2022.
PI3K/mTOR signaling is frequently upregulated in breast cancer making inhibitors of this pathway highly promising anticancer drugs. However, PI3K-inhibitors have a low therapeutic index. Therefore, finding novel combinatory treatment options represents an important step towards clinical implementation of PI3K pathway inhibition in breast cancer therapy. Here, we propose proteases as potential synergistic partners with simultaneous PI3K inhibition in breast cancer cells.
We performed mRNA expression studies and unbiased functional genetic synthetic lethality screens by a miR-E based knockdown system targeting all genome-encoded proteases, i.e. the degradome of breast cancer cells. Importantly theses RNA interference screens were done in combination with two PI3K pathway inhibitors. Protease hits were validated in human and murine breast cancer cell lines as well as in non-cancerous cells by viability and growth assays.
The degradome-wide genetic screens identified 181 proteases that influenced susceptibility of murine breast cancer cells to low dose PI3K inhibition. Employing independently generated inducible knockdown cell lines we validated 12 protease hits in breast cancer cells. In line with the known tumor promoting function of these proteases we demonstrated Usp7 and Metap2 to be important for murine and human breast cancer cell growth and discovered a role for Metap1 in this context. Most importantly, we demonstrated that Usp7, Metap1 or Metap2 knockdown combined with simultaneous PI3K inhibition resulted in synergistic impairment of murine and human breast cancer cell growth Conclusion: We successfully established proteases as combinatory targets with PI3K inhibition in human and murine breast cancer cells. Usp7, Metap1 and Metap2 are synthetic lethal partners of simultaneous protease/PI3K inhibition, which may refine future breast cancer therapy.
PI3K/mTOR 信号在乳腺癌中经常被上调,使得该途径的抑制剂成为很有前途的抗癌药物。然而,PI3K 抑制剂的治疗指数较低。因此,寻找新的联合治疗方案是将 PI3K 途径抑制应用于乳腺癌治疗的重要一步。在这里,我们提出蛋白酶作为与乳腺癌细胞中同时抑制 PI3K 的潜在协同伙伴。
我们通过基于 miR-E 的敲低系统进行了 mRNA 表达研究和无偏见的功能遗传合成致死性筛选,该系统靶向所有基因组编码的蛋白酶,即乳腺癌细胞的降解组。重要的是,这些 RNA 干扰筛选是与两种 PI3K 途径抑制剂联合进行的。通过在人源和鼠源乳腺癌细胞系以及非癌细胞中进行的活力和生长测定,对蛋白酶靶标进行了验证。
全降解组的遗传筛选确定了 181 种蛋白酶,这些蛋白酶影响了低剂量 PI3K 抑制对鼠源乳腺癌细胞的易感性。我们利用独立生成的诱导性敲低细胞系在乳腺癌细胞中验证了 12 个蛋白酶靶标。与这些蛋白酶的已知肿瘤促进功能一致,我们证明 Usp7 和 Metap2 对鼠源和人源乳腺癌细胞的生长很重要,并在该背景下发现了 Metap1 的作用。最重要的是,我们证明 Usp7、Metap1 或 Metap2 的敲低与同时抑制 PI3K 联合使用会导致鼠源和人源乳腺癌细胞生长协同受损。
我们成功地将蛋白酶确立为人类和鼠源乳腺癌细胞中与 PI3K 抑制联合的组合靶标。Usp7、Metap1 和 Metap2 是同时抑制蛋白酶/PI3K 的合成致死性伙伴,这可能会完善未来的乳腺癌治疗。
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