癌症驱动子肽平铺筛选揭示致癌蛋白结构域和相关肽抑制剂。
Peptide-tiling screens of cancer drivers reveal oncogenic protein domains and associated peptide inhibitors.
机构信息
Department of Bioengineering, University of California, San Diego, San Diego, CA 92093, USA.
Division of Biological Sciences, University of California, San Diego, San Diego, CA 92093, USA.
出版信息
Cell Syst. 2021 Jul 21;12(7):716-732.e7. doi: 10.1016/j.cels.2021.05.002. Epub 2021 May 28.
Abstract
Gene fragments derived from structural domains mediating physical interactions can modulate biological functions. Utilizing this, we developed lentiviral overexpression libraries of peptides comprehensively tiling high-confidence cancer driver genes. Toward inhibiting cancer growth, we assayed ~66,000 peptides, tiling 65 cancer drivers and 579 mutant alleles. Pooled fitness screens in two breast cancer cell lines revealed peptides, which selectively reduced cellular proliferation, implicating oncogenic protein domains important for cell fitness. Coupling of cell-penetrating motifs to these peptides enabled drug-like function, with peptides derived from EGFR and RAF1 inhibiting cell growth at IC50s of 27-63 μM. We anticipate that this peptide-tiling (PepTile) approach will enable rapid de novo mapping of bioactive protein domains and associated interfering peptides.
摘要
基因片段来源于介导物理相互作用的结构域,可以调节生物功能。利用这一点,我们开发了全面覆盖高可信度癌症驱动基因的肽类慢病毒过表达文库。为了抑制癌症生长,我们对约 66000 个肽进行了检测,这些肽覆盖了 65 个癌症驱动基因和 579 个突变等位基因。在两种乳腺癌细胞系中进行的组合适应性筛选揭示了一些肽,它们可以选择性地减少细胞增殖,暗示了对细胞适应性很重要的致癌蛋白结构域。将穿透细胞的基序与这些肽连接起来可以使它们具有类似药物的功能,来自 EGFR 和 RAF1 的肽在 IC50 为 27-63 μM 时抑制细胞生长。我们预计,这种肽平铺(PepTile)方法将能够快速从头绘制生物活性蛋白结构域和相关干扰肽。
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