Velaithan Vithya, Okuda Kazuhide Shaun, Ng Mei Fong, Samat Norazwana, Leong Sze Wei, Faudzi Siti Munirah Mohd, Abas Faridah, Shaari Khozirah, Cheong Sok Ching, Tan Pei Jean, Patel Vyomesh
Cancer Research Malaysia, 12A, Jalan TP5, Taman Perindustrian UEP, 47600, Subang Jaya, Malaysia.
Laboratory of Natural Products, Institute of Bioscience Universiti Putra Malaysia, 43400, Serdang, Selangor, Malaysia.
Invest New Drugs. 2017 Apr;35(2):166-179. doi: 10.1007/s10637-016-0423-y. Epub 2017 Jan 5.
Zebrafish represents a powerful in vivo model for phenotype-based drug discovery to identify clinically relevant small molecules. By utilizing this model, we evaluated natural product derived compounds that could potentially modulate Notch signaling that is important in both zebrafish embryogenesis and pathogenic in human cancers. A total of 234 compounds were screened using zebrafish embryos and 3 were identified to be conferring phenotypic alterations similar to embryos treated with known Notch inhibitors. Subsequent secondary screens using HEK293T cells overexpressing truncated Notch1 (HEK293TΔE) identified 2 compounds, EDD3 and 3H4MB, to be potential Notch antagonists. Both compounds reduced protein expression of NOTCH1, Notch intracellular domain (NICD) and hairy and enhancer of split-1 (HES1) in HEK293TΔE and downregulated Notch target genes. Importantly, EDD3 treatment of human oral cancer cell lines demonstrated reduction of Notch target proteins and genes. EDD3 also inhibited proliferation and induced G/G cell cycle arrest of ORL-150 cells through inducing p27. Our data demonstrates the utility of the zebrafish phenotypic screen and identifying EDD3 as a promising Notch antagonist for further development as a novel therapeutic agent.
斑马鱼是一种强大的体内模型,可用于基于表型的药物发现,以识别具有临床相关性的小分子。通过利用该模型,我们评估了天然产物衍生的化合物,这些化合物可能调节Notch信号通路,该信号通路在斑马鱼胚胎发育中很重要,且在人类癌症中具有致病性。使用斑马鱼胚胎共筛选了234种化合物,其中3种被鉴定为可导致与用已知Notch抑制剂处理的胚胎相似的表型改变。随后使用过表达截短的Notch1的HEK293T细胞(HEK293TΔE)进行的二次筛选确定了2种化合物EDD3和3H4MB为潜在的Notch拮抗剂。这两种化合物均降低了HEK293TΔE中NOTCH1、Notch细胞内结构域(NICD)和毛状分裂增强子1(HES1)的蛋白表达,并下调了Notch靶基因。重要的是,用EDD3处理人类口腔癌细胞系可降低Notch靶蛋白和基因的表达。EDD3还通过诱导p27抑制ORL-150细胞的增殖并诱导其G/G细胞周期停滞。我们的数据证明了斑马鱼表型筛选的实用性,并确定EDD3是一种有前景的Notch拮抗剂,可作为新型治疗剂进一步开发。
