Untargeted metabolomics study and pro-apoptotic properties of B-norcholesteryl benzimidazole compounds in ovarian cancer SKOV3 cells

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  • 作者:Chunfang Gan, Xiaotong Huang, Yulan Wu, Junyan Zhan, Xuehong Zhang, Qinzhou Liu, Yanmin Huang
  • 期刊:JOURNAL OF STEROID BIOCHEMISTRY AND MOLECULAR BIOLOGY
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The current study aims to evaluate the antiproliferative activity of B-norcholesteryl benzimidazole compounds in human ovarian cancer cells (SKOV3). Our experimental data indicates that the tested compounds can induce apoptosis in SKOV3 cells, block S-phase growth, and decrease mitochondrial membrane potential. Western blot results showed that B-norcholesteryl benzimidazole compounds (1 and 2) induced apoptosis in SKOV3 cells via activation of the mitochondrial signaling pathway. Following SKOV3 cells treatment with compounds 1 and 2, the cell metabolism was assessed using the UHPLC-QE-MS (Ultra High Performance Liquid Chromatography-Q Exactive Orbitrap- Mass Spectrometry) non-target metabolomics analysis method. The results showed 10 metabolic pathways that mediated the effects of compound 1, including arginine and proline metabolism; alanine, aspartate, and glutamate metabolism; histidine metabolism; D-glutamine and D-glutamine and D-glutamate metabolism; cysteine and methionine metabolism; aminoacyl-tRNA biosynthesis; purine metabolism; Glutathione metabolism; D-Arginine and D-ornithine metabolism; and Nitrogen metabolism. From the perspective of metabolomics, compound 1 inhibits intracellular metabolism, protein synthesis, and slows down energy metabolism in SKOV3 cells. These changes result in the inhibition of proliferation and signal transduction, abrogate invasive and metastatic properties, and induce apoptosis, thus, exerting anti-tumor effects. Application of compound 2 altered activation of metabolic pathways in SKOV3 cells. The main metabolic pathways involved were glycerophospholipid metabolism; arginine and proline metabolism; purine metabolism; glycine, serine, and threonine metabolism; and ether lipid metabolism. The metabolic pathway with the greatest impact and the deepest enrichment was the glycerophospholipid metabolism. In conclusion, compound 2 inhibits proliferation of SKOV3 cells by interfering with glycerate metabolism, which plays a major role in regulation of cell membrane structure and function. Additionally, compound 2 can inhibit the invasion and metastasis of SKOV3 cells and induce apoptosis via interfering with the metabolism of arginine and proline.

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