The effect of ubiquitin ligase Cullin3 on the proliferation, migration and invasion of triple-negative breast cancer cells and exploration of its mechanism

Abstract

Objective: To investigate the effects of ubiquitin ligase Cullin3 (CUL3) on the proliferation, migration and invasion ability of triple-negative breast cancer (TNBC) cells and its mechanism of action. Methods: Bioinformatics-based methods were used to obtain CUL3 gene and protein expression data in TNBC tissues, and to assess the expression of CUL3 in tumour tissues of TNBC patients (n=160) and in normal breast tissues (n=572), and its relationship with clinical prognosis. The effects of overexpression of CUL3 on the proliferation, migration and invasion ability of TNBC cells in vitro were detected by CCK8 cell proliferation assay, scratch assay and transwell assay; proteins that might interact with CUL3 were screened by immunoprecipitation combined with mass spectrometry analysis, and the substrate protein regulated by CUL3 was identified as Glutathione S-Transferase Pi 1 (GSTP1); the effects of overexpression of GSTP1 on the migration and invasion ability of TNBC cells were detected by scratch assay and Transwell assay, and it was explored whether overexpression of CUL3 could reverse the effects of GSTP1 on the migration and invasion ability of cells; and the effects of overexpression of GSTP1 on the migration and invasion ability of cells were detected by Western blot and IP (Immunoprecipitation) to detect the effect of CUL3 on the ubiquitination modification of GSTP1 protein, and to verify the molecular mechanism by which CUL3 regulates the expression of GSTP1 to affect TNBC migration and invasion. Results: CUL3 expression was significantly higher in TNBC (P<0.000 1), and high CUL3 expression was closely associated with poor prognosis of TNBC patients (OS, P=0.018; RFS, P=0.008); overexpression of CUL3 significantly increased the proliferation of TNBC cells (F=11.97, P=0.002 for the 231-cell group, F=51.92, P<0.001 for the 468-cell group), migration [74.7±4.0 and 128.0±6.1 perforating cells in the overexpression groups of 231 and 468 cell lines, compared with 21.0±2.7 and 70.0±6.6 in the blank control (NC) group, and the t-values of 231 and 468 cell groups were-19.24 and-11.23, with P-values<0.001] and invasive ability (48 h cell proliferation rates were 56.6%±4.4% and 51.6%±3.7% in the 231 and 468 cell line overexpression groups, compared with 40.5%±2.9% and 32.9%±4.8% in the NC group, respectively, t=-5.26, P=0.006 3 in the 231 cell group; t=-5.38 in the 468 cell group, P=0.005 8); GSTP1 expression was reduced in TNBC, and up-regulation of GSTP1 inhibited TNBC cell migration (the number of membrane-penetrating cells in the overexpression groups of 231 and 468 cell lines were 16.3±6.5 and 33.0±6.2, respectively, compared with 34.3±2.5 and 77.3±5.0 in the NC group, and t=5.44 in the 231 cell group, P=0.006; 468 cell group t=7.20, P=0.002) and invasion (48 h cell proliferation rates of 49.6%±1.7% and 36.2%±1.4% in the 231 and 468 cell line overexpression groups, compared to 59.4%±4.7% and 53.0%±1.7% in the NC group, t=3.42, P=0.027 in the 231 cell group; 468 cell group t=13.18, P<0.001), whereas up-regulation of CUL3 reversed the effects of GSTP1 on cell migration (37.0±1.0 and 67.0±5.3 membrane-penetrating cells in the overexpression groups of 231 and 468 cell lines, respectively, 231 cell group t=-3.97, P=0.017; 468 cell group t=-6.12, P=0.004), and invasion (48 h cell proliferation rates of 71.9%±3.6% and 59.4%±2.1% in the 231 and 468 cell line overexpression groups, respectively, with t-values of -9.61 and -16.01 in the 231 and 468 cell groups, respectively, P-values<0.001) inhibitory effects; and CUL3, by increasing GSTP1 ubiquitylation modification, promotes ubiquitin-proteasome system to degrade GSTP1 protein, thereby reducing the stability of GSTP1 protein. Conclusion: Overexpression of CUL3 promotes TNBC development by promoting GSTP1 ubiquitination degradation inducing cell migration and invasion.