TRIM21 improves apatinib treatment in gastric cancer through suppressing EZH1 stability

Gastric cancer (GC) is a common tumor with high metastatic rate worldwide. Promoting chemosensitivity is effective for improving therapeutic outcome and survival rate for GC patients. Tripartite motif-containing 21 (TRIM21), a member of TRIM-containing proteins, plays crucial roles in regulating numerous cellular events involved in tumor progression. However, it's regulatory effects on GC growth and drug sensitivity are still unclear. In the present study, we identified that TRIM21 expression was remarkably decreased in human GC tissues compared with the adjacent normal ones, and its down-regulation was closely linked to higher recurrence and lower overall survival rate among GC patients. We then found that apatinib (APA)-reduced GC cell proliferation was significantly abolished by TRIM21 knockdown; however, promoting TRIM21 expression further improved the sensitivity of GC cells to APA treatment, as proved by the remarkably decreased cell viability and colony formation. Furthermore, TRIM21 over-expression dramatically enhanced apoptosis, while its knockdown markedly diminished apoptotic cell death in APA-incubated GC cells. Moreover, stem cell properties of GC cells were also restrained by TRIM21. Our in vivo experiments showed that APA-repressed tumor growth was considerably abolished by TRIM21 knockdown, whereas being further elevated by TRIM21 over-expression. In addition, we showed that TRIM21 markedly decreased enhancer of zeste homolog 1 (EZH1) protein expression levels in GC cells, and importantly, a direct interaction between TRIM21 and EZH1 was verified. Of note, our in vitro studies revealed that EZH1 over-expression remarkably abolished the function of TRIM21 to restrain cell viability and induce apoptosis in APA-incubated GC cells, indicating that EZH1 suppression was necessary for TRIM21 to inhibit GC progression. Together, our findings demonstrated that TRIM21 may be a novel therapeutic target for GC treatment through reducing EZH1 to improve chemosensitivity.