Abstract Background: TRIM11 (tripartite motif-containing protein 11) belongs to the TRIM/RBCC (the RING B-box coiled-coil) family of E3 ubiquitin ligases. Emerging evidence has demonstrated that TRIM11 is a novel target against cancer and neurodegenerative diseases as it plays vital role in cellular proliferation, differentiation, tumor progression, and apoptosis. Our previous work demonstrated that TRIM11 is over-expressed in high-grade gliomas and promotes proliferation, invasion, migration and tumor growth, suggesting that TRIM11 may be used as a target for malignant glioma treatment. The tumor suppressor p53 plays critical roles in tumor prevention, and deregulated p53 pathway has been found in a majority of glioblastomas (GBMs). Recent studies have shown that TRIM proteins are involved in the regulation of p53, and TRIM proteins are also regulated by p53. Methods: To evaluate the effect of TRIM11 on GBM progression in vivo, we intracranially implanted GBM cells over-expressing TRIM11 in immunocompromised mice, and the animal survival was monitored. We have synthesized a series of TRIM11 inhibitors and evaluated their anti-GBM potential in vitro. Furthermore, we tested the crosstalk between TRIM11 and p53 by knocking down TP53 through RNA interference. Results: Our in vivo data showed that the control group mice (GL261 parent line) survived longer than the mice bearing TRIM11 over-expressing GL261 tumors (p<0.05), suggesting TRIM11 enhances tumor progression in vivo. In vitro data showed that the oncogenic effect of TRIM11 may be related to its influence on the apoptosis pathway since a robust induction of poly (ADP-ribose) polymerase (PARP) was observed in TRIM11 over-expressing GBM cells. When treated with Temozolomide (TMZ), TRIM11 over-expressing cells were more resistant and showed a higher survival rate compared to parental cells. We screened a small library of TRIM11 inhibitors (~ 25 compounds), and identified several compounds which significantly inhibited the growth of both established and primary GBM cells in a dose-dependent manner, implicating that TRIM11 inhibitors may serve as novel agents for GBM treatment. We found that inactivation of p53 by siRNA increased the expression of TRIM11 and modulated the sensitivities of GBM cells to chemotherapy drugs. Conclusion: Despite remarkable advances in the prognosis and multidisciplinary treatment strategies, GBM is still the most lethal primary brain tumor, and there is a pressing need for newer anti-GBM agents with novel targets and mode of action. Our preclinical studies demonstrate a significant anti-tumor effect of TRIM11 inhibitors on malignant glioma cells. Our finding that TRIM11 may be modulated by p53 adds a new layer of regulation to this complicated signaling pathway. A better understanding of the crosstalk between p53 and TRIM11 will benefit the clinical application of targeting p53 and TRIM11 signaling pathways for therapeutical indications in GBM. Citation Format: Kaijun Di, Bhaskar C. Das, Daniela Alexandru Abrams, Daniela A. Bota. Targeting TRIM11 is a potential therapeutic strategy for malignant gliomas [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 5959.