Search Results (3)

We aimed to investigate the roles of tripartite motif (TRIM) proteins in urological cancers. Methods: A systematic review was conducted to investigate the oncological role of tripartite motif proteins in urological cancers. Results: A total of 84 articles were identified for the final analysis (26 articles on kidney cancers, 19 on bladder cancers, 37 on prostate cancers, and 1 on testicular cancers). In total, 27 TRIM family proteins were involved in kidney cancer, of which 9 were associated with tumor-promoting findings (TRIM24, TRIM27, TRIM37, TRIM44, TRIM46, TRIM47, TRIM59, TRIM63, and TRIM65) and of which 9 TRIM proteins were tumor-suppressive (TRIM2, TRIM7, TRIM8, TRIM13, TRIM21, TRIM26, TRIM28, TRIM33, and TRIM58). Fourteen TRIM family proteins were associated with bladder cancer (tumor-promoting: TRIM9, TRIM25, TRIM26, TRIM28, TRIM29, TRIM59, TRIM65, and TRIM66; tumor-suppressive: TRIM19 and TRIM38). Ten TRIM family proteins were associated with prostate cancer (tumor-promoting: TRIM11, TRIM24, TRIM28, TRIM33, TRIM44, TRIM59, TRIM63, TRIM66, and TRIM68; tumor-suppressive: TRIM32 and TRIM36). Twenty-eight TRIM family proteins were identified to be associated with prostate cancer (tumor-promoting: TRIM11, TRIM24, TRIM28, TRIM33, TRIM44, TRIM59, TRIM63, TRIM66, and TRIM68; tumor-suppressive: TRIM32 and TRIM36). TRIM proteins regulate urological cancers by ubiquitination or modulation of oncologic pathways. Conclusions: This review identifies TRIM proteins that are involved in urological cancers. Some of these proteins have the potential to be the therapeutic target. Full article

Tripartite motif protein 26 (TRIM26) is an E3 ubiquitin ligase and a member of the TRIM family. Similar to other TRIM proteins, TRIM26 consists of three domains, collectively termed RBCC: a Really Interesting New Gene (RING) domain, one B-Box domain, and a C terminal domain consisting of a PRY/SPRY domain. The PRY/SPRY domain exhibits relatively higher conservation compared with the RING and B-Box domains, suggesting potentially similar roles across TRIM26 proteins from various species. TRIM26 either directly interacts with viral proteins or modulates immune responses to engage with a viral infection, serving as either a protective or detrimental host factor depending on the circumvent of the viral infection. The present review focuses on understanding the mechanisms of TRIM26 during viral infection and its potential future applications. Full article

Oxidative DNA base lesions in DNA are repaired through the base excision repair (BER) pathway, which consequently plays a vital role in the maintenance of genome integrity and in suppressing mutagenesis. 8-oxoguanine DNA glycosylase (OGG1), endonuclease III-like protein 1 (NTH1), and the endonuclease VIII-like proteins 1–3 (NEIL1–3) are the key enzymes that initiate repair through the excision of the oxidized base. We have previously identified that the E3 ubiquitin ligase tripartite motif 26 (TRIM26) controls the cellular response to oxidative stress through regulating both NEIL1 and NTH1, although its potential, broader role in BER is unclear. We now show that TRIM26 is a central player in determining the response to different forms of oxidative stress. Using siRNA-mediated knockdowns, we demonstrate that the resistance of cells to X-ray radiation and hydrogen peroxide generated as a consequence of trim26 depletion can be reversed through suppression of selective DNA glycosylases. In particular, a knockdown of neil1 or ogg1 can enhance sensitivity and DNA repair rates in response to X-rays, whereas a knockdown of neil1 or neil3 can produce the same effect in response to hydrogen peroxide. Our study, therefore, highlights the importance of TRIM26 in balancing cellular DNA glycosylase levels required for an efficient BER response. Full article