Tripartite motif protein 25 (TRIM25) expression was altered in various human cancers. Herein, we found that the expression of TRIM25 was elevated in hepatocellular carcinoma (HCC) tissues and cell lines. Knockdown of TRIM25 increased the sensitivity of HCC HepG2 cells to epirubicin (EPI), as indicated by reduced cell viability, enhanced cell apoptosis, and downregulated P‐glycoprotein (P‐gp) and multiple drug‐resistance protein 1 (MRP1). Moreover, TRIM25 knockdown strengthened the effects of EPI on phosphatase and tensin homolog (PTEN) and phosphorylated (p)‐AKT. However, overexpression of TRIM25 exerted an opposite effect, weakening the sensitivity of Huh7 to EPI, and obviously increasing PTEN and reducing p‐AKT. Most important, all the changes induced by TRIM25 overexpression in Huh7 were reversed with additional treatment of LY294002 (an AKT pathway inhibitor). Notably, coimmunoprecipitation experiments confirmed the interaction between TRIM25 and PTEN. Knockdown of TRIM25 resulted in reduced ubiquitination of PTEN protein. Collectively, our data suggested that TRIM25 enhanced EPI resistance via modulating PTEN/AKT pathway, and targeting TRIM25 may enhance the sensitivity of HCC cells toward chemotherapy drugs.
Background To investigate clinical presentation and molecular aspects of five patients suffered from glutaric aciduria type I (GA-I ), a rare neurometabolic disorder caused by glutaryl-CoA dehydrogenase deficiency due to GCDH gene mutations. Methods All five patients were diagnosed by elevated urinary glutaric acid and GCDH gene analysis. Low protein diet supplemented with special formula, GABA analog and L-carnitine were initialed following laboratory confirmation of diagnosis. The clinical and biochemical features were analyzed, and mutational analysis of GCDH was conducted using Sanger sequencing. Results Clinical manifestations of 5 patients varied from macrocephaly to severe encephalopathy, with notably different phenotype between siblings with the same mutations. Three members present complex heterozygous mutations, while two sisters present homozygous mutations. Among them, four mutations in GCDH were identified (c.1133C>T 、c.1244-2A>C 、c.339delT 、c.406G>T). Of these four mutations, c.1244- 2A>C was found in four patients and c.339delT and c.1133C>T has not yet been reported until now. Conclusions In 5 Chinese patients with GA1, two novel mutations of GCDH gene were identified, which may expand the mutation spectrum of GCDH gene. What we found confirm that there is no correlation between clinical phenotype and genotype in GA-I patients, and c.1244-2A>C may be mutation hotspot in Southern China.
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