Colorectal cancer (CRC) is a malignant tumor of the gastrointestinal tract and a leading cause of cancer-associated mortality worldwide. Mex-3 RNA binding family member A (MEX3A) promotes the progression of multiple types of cancer, including ovarian and cervical cancer. However, to the best of our knowledge, the role of MEX3A in CRC is not completely understood. Therefore, the present study aimed to investigate the function of MEX3A in CRC. The mRNA and protein expression levels of MEX3A in CRC cells were analyzed using reverse transcription-quantitative PCR and western blotting, respectively. Cell Counting Kit-8 assays were used to measure cell viability. Cell apoptosis and cell cycle distribution were detected via flow cytometry, and CRC cell invasion was analyzed by performing Transwell assays. Moreover, the mitochondrial membrane potential in CRC cells was measured via JC-1 staining. The results of the present study revealed that the expression levels of MEX3A were upregulated in CRC tissues compared with adjacent healthy tissues. MEX3A knockdown notably inhibited CRC cell viability, and induced apoptosis and mitochondrial injury. In addition, MEX3A knockdown markedly induced G 1 phase cell cycle arrest in CRC cells via downregulating CDK2 expression. In conclusion, the findings of the present study suggested that MEX3A knockdown may inhibit the tumorigenesis of CRC cells by regulating CDK2 expression. Therefore, MEX3A may serve as a novel target for CRC treatment.
The increasing morbidity and high mortality of intrahepatic cholangiocarcinoma (ICC) has led to the urgent need for new diagnostics and therapeutics. Liver kinase B1 (LKB1) exerts a tumor suppressor role in multiple malignances, while its regulatory role in exosomes secreted by ICC cells is obscure. In the present study, exosomes were extracted from cell culture supernatants of RBE and HCCC-9810 ICC cells as well as plasma of patients with ICC by ultracentrifugation and the morphology of exosomes was identified by transmission electron microscopy. Notably, compared with that of intracellular LKB1, the protein level of exosomal LKB1 was decreased. Silencing intracellular LKB1 increased the protein levels of programmed death ligand 1 (PD-L1), Slug and phosphorylated-AKT in exosomes, accompanied by decreased expression levels of exosomal LKB1. Exosomes with lower protein levels of LKB1 promoted the expression of the immune checkpoint PD-L1, malignant phenotypes of ICC cells in vitro, and cancer metastasis in vivo. Moreover, the low level of exosomal LKB1 in plasma was tightly associated with the poor prognosis of patients with ICC. Collectively, exosomal LKB1 inhibits the immune checkpoint PD-L1 and metastasis of ICC cells. These findings may provide new methods for the diagnosis and immune therapy of ICC.
Objective Considering the potential of adipose‐derived stem cells (ADSCs) migrating towards cancer cells, this study was performed to explore the function of tumor necrosis factor‐related apoptosis‐inducing ligand (TRAIL) modified ADSCs on the development and progression of hepatocellular carcinoma (HCC). Methods ADSCs were extracted from human adipose tissues and identified through immunofluorescence and flow cytometry. Oil red staining and alizarin red staining were performed to clarify the differentiation potential of ADSCs. AAV‐CMV‐sTRAIL was transfected into ADSCs before Western blot and Transwell measurements. sTRAIL‐ADSCs were cocultured with HCC cells to explore its effect on the proliferation and apoptosis of HCC cells. The possible effect of sTRAIL‐ADSCs or ADSCs on tumor growth and metastasis was determined in vivo using xenograft nude mouse models. Results ADSCs were successfully extracted from adipose tissues, which were confirmed by cell morphology and positive expressions of CD44 and CD105. ADSCs were found with differentiation potential. After transfection, TRAIL was stably expressed in sTRAIL‐ADSCs. Both ADSCs and sTRAIL‐ADSCs can migrate towards HCC cells. In addition, sTRAIL‐ADSCs can promote the cell apoptosis and inhibit cell proliferation in vitro, on parallel it can also suppress epithelial‐mesenchymal transition, tumor growth, and metastasis in vivo. Conclusion TRAIL modified ADSCs can migrate towards HCC cells to inhibit tumor growth and the metastasis of implanted HCC tumors, which hints TRAIL modified ADSCs may be a new therapeutic approach for HCC treatment.
Sorafenib is used to treat digestive system tumors in patients who do not respond to or cannot tolerate surgery. However, the roles and inhibitory mechanisms of sorafenib against hepatocellular carcinoma (HCC) are unclear. Differentially expressed genes in tissues from responders and nonresponders to sorafenib were investigated using the HCC GSE109211 data set. Biological functions and mechanisms were studied using the Gene Ontology and Kyoto Encyclopedia of Genes and Genomes databases. The expression levels of differential expressed target genes were identified in HCC tissues, using The Cancer Genome Atlas database, and their prognostic and diagnostic values were explored using survival and receiver operating characteristic curve analysis. A nomogram and risk model of sorafenib-response target genes enabled the evaluation of the prognosis of patients with HCC. The relationship between risk scores and levels of infiltrating immune cells was visualized via correlation analysis. We identified 1620 sorafenib-response target genes involved in the PPAR signaling pathway, antigen processing and presentation, and ferroptosis. SLC41A3, SEC61A1, LRP4, PPM1G, and HSP90AA1 were independent risk factors for a poor prognosis for patients with HCC and had diagnostic value. A risk model based on SLC41A3, SEC61A1, LRP4, PPM1G, and HSP90AA1 expression showed that patients with HCC in the high-risk group had a worse prognosis. Consensus-clustering analysis (performed with K set to 2) distinguished two clusters (the cluster 1 and cluster 2 groups). Patients in cluster 1 survived significantly longer than those in cluster 2. The risk score correlated with the levels of T cells, cytotoxic lymphocytes, CD8+ T cells, macrophages, memory B cells, follicular helper T cells, and other immune cells. The high risk based on the sorafenib-response targets SLC41A3, SEC61A1, LRP4, PPM1G, and HSP90AA1 represented the poor prognosis for patients with HCC and significantly correlated with the levels of immune infiltrating cells in HCC.
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