Histology and histopathology Vol.38,nº12 (2023)

Ir a Estadísticas

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    Clinicopathological features and genomic analysis of bronchiolar adenoma
    (Universidad de Murcia, Departamento de Biologia Celular e Histiologia, 2023) Bo, Jiaqi; Chen, Xue; Zhang, TingTing; Zhu, Xuyou; Zhang, Long; Liu, Yuting; Zhang, Haoyang; Wu, Caixia; Mou, Shunyan; Yi, Xianghua; Rui, Weiwei; Zeng, Yu
    Background. Bronchiolar adenoma (BA) is a rare tumor of the bronchioles with a double-layer structure, including the basal cell layer and the superficial cell layer, and it has a good prognosis. However, the concept of a putative variant of BA has been proposed in the recent literature. Methods. Data on 17 cases of BA were collected from our center. The clinical data, morphology, immunophenotype, and molecular changes were retrospectively analyzed. We also collected the molecular changes in BA reported in the previous literature and summarized the putative driver mutations of BA. Results. Out of 17 BAs, 13 were classic cases with a double-layer structure, including 9 proximal-type and 4 distal-type BAs. Of note, we also identified 3 cases that lacked a continuous basal cell layer, including 2 cases of mixed-type BA with monolayered lesions (basal cells were undetected in some areas) and 1 case of a monolayered BA-like lesion (basal cells were completely undetected). The immunohistochemical findings of monolayer cell lesions were closer to those of minimally invasive adenocarcinoma. We also found one case in which BA transformed into invasive adenocarcinoma accompanied by mutations in the TP53, JAK2, NF1 and RB1 genes. Combined with the previous literature, the most common putative driver gene mutations in 62 BA lesions were EGFR (25/62; 41.0%) and BRAF (21/62; 34.4%). Conclusion. Typical BA has a double-layer cell structure; however, there is also a putative variant of BA, which has a monolayer cell structure and lacks the basal cell layer. Transformation from BA into invasive adenocarcinoma is unusual but can occur
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    Long noncoding RNA FTX promotes epithelial-mesenchymal transition of epithelial ovarian cancer through modulating miR-7515/TPD52 and activating Met/Akt/mTOR
    (Universidad de Murcia, Departamento de Biologia Celular e Histiologia, 2023) Li, Yong; Zhu, Xinghua; Zhang, Can; Yin, Yi; Chen, Lei; Liu, Yushan; He, Aiqin; Xia, Fei
    Overexpressed long noncoding RNA FTX is associated with low survival rate of epithelial ovarian cancer (EOC) patients, and enhances tumor infiltration. Thus, we aim to illuminate the undefined underlying mechanisms. Real-time quantitative polymerase chain reaction was applied to detect the expressions of FTX, miR-7515, miR-342-3p, miR-940, miR-150-5p, miR205-5p and tumor protein D52 (TPD52). Cell counting kit-8 and transwell assays were utilized to explore the cell viability, migration or invasion of EOC cells. Western blot was conducted to measure the expressions of E-cadherin, N-cadherin, Met, phosphorylated (p)-Met, Akt, p-Akt, mTOR and p-mTOR. LncBase and TargetScan predicted the binding of miR-7515 with FTX, and the binding of TPD52 with miR-7515, respectively. The two bindings were further validated by dual luciferase reporter assay. As a result, FTX sponged miR-7515 and miR-7515 targeted to TPD52. FTX was overexpressed in four EOC cell lines. Overexpressed FTX enhanced the cell viability, migration or invasion of EOC cells, elevated N-cadherin and TPD52 expressions, phosphorylated Met/Akt/mTOR, and inhibited Ecadherin expression. All these influences were subsequently reversed by miR-7515 mimic. Collectively, FTX regulates miR-7515/TPD52 to facilitate the migration, invasion or epithelial-mesenchymal transition of EOC through activating Met/Akt/mTOR signaling pathway.
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    LINC01123 acts as an oncogenic driver in lung adenocarcinoma by regulating the miR-4766-5p/PYCR1 axis
    (Universidad de Murcia, Departamento de Biologia Celular e Histiologia, 2023) Wang, Hong; He, Dongsheng
    Background. Lung adenocarcinoma remains one of the most significant threats to human life as it involves multiple etiologies, including alteration of oncogenes or tumor-inhibitory genes. Long non-coding RNAs (lncRNAs) have been reported to have both cancer promoting and cancer inhibiting effects. In this work, we investigated the function and mechanism of lncRNA LINC01123 in lung adenocarcinoma. Methods. The expression of LINC01123, miR-47665p, and PYCR1 (pyrroline-5-carboxylate reductase 1) mRNA was analyzed by RT-qPCR. The protein expression levels of PYCR1 and the apoptosis-related proteins (Bax and Bcl-2) were determined by western blotting. Cell proliferation and migration were determined by CCK-8 and wound-healing assays, respectively. Tumor growth in nude mice and Ki67 immunohistochemical staining were used to determine the in vivo role of LINC01123. The putative binding relationships miR-4766-5p has with LINC01123 and PYCR1, which had been identified by analysis of public databases, were validated through RIP and dualluciferase reporter assays. Results. LINC01123 and PYCR1 overexpression and miR-4766-5p downregulation were shown to occur in lung adenocarcinoma samples. LINC01123 depletion repressed lung adenocarcinoma cell growth and migration and blocked the development of solid tumors in an animal model. Moreover, LINC01123 bound directly to miR-4766-5p, the downregulation of which attenuated the anticancer effects of LINC01123 depletion in lung adenocarcinoma cells. MiR-4766-5p directly targeted downstream PYCR1 to suppress PYCR1 expression. The repressive effects of PYCR1 knockdown on the migration and proliferation of lung adenocarcinoma cells were also partly abolished by miR-4766-5p downregulation. Conclusion. Downregulation of LINC01123 represses lung adenocarcinoma progression. This suggests that LINC01123 functions as an oncogenic driver in lung adenocarcinoma by controlling the miR4766-5p/PYCR1 axis.
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    NCK1-AS1 promotes the proliferation, migration, invasion, and EMT of non-small cell lung cancer by regulating the miR-361-5p/ADAM10 axis
    (Universidad de Murcia, Departamento de Biologia Celular e Histiologia, 2023) Wu, Bingchen; Wang, Zizong; Xu, Hanlin; Chu, Xiangyang; Jiang, Qiwen
    Lung cancer, one of the most frequently diagnosed cancers, causes a huge number of mortalities globally. Among lung cancers, non-small cell lung cancer (NSCLC) is the most recorded. Despite accumulating research, the molecular basis of NSCLC progression remains poorly known. Therefore, we aim to assess the function of NCK1-AS1 in NSCLC and elucidate the molecular mechanism. Firstly, we quantified the NCK1-AS1 level in tumors and adjacent healthy tissues. NCK1-AS1 was significantly upregulated in NSCLC tumors, which was associated with poor prognosis in patients. Silencing NCK1-AS1 significantly inhibited the proliferation, migration, and invasion, as well as the EMT of NSCLC cell lines. Starbase bioinformatic prediction revealed that NCK1AS1 targets miR-361-5p which acts to regulate ADAM10 gene expression. Our result showed that NCK1-AS1 upregulation markedly reduced miR-361-5p mRNA expression, while increasing ADAM10 expression. For the first time, we demonstrated that NCK1-AS1 regulates the miR-361-5p/ADAM10 axis, thereby promoting NSCLC progression. NCK1-AS1 might be developed as a therapeutic target for treating NSCLC.
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    Mesenchymal stem cell-derived microRNAs: friends or foes of tumor cells?
    (Universidad de Murcia, Departamento de Biologia Celular e Histiologia, 2023) Harrell, Carl Randall; Djonov, Valentin; Volarevic, Vladislav
    Mesenchymal stem cell (MSC)-dependent biological effects in the tumor microenvironment mainly rely on the activity of MSC-sourced microRNAs (MSCmiRNAs) which modulate protein synthesis in target tumor cells, endothelial cells and tumor-infiltrated immune cells, regulating their phenotype and function. Several MSC-sourced miRNAs (miR-221, miR-23b, miR-21-5p, miR-222/223, miR-15a miR-424, miR-30b, miR-30c) possess tumor-promoting properties and are able to enhance viability, invasiveness and metastatic potential of malignant cells, induce proliferation and sprouting of tumor endothelial cells and suppress effector functions of cytotoxic tumor-infiltrated immune cells, crucially contributing to the rapid growth and progression of tumor tissue. On the contrary, MSCs also produce “anti-tumorigenic” miRNAs (miR-100, miR222-3p, miR-146b miR-302a, miR-338-5p, miR-100-5p and miR-1246) which suppress tumor growth and progression by: up-regulating expression of chemoresistance-related genes in tumor cells, by suppressing neo-angiogenesis and by inducing generation of tumorotoxic phenotypes in tumor-infiltrated lymphocytes. In this review article, we summarize the current knowledge about molecular mechanisms that are responsible for MSC-miRNA-dependent alterations of intracellular signaling in tumor and immune cells and we discuss different insights regarding the therapeutic potential of MSC-derived miRNAs in cancer treatment.