Inhibition of yes‐associated protein down‐regulates PD‐L1 (CD274) expression in human malignant pleural mesothelioma

Although tumour PD‐L1 (CD274) expression had been used as a predictive biomarker in checkpoint immunotherapy targeting the PD1/PD‐L1 axis in various cancers, the regulation of PD‐L1 (CD274) expression is unclear. Yes‐associated protein (YAP), an important oncogenic protein in Hippo signalling pathway, reportedly promotes cancer development. We investigated whether inhibition of YAP down‐regulates PD‐L1 (CD274) in human malignant pleural mesothelioma (MPM). Western blotting showed that 2 human MPM cell lines (H2052 and 211H) had increased PD‐L1 protein expression compared to H290, MS‐1 and H28 cells. In H2052 and 211H cells, PD‐L1 mRNA expression was significantly increased compared to other MPM cell lines; YAP knockdown by small interfering RNA decreased PD‐L1 protein and mRNA expression. Forced overexpression of the YAP gene increased PD‐L1 protein expression in H2452 cells. Chromatin immunoprecipitation (ChIP) assay showed the precipitation of PD‐L1 enhancer region encompassing 2 putative YAP‐TEAD‐binding sites in H2052 cells. We found that, in human MPM tissue microarray samples, YAP and PD‐L1 concurrently expressed in immunohistochemistry stain (n = 70, P < .05, chi‐square). We conclude that PD‐L1 is correlated with YAP expression, and inhibition of YAP down‐regulates PD‐L1 expression in human MPM. Further study of how YAP regulates PD‐L1 in MPM is warranted.     

Proteomic differential display analysis identified upregulated astrocytic phosphoprotein PEA‐15 in human malignant pleural mesothelioma cell lines

We performed proteomic differential display analysis of human malignant pleural mesothelioma (MPM) cell lines and a human pleural mesothelial cell line by using 2‐DE and LC‐MS/MS. The human MPM cell lines were NCI‐H28, NCI‐H2052 and NCI‐H2452, and the human pleural mesothelial cell line was MeT‐5A. Between MeT‐5A and NCI‐H2052, we found 38 protein spots whose expression levels were different, from the results of 2‐DE; 28 protein spots appeared higher, and 10 other protein spots lower in NCI‐H2052 than in MeT‐5A. These spots were analyzed by LC‐MS/MS analysis and identified by a peptide sequence tag. However, from the results of 2‐DE of the other cell lines, there was only one consistently upregulated protein, astrocytic phosphoprotein PEA‐15, in all three MPM cell lines. Western blotting using specific antibodies against PEA‐15 confirmed the elevated expression level of PEA‐15 in all three MPM cell lines compared with MeT‐5A cells and normal pleura tissues from patients. PEA‐15 was knocked down in NCI‐H2052 cells, and the proliferation of PEA‐15‐silenced NCI‐H2052 cells was suppressed 7–15% compared with negative control cells. These results suggest that PEA‐15 expression is likely to be associated with the tumorigenesis of MPM.     

Inhibition of yes‐associated protein suppresses brain metastasis of human lung adenocarcinoma in a murine model

Yes‐associated protein (YAP) is a main mediator of the Hippo pathway and promotes cancer development and progression in human lung cancer. We sought to determine whether inhibition of YAP suppresses metastasis of human lung adenocarcinoma in a murine model. We found that metastatic NSCLC cell lines H2030‐BrM3(K‐ras^G12C mutation) and PC9‐BrM3 (EGFR^Δexon19 mutation) had a significantly decreased p‐YAP(S127)/YAP ratio compared to parental H2030 (K‐ras^G12C mutation) and PC9 (EGFR^Δexon19 mutation) cells (P < .05). H2030‐BrM3 cells had significantly increased YAP mRNA and expression of Hippo downstream genes CTGF and CYR61 compared to parental H2030 cells (P < .05). Inhibition of YAP by short hairpin RNA (shRNA) and small interfering RNA (siRNA) significantly decreased mRNA expression in downstream genes CTGF and CYR61 in H2030‐BrM3 cells (P < .05). In addition, inhibiting YAP by YAP shRNA significantly decreased migration and invasion abilities of H2030‐BrM3 cells (P < .05). We are first to show that mice inoculated with YAP shRNA‐transfected H2030‐BrM3 cells had significantly decreased metastatic tumour burden and survived longer than control mice (P < .05). Collectively, our results suggest that YAP plays an important role in promoting lung adenocarcinoma brain metastasis and that direct inhibition of YAP by shRNA suppresses H2030‐BrM3 cell brain metastasis in a murine model.     

17‐AAG suppresses growth and invasion of lung adenocarcinoma cells via regulation of the LATS1/YAP pathway

The large tumour suppressor 1 (LATS1) signalling network has been proved to be an essential regulator within the cell, participating in multiple cellular phenotypes. However, it is unclear concerning the clinical significance of LATS1 and the regulatory mechanisms of 17‐Allylamino‐17‐ demethoxygeldanamycin (17‐AAG) in lung adenocarcinoma (LAC). The aim of the present study was to investigate the correlation of LATS1 and yes‐associated protein (YAP) expression with clinicopathological characteristics in LAC patients, and the effects of 17‐AAG on biological behaviours of LAC cells. Subcutaneous LAC tumour models were further established to observe the tumour growth in nude mice. The results showed that the positive expression of LATS1 was significantly lowered (26.7% versus 68.0%, P < 0.001), while that of YAP was elevated (76.0% versus 56.0%, P = 0.03) in LAC tissues compared to the adjacent non‐cancerous tissues; LAST1 expression was negatively correlated with YAP expression (r = 0.432, P < 0.001) and lymphatic invasion of the tumour (P = 0.015). In addition, 17‐AAG inhibited proliferation and invasion, and induced cell apoptosis and cycle arrest in LAC cells together with increased expression of E‐cadherin and p‐LATS1, and decreased expression of YAP and connective tissue growth factor. Tumour volumes and weight were much smaller in 17‐AAG‐treated groups than those in untreated group (P < 0.01). Taken together, our findings indicate that decreased expression of LATS1 is associated with lymphatic invasion of LAC, and 17‐AAG suppresses growth and invasion of LAC cells via regulation of the LATS1/YAP pathway in vitro and in vivo, suggesting that we may provide a promising therapeutic strategy for the treatment of human LAC.     

Hsa‐miR‐132 inhibits proliferation of hepatic carcinoma cells by targeting YAP

MicroRNAs and Yes‐associated protein (YAP) play an important role in the occurrence and development of hepatic carcinomas. However, the interaction between microRNAs and YAP was seldom elucidated. In this study, we showed that miR‐132 could target YAP gene by using dual‐luciferase reporter system. Further quantitative polymerase chain reaction analysis and western blotting showed that miR‐132 could significantly reduce the expression of YAP at mRNA and protein levels. Results of annexin V‐fluorescein isothiocyanate, 5‐ethynyl‐2′‐deoxyuridine staining and transwell assays showed that miR‐132 significantly promoted the cell apoptosis and effectively inhibited the proliferation and invasion of hepatoma cells. These results indicated that miR‐132 could inhibit the growth of hepatoma cells by targeting YAP gene and reducing its expression level. Taken together, results from this study would help us to understand the mechanisms for occurrence and development of hepatic carcinoma and provide new targets for diagnosis and treatment of liver cancer. Copyright © 2015 John Wiley & Sons, Ltd.     

MicroRNA‐206 induces G1 arrest in melanoma by inhibition of CDK4 and Cyclin D

Expression profiling of microRNAs in melanoma lesional skin biopsies compared with normal donor skin biopsies, as well as melanoma cell lines compared with normal melanocytes, revealed that hsa‐miR‐206 was down‐regulated in melanoma (?75.4‐fold, P = 1.7 × 10^?4). MiR‐206 has been implicated in a large number of cancers, including breast, lung, colorectal, ovarian, and prostate cancers; however, its role in tumor development remains largely unknown, its biologic function is poorly characterized, and its targets affecting cancer cells are largely unknown. MiR‐206 reduced growth and migration/invasion of multiple melanoma cell lines. Bioinformatics identified cell cycle genes CDK2, CDK4, Cyclin C, and Cyclin D1 as strong candidate targets. Western blots and 3′UTR reporter gene assays revealed that miR‐206 inhibited translation of CDK4, Cyclin D1, and Cyclin C. Additionally, hsa‐miR‐206 transfection induced G1 arrest in multiple melanoma cell lines. These observations support hsa‐miR‐206 as a tumor suppressor in melanoma and identify Cyclin C, Cyclin D1, and CDK4 as miR‐206 targets.     

Dopamine and cAMP‐regulated phosphoprotein 32kDa (DARPP‐32), protein phosphatase‐1 and cyclin‐dependent kinase 5 expression in ovarian cancer

Dopamine and cyclic‐AMP activated phosphoprotein Mr32kDa (DARPP‐32) is a central signalling protein in neurotransmission. Following DARPP‐32 phosphorylation by protein kinase A (PKA), DARPP‐32 becomes a potent protein phosphatase 1 (PP1) inhibitor. DARPP‐32 can itself inhibit PKA following DARPP‐32 phosphorylation by cyclin‐dependent kinase 5 (Cdk5). Increasing evidence indicates a role for DARPP‐32 and its associated signalling pathways in cancer; however, its role in ovarian cancer remains unclear. Using immunohistochemistry, expression of DARPP‐32, PP1 and Cdk5 was determined in a large cohort of primary tumours from ovarian cancer patients (n = 428, 445 and 434 respectively) to evaluate associations between clinical outcome and clinicopathological criteria. Low cytoplasmic and nuclear DARPP‐32 expression was associated with shorter patient overall survival and progression‐free survival (P = .001, .001, .004 and .037 respectively). Low nuclear and cytoplasmic DARPP‐32 expression remained significantly associated with overall survival in multivariate Cox regression (P = .045, hazard ratio (HR) = 0.734, 95% confidence interval (CI) = 0.542‐0.993 and P = .001, HR = 0.494, 95% CI = 0.325‐0.749, respectively). High cytoplasmic and nuclear PP1 expression was associated with shorter patient overall survival and high cytoplasmic PP1 expression with shorter progression‐free survival (P = .005, .033, and .037, respectively). High Cdk5 expression was associated with shorter progression‐free survival (P = .006). These data suggest a role for DARPP‐32 and associated signalling kinases as prognostic markers with clinical utility in ovarian cancer.     

miR‐129‐2‐3p directly targets SYK gene and associates with the risk of ischaemic stroke in a Chinese population

Spleen tyrosine kinase (SYK) gene has been identified as novel susceptibility locus for ischaemic stroke (IS) previously. However, regulation of SYK gene remains unknown in IS. In this study, we aimed to identify miRNAs that might be involved in the development of IS by targeting SYK gene. miRNAs were firstly screened by bioinformatics predicting tool. The expression levels of SYK gene were detected by qRT‐PCR and western blotting, respectively, after miRNA transfection. Luciferase reporter assay was applied to investigate the direct binding between miRNAs and target gene. miRNA levels were detected by miRNA TaqMan assays in the blood cells of 270 IS patients and 270 control volunteers. Results suggest that SYK gene might be a direct target of miR‐129‐2‐3p. The blood level of miR‐129‐2‐3p was significantly lower in IS patients (P < 0.05), and negatively associated with the risk of IS (adjusted OR: 0.88; 95% CI: 0.80‐0.98; P = 0.021) by multivariable logistic regression analysis. The blood levels of SYK gene were significantly higher in IS patients, and miR‐129‐2‐3p expression was negatively correlated with mean platelet volume. In summary, our study suggests that miR‐129‐2‐3p might be involved in the pathogenesis of IS through interrupting SYK expression and the platelet function, and further investigation is needed to explore the underlying mechanism.     

Natural Killer Cell Receptor+ T‐Lymphocytes in Normal and Helicobacter pylori‐Infected Human Gastric Mucosa

Background: Helicobacter pylori infection is associated with development of chronic inflammation and infiltration of immune cells into the gastric mucosa. As unconventional T‐lymphocytes expressing natural killer cell receptors are considered to play central roles in the immune response against infection, a study investigating their frequencies in normal and H. pylori‐infected gastric mucosa was undertaken. Materials and Methods: Flow cytometry was used to quantify T‐cells expressing the natural killer cell markers CD161, CD56, and CD94 in freshly isolated lymphocytes from the epithelial and lamina propria layers of gastric mucosa. Thirteen H. pylori‐positive and 24 H. pylori‐negative individuals were studied. Results: CD94⁺ T‐cells were the most abundant (up to 40%) natural killer receptor‐positive T‐cell population in epithelial and lamina propria layers of H. pylori‐negative gastric mucosa. CD161⁺ T‐cells accounted for about one‐third of all T‐cells in both compartments, but the lowest proportion were of CD56⁺ T‐cells. Compared with H. pylori‐negative mucosa, in H. pylori‐infected mucosa the numbers of CD161⁺ T‐cells were significantly greater (p = .04) in the epithelium, whereas the numbers of CD56⁺ T‐cells were lower (p = .01) in the lamina propria. A minor population (< 2%) of T‐cells in both mucosal layers of H. pylori‐negative subjects were natural killer T‐cells, and whose proportions were not significantly different (p > .05) to those in H. pylori‐infected individuals. Conclusions: The predominance, heterogeneity, and distribution of natural killer cell receptor‐positive T‐cells at different locations within the gastric mucosa reflects a potential functional role during H. pylori infection and warrants further investigation.     

Glucose promotes epithelial‐mesenchymal transitions in bladder cancer by regulating the functions of YAP1 and TAZ

Glucose levels and type 2 diabetes (T2D) are both associated with tumorigenesis and epithelial‐mesenchymal transitions (EMTs). EMTs facilitate bladder cancer (BC) metastasis development, but the mechanism by which high‐glucose levels promote these EMTs in BC remains unclear. Therefore, we sought to elucidate the mechanism underlying EMT promotion due to increased glucose levels. T24 and UMUC‐3 cells were cultured in media containing different glucose concentrations. YAP1, TAZ, GLUT1 and EMT‐associated marker expression was analysed via Western blotting and qPCR. BC cell proliferation and invasion were assessed using MTT and Transwell assays, respectively. A xenograft nude mouse model of diabetes was used to evaluate tumour growth and metastasis in vivo. T2D was positively associated with pathologic grade (P = .016) and TNM stage (P < .001) in BC. High glucose triggered BC cell proliferation and invasion in both in vitro and in vivo conditions. High‐glucose levels also promoted EMTs in BC cells and increased YAP1 and TAZ expression. YAP1 or TAZ knockdown altered EMT marker expression and decreased GLUT1 expression. Overall, our results suggest that high‐glucose levels promote EMTs in BC cells via YAP1 and TAZ regulation. These effector molecules may be promising therapeutic targets for BC cases comorbid with T2D.     

Influence of type‐I Interferon receptor expression level on the response to type‐I Interferons in human pancreatic cancer cells

Pancreatic cancer is a highly aggressive malignancy with limited treatment options. Type‐I interferons (e.g. IFN‐α/‐β) have several anti‐tumour activities. Over the past few years, clinical studies evaluating the effect of adjuvant IFN‐α therapy in pancreatic cancer yielded equivocal results. Although IFN‐α and ‐β act via the type‐I IFN receptor, the role of the number of receptors present on tumour cells is still unknown. Therefore, this study associated, for the first time, in a large panel of pancreatic cancer cell lines the effects of IFN‐α/‐β with the expression of type‐I IFN receptors. The anti‐tumour effects of IFN‐α or IFN‐β on cell proliferation and apoptosis were evaluated in 11 human pancreatic cell lines. Type‐I IFN receptor expression was determined on both the mRNA and protein level. After 7 days of incubation, IFN‐α significantly reduced cell growth in eight cell lines by 5–67%. IFN‐β inhibited cell growth statistically significant in all cell lines by 43–100%. After 3 days of treatment, IFN‐β induced significantly more apoptosis than IFN‐α. The cell lines variably expressed the type‐I IFN receptor. The maximal inhibitory effect of IFN‐α was positively correlated with the IFNAR‐1 mRNA (P < 0.05, r = 0.63), IFNAR‐2c mRNA (P < 0.05, r = 0.69) and protein expression (P < 0.05, r = 0.65). Human pancreatic cancer cell lines variably respond to IFN‐α and ‐β. The expression level of the type‐I IFN receptor is of predictive value for the direct anti‐tumour effects of IFN‐α treatment. More importantly, IFN‐β induces anti‐tumour effects already at much lower concentrations, is less dependent on interferon receptor expression and seems, therefore, more promising than IFN‐α.     

Downregulation of multiple CDK inhibitor ICK/KRP genes upregulates the E2F pathway and increases cell proliferation,and organ and seed sizes in Arabidopsis

The ICK/KRP cyclin‐dependent kinase (CDK) inhibitors are important plant cell cycle factors sharing only limited similarity with the metazoan CIP/KIP family of CDK inhibitors. Little is known about the specific functions of different ICK/KRP genes in planta. In this study, we created double and multiple mutants from five single Arabidopsis ICK/KRP T‐DNA mutants, and used a set of 20 lines for the functional investigation of the important gene family. There were gradual increases in CDK activity from single to multiple mutants, indicating that ICK/KRPs act as CDK inhibitors under normal physiological conditions in plants. Whereas lower‐order mutants showed no morphological phenotypes, the ick1 ick2 ick6 ick7 and ick1 ick2 ick5 ick6 ick7 mutants had a slightly altered leaf shape. The quintuple mutant had larger cotyledons, leaves, petals and seeds than the wild‐type control. At the cellular level, the ICK/KRP mutants had more but smaller cells in all the organs examined. These phenotypic effects became more apparent as more ICK/KRPs were downregulated, suggesting that to a large extent ICK/KRPs function in plants redundantly in a dosage‐dependent manner. Analyses also revealed increased expression of E2F‐dependent genes, and elevated RBR1 as well as an increased level of phospho‐RBB1 protein in the quintuple mutant. Thus, downregulation of multiple ICK/KRP genes increases CDK activity, upregulates the E2F pathway and stimulates cell proliferation, resulting in increased cell numbers, and larger organs and seeds.