Combination of taxol and Bcl‐2 siRNA induces apoptosis in human glioblastoma cells and inhibits invasion,angiogenesis and tumour growth

Taxol is a powerful chemotherapeutic agent that binds to microtubules to prevent tumour cell division. However, a traditional high dose of taxol may also induce apoptosis in normal cells. The anti‐apoptotic molecule Bcl‐2 is up‐regulated in tumour cells to prevent apoptosis. We designed this study to determine whether use of a low dose of taxol and anti‐apoptotic Bcl‐2 gene silencing would effectively induce apoptosis in human glioblastoma U251MG cells and also inhibit invasion, angiogenesis and intracranial as well as subcutaneous tumour growth. We treated the cells with either 100 nM taxol or transfected with a plasmid vector expressing Bcl‐2 siRNA or both agents together for 72 h. Knockdown of Bcl‐2 potentiated efficacy of taxol for cell death. Fluorescence‐activated cell sorting analysis, double immunofluorescent staining and TUNEL assay demonstrated apoptosis in about 70% of the cells after treatment with the combination of taxol and Bcl‐2 siRNA. In vitro Matrigel invasion assay demonstrated dramatic decrease in glioblastoma cell invasion and in vivo angiogenesis assay showed complete inhibition of neovascularization in athymic nude mice after treatment with the combination. Further, treatment with the combination of taxol and Bcl‐2 siRNA caused suppression of intracranial tumour growth and subcutaneous solid tumour development. In conclusion, our results indicate that the combination of taxol and Bcl‐2 siRNA effectively induces apoptosis and inhibits glioblastoma cell invasion, angiogenesis and intracranial as well as subcutaneous tumour growth. Therefore, the combination of a low dose of taxol and Bcl‐2 siRNA is a promising therapeutic strategy for controlling the aggressive growth of human glioblastoma.     

MicroRNA‐29b‐3p suppresses oral squamous cell carcinoma cell migration and invasion via IL32/AKT signalling pathway

Oral squamous cell carcinoma (OSCC) is aggressive accompanied with poor prognosis. We previously isolated the most invasive cells resembling the invasive tumour front by microfluidic technology and explored their differentially expressed microRNAs (miRNAs) in our previous work. Here, we verified the miR‐29b‐3p as a guarder that suppressed migration and invasion of OSCC cells and was down‐regulated in the most invasive cells. Besides that, the invasion suppression role of miR‐29b‐3p was achieved through the IL32/AKT pathway. Thus, miR‐29b‐3p and IL32 might serve as therapeutic targets for blocking the progression and improving the outcome of OSCC.     

LncRNA TUSC8 inhibits the invasion and migration of cervical cancer cells via miR‐641/PTEN axis

Cervical cancer (CC) is the fourth leading cause of cancer‐related death in women worldwide. There is an urgent need to find novel targets for the treatment of CC. Recently, microRNA have emerged as critical factors in tumorigenesis. In this study, we aimed to investigate the mechanism of miR‐641 on the migration and invasion of CC cells. In silico analysis revealed putative interaction between miR‐641 and phosphatase and tensin homolog (PTEN) RNA/lncRNA tumor suppressor candidate 8 (TUSC8). Hence we evaluated the expression of TUSC8, miR‐641, and PTEN. We found that the expressions of TUSC8 and PTEN were decreased in CC tissues, whereas miR‐641 expression was increased. Inhibition of miR‐641 suppressed the migration and invasion of Hela cells. In addition, TUSC8 and PTEN were upstream and downstream target molecule of miR‐641, respectively. Overexpression of TUSC8 promoted PTEN expression, and suppressed the invasion and migration of Hela cells, whereas miR‐641 mimic treatment changed the effects. These results demonstrated that overexpression of TUSC8 could inhibit the invasion and migration of CC cells by upregulating PTEN via miR‐641.     

Propofol suppresses proliferation,invasion, and migration of human melanoma cells via regulating microRNA-137 and fibroblast growth factor 9

Propofol is an intravenous anesthetic widely used in clinical surgeries, such as tumor resection. Propofol affects the growth of many cancers, though its effect on melanoma is unknown. Our study aimed to explore how propofol affects melanoma cells. Melanoma cells A2058 and WM793B were cultured with propofol for 24 hr. Propofol significantly suppressed proliferation, migration, and invasion of A2058 and WM793B cells. Lower miR-137 level was observed in A2058 and WM793B cells, compared with normal human epidermal melanocyte HEMa-LP cells. Propofol-induced miR-137 upregulation and decreased proliferation, invasive ability, and migrated ability of A2058 and WM793B cells. Transfection with the miR-137 inhibitor reversed these effects. Additionally, miR-137 was verified to target and negatively regulate fibroblast growth factor 9 (FGF9) expression. Propofol efficiently downregulated FGF9 protein expression by upregulating miR-137. Furthermore, FGF9 overexpression abrogated propofol's repressive effects on the malignant potential of A2058 and WM793B cells. These findings indicate that propofol suppressed melanoma cell proliferation, invasion, and migration by regulating miR-137 and FGF9.     

A Survey Investigating the Infection of Fusarium langsethiae and Production of HT‐2 and T‐2 Mycotoxins in UK Oat Fields

Fusarium langsethiae is a toxigenic fungal species that has been reported in European small‐grain cereal crops such as oats, wheat and barley. Although its relative contribution to fusarium head blight (FHB) symptoms is not well understood, it is reported to contaminate these cereals with high levels of HT‐2 and T‐2 trichothecenes mycotoxins that are currently under consideration for legislation by the European Commission. Ten commercial oat fields in Shropshire and Staffordshire (two adjacent counties in the Midlands) in the UK were surveyed in the 2006/2007 growing season. Samples were taken from predetermined field locations at Zadoks growth stages 32/33, 69, 77‐85 and 90‐92 for F. langsethiae biomass and HT‐2 and T‐2 toxins quantification. The results from this study showed that oats can be heavily infected with F. langsethiae and have high concentrations of HT‐2 and T‐2 toxins with no apparent FHB symptoms. The regression of HT‐2 + T‐2 toxins on F. langsethiae DNA concentration was highly significant (P < 0.001, r² = 0.55). The results indicated that although F. langsethiae had no direct effect on crop yield, it may result in indirect economic losses where the grain can be rejected or downgraded as a result of intolerable levels of HT‐2 and T‐2 toxins, which are of human food and animal feed safety concern. The influence of cultural field practices on the infection and HT‐2 and T‐2 toxins accumulation in oats was not clear and warrants further studies to identify the sources of F. langsethiae inoculum and conditions favourable for infection and mycotoxin production.     

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.     

Anti‐proliferative effect of rhein,an anthraquinone isolated from Cassia species,on Caco‐2 human adenocarcinoma cells

In recent years, the use of anthraquinone laxatives, in particular senna, has been associated with damage to the intestinal epithelial layer and an increased risk of developing colorectal cancer. In this study, we evaluated the cytotoxicity of rhein, the active metabolite of senna, on human colon adenocarcinoma cells (Caco‐2) and its effect on cell proliferation. Cytotoxicity studies were performed using 3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyltetrazolium bromide (MTT), neutral red (NR) and trans‐epithelial electrical resistance (TEER) assays whereas ³H‐thymidine incorporation and Western blot analysis were used to evaluate the effect of rhein on cell proliferation. Moreover, for genoprotection studies Comet assay and oxidative biomarkers measurement (malondialdehyde and reactive oxygen species) were used. Rhein (0.1–10 μg/ml) had no significant cytotoxic effect on proliferating and differentiated Caco‐2 cells. Rhein (0.1 and 1 μg/ml) significantly reduced cell proliferation as well as mitogen‐activated protein (MAP) kinase activation; by contrast, at high concentration (10 μg/ml) rhein significantly increased cell proliferation and extracellular‐signal‐related kinase (ERK) phosphorylation. Moreover, rhein (0.1–10 μg/ml): (i) did not adversely affect the integrity of tight junctions and hence epithelial barrier function; (ii) did not induce DNA damage, rather it was able to reduce H₂O₂‐induced DNA damage and (iii) significantly inhibited the increase in malondialdehyde and reactive oxygen species (ROS) levels induced by H₂O₂/Fe²⁺. Rhein was devoid of cytotoxic and genotoxic effects in colon adenocarcinoma cells. Moreover, at concentrations present in the colon after a human therapeutic dosage of senna, rhein inhibited cell proliferation via a mechanism that seems to involve directly the MAP kinase pathway. Finally, rhein prevents the DNA damage probably via an anti‐oxidant mechanism.     

Pancreatic cancer cell–derived exosomal microRNA‐27a promotes angiogenesis of human microvascular endothelial cells in pancreatic cancer via BTG2

Pancreatic cancer (PC) remains a primary cause of cancer‐related deaths worldwide. Existing literature has highlighted the oncogenic role of microRNA‐27a (miR‐27a) in multiple cancers. Hence, the current study aimed to clarify the potential therapeutic role of PC cell–derived exosomal miR‐27a in human microvascular endothelial cell (HMVEC) angiogenesis in PC. Initially, differentially expressed genes (DEGs) and miRs related to PC were identified by microarray analysis. Microarray analysis provided data predicting the interaction between miR‐27a and BTG2 in PC, which was further verified by the elevation or depletion of miR‐27a. Next, the expression of miR‐27a and BTG2 in the PC tissues was quantified. HMVECs were exposed to exosomes derived from PC cell line PANC‐1 to investigate the effects associated with PC cell–derived exosomes carrying miR‐27a on HMVEC proliferation, invasion and angiogenesis. Finally, the effect of miR‐27a on tumorigenesis and microvessel density (MVD) was analysed after xenograft tumour inoculation in nude mice. Our results revealed that miR‐27a was highly expressed, while BTG2 was poorly expressed in both PC tissues and cell lines. miR‐27a targeted BTG2. Moreover, miR‐27a silencing inhibited PC cell proliferation and invasion, and promoted apoptosis through the elevation of BTG2. The in vitro assays revealed that PC cell–derived exosomes carrying miR‐27a stimulated HMVEC proliferation, invasion and angiogenesis, while this effect was reversed in the HMVECs cultured with medium containing GW4869‐treated PANC‐1 cells. Furthermore, in vivo experiment revealed that miR‐27a knockdown suppressed tumorigenesis and MVD. Taken together, cell‐derived exosomes carrying miR‐27a promotes HMVEC angiogenesis via BTG2 in PC.