Butyrate-induced GPR41 activation inhibits histone acetylation and cell growth

Butyrate has been recently identified as a natural ligand of the G-protein-coupled receptor 41(GPR41).In addition,it is an inhibitor of histone deacetylase(HDAC).Butyrate treatment results in the hyperacetylation of histones,with resultant multiple biological effects including inhibition of proliferation,induction of cell cycle arrest,and apoptosis,in a variety of cultured mammalian cells.However,it is not clear whether GPR41 is actively involved in the above-mentioned processes.In this study,we generated a stable cell line expressing the hGPR41 receptor in order to investigate the involvement of GPR41 on butyrate-induced biochemical and physiologic processes.We found that GPR41 activation may be a compensatory mechanism to counter the increase in histone H3 acetylation levels induced by butyrate treatment.Moreover,GPR41 had an inhibitory effect on the anti-proliferative,pro-apoptotic effects of butyrate.GPR41 expression induced cell cycle arrest at the G1-stage,while its activation by butyrate can cause more cells to pass the G1 checkpoint.These results indicated that GPR41 was associated with histone acetylation and might be involved in the acetylation-related regulation of cell processes including proliferation,apoptosis,and the cell cycle.     

Magnolol suppresses proliferation of cultured human colon and liver cancer cells by inhibiting DNA synthesis and activating apoptosis

Magnolol, a hydroxylated biphenyl compound isolated from the Chinese herb Hou p'u of Magnolia officinalis, has been reported to have anti-cancer activity. In the present study, magnolol at very low concentrations of 3-10 microM inhibited DNA synthesis and decreased cell number in cultured human cancer cells (COLO-205 and Hep-G2) in a dose-dependent manner, but not in human untransformed cells such as keratinocytes, fibroblasts, and human umbilical vein endothelial cells (HUVEC). Magnolol was not cytotoxic at these concentrations and this indicates that it may have an inhibitory effect on cell proliferation in the subcultured cancer cell lines. [(3)H] thymidine incorporation and flow cytometry analyses revealed that magnolol treatment decreased DNA synthesis and arrested the cells at the G0/G1 phase of the cell cycle. Moreover, the magnolol-induced cell cycle arrest occurred when the cyclin-CDK system was inhibited, just as p21 protein expression was augmented. When magnolol concentration was increased to 100 microM, apoptosis was observed in COLO-205 and Hep-G2 cells, but not in cultured human fibroblasts and HUVEC. COLO-205 cells implanted subcutaneously in nude mice formed solid tumors; subsequent daily i.p.-injections of magnolol led to profound regression of these tumors of up to 85%. In these tumors, an increase in the expression of p21 protein level and the occurrence of apoptosis were observed. These findings demonstrate for the first time that magnolol can inhibit the proliferation of tumor cells in vitro and in vivo.     

Ivermectin inhibits the growth of glioma cells by inducing cell cycle arrest and apoptosis in vitro and in vivo

Glioma, the most predominant primary malignant brain tumor, remains uncured due to the absence of effective treatments. Hence, it is imperative to develop successful therapeutic agents. This study aimed to explore the antitumor effects and mechanisms of ivermectin (IVM) in glioma cells in vitro and in vivo. The effects of IVM on cell viability, cell cycle arrest, apoptosis rate, and morphological characteristics were determined respectively by MTT assay/colony formation assay, flow cytometry, and transmission electron microscope. In addition, the expression levels of cycle-related and apoptosis-associated proteins were individually examined by Western blot analysis. Moreover, cell proliferation and apoptosis analyses were carried out by TUNEL, Ki-67, cleaved caspase-3, and cleaved caspase-9 immunostaining assay. Our results demonstrated that IVM has a potential dosage-dependent inhibition effect on the apoptosis rate of glioma cells. Meanwhile, the results also revealed that IVM induced apoptosis by increasing caspase-3 and caspase-9 activity, upregulating the expressions of p53 and Bax, downregulating Bcl-2, activating cleaved caspase-3 and cleaved caspase-9, and blocking cell cycle in G0/G1 phase by downregulating levels of CDK2, CDK4, CDK6, cyclin D1, and cyclin E. These findings suggest that IVM has an inhibition effect on the proliferation of glioma cells by triggering cell cycle arrest and inducing cell apoptosis in vitro and in vivo, and probably represents promising agent for treating glioma.     

MicroRNA-628-5p inhibits cell proliferation in glioma by targeting DDX59

Recent study has reported that microRNA-628-5p (miR-628-5p) is involved in the development of epithelial ovarian cancer; however, the mechanisms of miR-628-5p in glioma remain unclear. In this study, we explored the potential biological roles of miR-628-5p in glioma. First, we found that miR-628-5p was decreased in the tissues and cells (U87 and T98) of glioma. Second, overexpressing miR-628-5p reduced the ability of glioma cells' proliferation and induced glioma cells' cycle arrest in G1. Then, we found that miR-628-5p directly bound to the 3′-untranslated region of DDX59 and decreased the protein level of DDX59. The decrease of DDX59 was found to lead to the decrease of p-AKT. Mechanistic studies revealed that restoring the expression of DDX59 alleviated miR-628-5p-induced inhibition of proliferation of glioma. These findings suggest that the miR-628-5p/DDX59 axis has a key role in the development of glioma, and miR-628-5p might be a new therapeutic target against glioma.     

Hydrogen sulfide induces human colon cancer cell proliferation: Role of Akt,ERK and p21

H₂S (hydrogen sulfide), regarded as the third gaseous transmitter, is implicated in ulcerative colitis and colorectal cancers. The present study investigates the effects of H₂S on cell proliferation in human colon cancer HCT 116 cells and SW480 cells. We identified the two key enzymes, CBS and CSE, for H₂S synthesis in HCT 116 cells. An exogenously administered H₂S donor NaHS induced cell proliferation in a concentration‐dependent manner, with optimal proliferative concentration at 200 μmol/l. NaHS administration increased Akt and ERK phosphorylation. Blockade of Akt and ERK activation attenuated NaHS‐induced cell proliferation. Cell‐cycle analysis showed that NaHS treatment for 6 h decreased the proportion of cells in G₀–G₁ phase and increased the proportion of cells in S phase. Protein expressions of Cyclin D1 and PCNA (proliferating cell nuclear antigen) were not altered, but the cyclin‐dependent kinase inhibitor p21^Waf1/Cip1 was inhibited significantly by NaHS treatment. NaHS significantly reduced NO metabolite levels. In conclusion, NaHS induced human colon cancer cell proliferation. This effect might be mediated by the increase of Akt and ERK phosphorylation and the decrease of p21^Waf1/Cip1 expression and NO production. The results suggested a role for H₂S in human colonic cancer development.     

Knockdown of TMEM14A expression by RNAi inhibits the proliferation and invasion of human ovarian cancer cells

Transmembrane protein 14A (TMEM14A) is a member of TMEMs. Alterations in TMEMs expression have been identified in several types of cancer, but the expression and function of TMEM14A in ovarian cancer is still unclear. Here, analysis on the expression data of the Cancer Genome Atlas (TCGA) ovarian serous cystadenocarcinoma (OV) dataset demonstrated the overexpression of TMEM14A in ovarian cancer tissues compared with normal tissues, which was consistent with our real-time PCR analysis on ovarian cancer and normal tissues collected from 30 patients. In addition, TMEM14A knockdown in two ovarian cancer cell lines, A2780 and HO-8910, reduced cell proliferation, causes cell cycle arrest and suppressed cell invasion. Moreover, silencing of TMEM14A notably repressed G1/S cell cycle transition and cell invasion via down-regulating the expression of cell cycle related proteins (Cyclin D1, Cyclin E and PCNA) and metastasis-related proteins (MMP-2 and MMP-9), respectively. TMEM14A knockdown significantly reduced the phosphorylation status of Smad2 and Smad3, downstream effectors of TGF-β signalling. In summary, these results indicate that TMEM14A has a pro-tumorigenic effect in ovarian cancer cells, suggesting an important role of this protein in ovarian cancer oncogenesis and metastasis.     

桦木酸对人胃癌SGC-7901细胞增殖的影响*

目的:利用不同浓度的桦木酸对人胃癌SGC-7901细胞增殖的影响。方法:桦木酸设4个不同浓度(0、10、20、30 μg/ml),并采用常规化疗药物5-Fu处理作为阳性对照,以探究其对细胞增殖的影响。采用台盼蓝拒染法和吉姆萨染色法分别检测桦木酸对人胃癌SGC-7901细胞生长抑制率及克隆形成率;EdU法检测SGC-7901的细胞增殖;利用流式细胞术检测细胞周期, 应用qRT-PCR和Western blot分别检测细胞周期蛋白cyclin D1,cyclin B1的mRNA和蛋白表达水平。结果:不同浓度的桦木酸处理人胃癌SGC-7901细胞48 h后,其细胞生长抑制率显著升高(P＜0.05),克隆形成率和细胞增殖率均明显降低(P＜0.01),且呈剂量和时间依赖性;人胃癌SGC-7901细胞被阻滞在G1/G0期,细胞周期蛋白cyclin D1和cyclin B1的mRNA和蛋白表达量也随桦木酸浓度升高而显著降低(P＜0.01)。且与5-Fu对照组相比,桦木酸浓度为20 μg/ml和30 μg/ml时,细胞增殖能力明显降低,细胞周期被抑制,细胞周期蛋白表达量均明显降低(P ＜0.05)。结论:桦木酸通过下调cyclin B1和cyclin D1基因表达,将人胃癌SGC-7901细胞阻滞在G1/G0期,从而抑制细胞增殖。     

GPR48-Induced keratinocyte proliferation occurs through HB-EGF mediated EGFR transactivation

GPR48 can mediate keratinocyte proliferation and migration. Our investigations showed that AG1478, an inhibitor of EGFR tyrosine kinase, could block GPR48-mediated cellular processes. AG1478 treatment of Gpr48^+/+ cells also decreased phosphorylation of EGFR, ERK and STAT3. Subsequent screening using conditioned media immunodepleted of EGFR ligands identified HB-EGF as the ligand responsible for phosphorylation of EGFR, ERK and STAT3. HB-EGF was reduced in Gpr48^−/− cell culture medium, but its addition restored the phosphorylation of EGFR, ERK, STAT3, as well as cell proliferation. Confirmation that GPR48 mediates EGFR signaling pathway through HB-EGF was subsequently performed using an inhibitor of HB-EGF.     

桑黄子实体醇提物对SW620结肠癌细胞的抑制作用

为评价桑黄Sanghuangporus sanghuang子实体醇提物对SW620结肠癌细胞的影响,用alamarBlue?法测定细胞增殖率,用流式细胞术碘化丙啶（propidim iodide,PI）染色法和2′,7′-dichlorofluorescin diacetate (H₂DCFDA)染色法分别检测细胞早期凋亡率、细胞周期变化和活性氧（reactive oxygen species,ROS）释放量,结果表明桑黄子实体醇提物在12.5-100μg/mL作用浓度下具有抑制SW620细胞增殖的作用,但对中国仓鼠卵巢（Chinese hamster ovary cell,CHO）细胞和小鼠骨髓巨噬细胞的增殖无显著抑制作用;桑黄子实体醇提物能诱导SW620细胞凋亡,引起细胞周期变化,可降低G0/G1和G2/M期细胞数量,并呈现浓度梯度依赖性,ROS实验结果提示桑黄子实体醇提物的促肿瘤细胞凋亡与ROS释放相关。     

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.     

串珠素表达下调参与低氧对大鼠心肌微血管内皮细胞增殖的抑制作用

低氧可以抑制内皮细胞增殖,但是其机理目前尚不清楚。串珠素在调节内皮细胞增殖中发挥着重要作用。为了探讨串珠素是否参与低氧对内皮细胞增殖的抑制,将大鼠心肌微血管内皮细胞在低氧或常氧状态下培养12 h后,用实时定量RT-PCR方法检测串珠素mRNA的表达。结果发现：低氧可以明显抑制串珠素mRNA的表达,与常氧状态下串珠素mRNA表达水平比较,差异显著（P〈0．05）。与此同时,低氧状态下或用串珠素抗体中和内源性串珠素,内皮细胞的增殖和对成纤维细胞生长因子的反应明显降低,粘着斑激酶（focal adhesion kinase,FAK）表达和细胞外信号调节激酶1／2（extracellular signal- regulated kinase,ERK1／2）活性明显下降。结果提示,串珠素表达下调可能通过抑制FAK介导的ERK1/2依赖的信号转导途径,参与低氧对大鼠心肌微血管内皮细胞增殖的抑制作用。     

CXCL5 knockdown expression inhibits human bladder cancer T24 cells proliferation and migration

CXCL5 (epithelial neutrophil activating peptide-78) which acts as a potent chemoattractant and activator of neutrophil function was reported to play a multifaceted role in tumorigenesis. To investigate the role of CXCL5 in bladder cancer progression, we examined the CXCL5 expression in bladder cancer tissues by real-time PCR and Western blot, additionally, we used shRNA-mediated silencing to generate stable CXCL5 silenced bladder cancer T24 cells and defined its biological functions. Our results demonstrated that mRNA and protein of CXCL5 is increased in human bladder tumor tissues and cell lines, down-regulation of CXCL5 in T24 cells resulted in significantly decreased cell proliferation, migration and increased cell apoptosis in vitro through Snail, PI3K-AKT and ERK1/2 signaling pathways. These data suggest that CXCL5 is critical for bladder tumor growth and progression, it may represent a potential application in cancer diagnosis and therapy.     

Silencing ARHGAP9 correlates with the risk of breast cancer and inhibits the proliferation,migration, and invasion of breast cancer

Breast cancer (BC) is one of the most common malignant tumors in women, and screening relevant genes and markers that are involved in BC tumor genesis and progression is of great value. We previously found that messenger RNA expression of ARHGAP9 was high in BC tissue, but it is unclear whether ARHGAP9 participates in the progression of human BC. In this study, we found that ARHGAP9 expression was correlated with poor patient survival, American Joint Committee on Cancer clinical staging, tumor size, and tumor differentiation. MCF‐7 and MDA‐MB‐231 cells exhibited higher expression of ARHGAP9 than other human BC cell lines (HCC1937, MDA‐MB‐453, ZR‐75‐1, and Hs 578T). Knockdown of ARHGAP9 in human BC cells markedly reduced the cell proliferation, migration, and invasive ability of MCF‐7 and MDA‐MB‐231 cells. Furthermore, small interfering RNA (siRNA) of ARHGAP9 also induced G0‐G1 cell cycle arrest and apoptosis in MCF‐7 and MDA‐MB‐231 cells. Expressions of cell cycle markers (CDK2 and CCNB1) and invasion‐related protein (RhoC and MTA1) were downregulated in siRNA‐ARHGAP9‐transfected cells. siRNA of ARHGAP9 also inhibited the phosphorylation of mitogen‐activated protein kinases in BC cells. In conclusion, the abnormal expression of ARHGAP9 may correlate with the genesis, development, and diagnosis of BC.