蛋白酶体抑制剂MG-132逆转人结肠癌细胞获得性TRAIL耐药

目的: 探讨蛋白酶体抑制剂MG132逆转人结肠癌细胞获得性TRAIL耐药的作用及其可能的机制。方法：在MG132和TRAIL蛋白联合处理获得性TRAIL耐药的人结肠癌细胞DLD1TRAIL/R后,MTT法检测细胞的存活率,流式细胞术检测细胞凋亡率,Western blotting检测细胞中各种凋亡相关蛋白的表达和JNK激酶的磷酸化水平。结果：MG132联合TRAIL蛋白处理DLD1TRAIL/R细胞后,其细胞存活率明显下降（P<0.01）,而细胞凋亡率则明显增加（P<0.01）。Western blotting检测显示,联合处理后DLD1TRAIL/R细胞中各种凋亡信号分子包括caspase8、caspase9、caspase3、Bid和PARP蛋白均明显活化,线粒体中细胞色素C和Smac蛋白大量释放;进一步的Western blotting检测显示,死亡受体DR5和凋亡诱导蛋白Bik的表达水平明显增高,而其他凋亡信号分子包括DR4、Bax、Bak、BclXL、XIAP和Survivin等则无明显改变;检测结果还显示,MG132能诱导JNK激酶发生磷酸化,使用JNK激酶抑制剂SP600125能够阻断MG132诱导的DR5表达,但不影响Bik的表达,并且不能减弱MG132和TRAIL蛋白联合处理对DLD1TRAIL/R细胞的致凋亡效应（P<0.05）。结论：蛋白酶体抑制剂MG132能逆转人结肠癌细胞DLD1TRAIL/R的获得性TRAIL耐药,其机制可能与Bik蛋白上调后启动线粒体凋亡途径有关,与JNK通路激活无关。     

蛋白酶体抑制剂MG-132逆转人结肠癌细胞获得性TRAIL耐药

目的:探讨蛋白酶体抑制剂MG-132逆转人结肠癌细胞获得性TRAIL耐药的作用及其可能的机制.方法:在MG-132和TRAIL蛋白联合处理获得性TRAIL耐药的人结肠癌细胞DLD1-TRAIL/R后,MTT法检测细胞的存活率,流式细胞术检测细胞凋亡率,Western blotting检测细胞中各种凋亡相关蛋白的表达和JNK激酶的磷酸化水平.结果:MG-132联合TRAIL蛋白处理DLD1-TRAIL/R细胞后,其细胞存活率明显下降(P<0.01),而细胞凋亡率则明显增加(P<0.01).Western blotting检测显示,联合处理后DLD1-TRAIL/R细胞中各种凋亡信号分子包括caspase-8、caspase-9、caspase-3、Bid和PARP蛋白均明显活化,线粒体中细胞色素C和Smac蛋白大量释放;进一步的Western blotting检测显示,死亡受体DR5和凋亡诱导蛋白Bik的表达水平明显增高,而其他凋亡信号分子包括DR4、Bax、Bak、Bcl-XL、XIAP和Survivin等则无明显改变;检测结果还显示,MG-132能诱导JNK激酶发生磷酸化,使用JNK激酶抑制剂SP600125能够阻断MG-132诱导的DR5表达,但不影响Bik的表达,并且不能减弱MG-132和TRAIL蛋白联合处理对DLD1-TRAIL/R细胞的致凋亡效应(P<0.05).结论:蛋白酶体抑制剂MG-132能逆转人结肠癌细胞DLD1-TRAIL/R的获得性TRAIL耐药,其机制可能与Bik蛋白上调后启动线粒体凋亡途径有关,与JNK通路激活无关.     

白藜芦醇对MG132诱导K562细胞凋亡影响的研究

目的:研究白藜芦醇能否增加K562细胞对MG132的敏感性.方法:MG132单独及联合白藜芦醇作用于K562细胞,MTT法检测细胞活力,流式细胞仪检测细胞凋亡,蛋白质印迹法检测PARP剪切水平.结果:＞50 μmol/L白藜芦醇能够有效地抑制K562细胞的活力,P＜0.01;MG132单独处理K562细胞24 h,对细胞活力的抑制呈剂量依赖性,P＜0.01;而联合用药时,白藜芦醇呈剂量依赖性的对抗了MG132对K562细胞的毒性,并且5μmol/L白藜芦醇有效的降低了K562细胞凋亡率,P＜0.05.结论:白藜芦醇具有对抗MG132诱导细胞毒性的潜在作用.     

Drug-induced caspase 8 upregulation sensitises cisplatin-resistant ovarian carcinoma cells to rhTRAIL-induced apoptosis

Background:

Drug resistance is a major problem in ovarian cancer. Triggering apoptosis using death ligands such as tumour necrosis factor-related apoptosis inducing ligand (TRAIL) might overcome chemoresistance.

Methods:

We investigated whether acquired cisplatin resistance affects sensitivity to recombinant human (rh) TRAIL alone or in combination with cisplatin in an ovarian cancer cell line model consisting of A2780 and its cisplatin-resistant subline CP70.

Results:

Combining cisplatin and rhTRAIL strongly enhanced apoptosis in both cell lines. CP70 expressed less caspase 8 protein, whereas mRNA levels were similar compared with A2780. Pre-exposure of particularly CP70 to cisplatin resulted in strongly elevated caspase 8 protein and mRNA levels. Caspase 8 mRNA turnover and protein stability in the presence or absence of cisplatin did not differ between both cell lines. Cisplatin-induced caspase 8 protein levels were essential for the rhTRAIL-sensitising effect as demonstrated using caspase 8 small-interfering RNA (siRNA) and caspase-8 overexpressing constructs. Cellular FLICE-inhibitory protein (c-FLIP) and p53 siRNA experiments showed that neither an altered caspase 8/c-FLIP ratio nor a p53-dependent increase in DR5 membrane expression following cisplatin were involved in rhTRAIL sensitisation.

Conclusion:

Cisplatin enhances rhTRAIL-induced apoptosis in cisplatin-resistant ovarian cancer cells, and induction of caspase 8 protein expression is the key factor of rhTRAIL sensitisation.     

MG132 induced apoptosis pathway in HL-60 cells and impact of allogeneic mixed lymphocyte reaction

Objective  

To investigate the proteasome inhibitor MG132-induced apoptosis pathway in HL-60 cells and the role of allogeneic mixed lymphocyte reaction.     

Securin depletion sensitizes human colon cancer cells to fisetin-induced apoptosis

Securin is highly-expressed in various tumors including those of the colon. In this study, the role of securin in the anticancer effects of fisetin on human colon cancer cells was investigated. Fisetin-induced apoptosis in HCT116 cells as indicated by TUNEL assay, Annexin V-FITC/PI double staining, Ser15-phosphorylation of p53, and cleavages of procaspase-3 and PARP. These effects were enhanced in HCT116 securin-null cells or in wild-type cells in which securin was knockdown by siRNA, but attenuated when wild-type or non-degradable securin was reconstituted. Moreover, fisetin did not induce apoptosis in HCT116 p53-null and HT-29 p53-mutant cells. Knockdown of securin in HCT116 p53-null cells potentiated fisetin-induced cytotoxicity by induction of apoptosis. Our results provide the first evidence to support that securin depletion sensitizes human colon cancer cells to fisetin-induced apoptosis.     

The proteasome inhibitor MG132 induces apoptosis in human pancreatic cancer cells

The ubiquitin-proteasome system plays a critical role in the regulation of programmed cell death. Proteasome inhibitors induce apoptosis in various cancer cells and have antitumor effects in murine tumor models. In the present study, we investigated whether the cell-permeable proteasome inhibitor MG132 (carbobenzoxyl-L-leucyl-L-leucyl-L-leucinal) reduced the growth of a human pancreatic cancer cell line through induction of apoptosis in vitro. The effects of MG132 (0.125-1.000 microM) on the growth of the human pancreatic cancer cell line BxPC-3 were analyzed by cell count and MTT assay. Apoptosis was determined by FACS analysis after annexin V and propidium iodide staining and the enrichment of intracellular nucleosomes. The proteasome inhibitor MG132 decreased cell growth of the human pancreatic cancer cell line BxPC-3 in a dose- and time-dependent manner. This effect was at least in part mediated by the induction of apoptosis. A combination therapy with standard cytotoxic agents and proteasome inhibitors could potentially be a novel therapeutic strategy in treatment of pancreatic cancer.     

The Proteasomal Inhibitor MG132 Potentiates Apoptosis of Triptolide-Treated K562 Cells by Regulating the NF-κB Signal Pathway

OBJECTIVE To explore the anticancer mechanism of triptolide in human leukemia K562 cells,and to further determine whether the proteasomal inhibitor,MG132,can potentiate apoptosis in triptolide-treated K562 cells.METHODS Apoptosis was assessed via annexin V/PI double-labeled cytometry.The expressions of the IκBα and NF-κB/p65 proteins in K562 cells was investigated using Western blo ing.RESULTS The inhibitory rates of K562 cells treated by triptolide gradually increased in a dose-and time-dependent manner,and treatment with triptolide plus MG132 potentiated the apoptotic rate.Triptolide inhibited the degradation of the IκBα protein and the nuclear localization of NF-κB/p65 proteins induced by TNF-α,and MG132 potentiated the effect of triptolide.Triptolide plus MG132 almost completely blocked the NF-κB activation induced by TNF-α.CONCLUSION The anti-proliferative activities of triptolide and MG132 were related to the NF-κB signal pathway.     

Inhibition of proteasome activity sensitizes human granulosa tumor cells to TRAIL-induced cell death

Human granulosa tumor cell (GCT) lines (KGN and COV434) were utilized to establish the combinatorial effects of TRAIL treatment and a proteasome inhibitor on cell viability, in vitro. TRAIL induced a slight, but consistent, decrease in viability for both cell lines, and pharmacologic inhibition of proteasome activity, using Z-LLF-CHO (Z-LLF), synergistically enhanced TRAIL-induced loss of viability. This enhanced sensitization was associated with the up-regulation of a TRAIL receptor, DR5, and pro-apoptotic Bax. Targeted reduction of p53 expression revealed that the ability of Z-LLF to enhance DR5 and Bax expression occurs independent of p53 activity. These studies underscore the potential to develop targeted treatments for GCTs using established cell lines.     

Targeting pro-apoptotic trail receptors sensitizes HeLa cervical cancer cells to irradiation-induced apoptosis

PURPOSE: To investigate the potential of irradiation in combination with drugs targeting the tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) death receptor (DR)4 and DR5 and their mechanism of action in a cervical cancer cell line. METHODS AND MATERIALS: Recombinant human TRAIL (rhTRAIL) and the agonistic antibodies against DR4 and DR5 were added to irradiated HeLa cells. The effect was evaluated with apoptosis and cytotoxicity assays and at the protein level. Membrane receptor expression was measured with flow cytometry. Small-interfering RNA against p53, DR4, and DR5 was used to investigate their function on the combined effect. RESULTS: rhTRAIL and the agonistic DR4 and DR5 antibodies strongly enhanced 10-Gy-induced apoptosis. This extra effect was 22%, 23%, and 29% for rhTRAIL, DR4, and DR5, respectively. Irradiation increased p53 expression and increased the membrane expression of DR5 and DR4. p53 suppression, as well as small-interfering RNA against DR5, resulted in a significant downregulation of DR5 membrane expression but did not affect apoptosis induced by irradiation and rhTRAIL. After small-interfering RNA against DR4, rhTRAIL-induced apoptosis and the additive effect of irradiation on rhTRAIL-induced apoptosis were abrogated, implicating an important role for DR4 in apoptosis induced through irradiation in combination with rhTRAIL. CONCLUSION: Irradiation-induced apoptosis is strongly enhanced by targeting the pro-apoptotic TRAIL receptors DR4 or DR5. Irradiation results in a p53-dependent increase in DR5 membrane expression. The sensitizing effect of rhTRAIL on irradiation in the HeLa cell line is, however especially mediated through the DR4 receptor.     

蛋白酶体抑制剂MG132诱导HL-60细胞凋亡前G2/M期阻滞及机制

背景和目的:蛋白酶体(proteasome)抑制剂能够诱导多种肿瘤细胞凋亡,是一种潜在的有应用前景的抗肿瘤剂.本研究旨在探讨蛋白酶体抑制剂MGl32(Z-Leu-Leu-Leu-CHO)诱导白血病细胞HL-60凋亡和C2/M期阻滞的机制.方法:采用荧光显微镜观察、流式细胞术和免疫印迹研究测定MG132诱导HL-60细胞凋亡和周期阻滞及机制.结果:2μmol/L的MG132能够有效地诱导HL-60细胞凋亡,用药后24 h就显现有细胞凋亡;在MG132诱导HL-60细胞凋亡出现之前有一个明显的G2/M期阻滞,加MG132后12 h时G2/M期时相百分比为63.42±2.02;24 h时加MG132组细胞凋亡为16.67±1.48,与对照组G2/M期时相百分比为7.29±3.01及细胞凋亡为0相比,两者之间有显著性差别(P＜0.01);咖啡因CAF能够减少MG132诱导HL-60细胞出现的G2/M期阻滞,同时也减少凋亡细胞的比例;细胞周期检查点的负调控因子p21waf/cip1蛋白在加MG132处理后3 h有明显的表达,但并未能检测到p53和p27蛋白.结论:MG132诱导HL-60细胞凋亡之前有一个明显的G2/M期阻滞,p21蛋白表达明显上调提示:是p21waf/cip1而不是p53或其同源蛋白参与了其中的调控.     

Proteasome inhibition mediates p53 reactivation and anti-cancer activity of 6-Gingerol in cervical cancer cells

Human papilloma virus (HPV) expressing E6 and E7 oncoproteins, is known to inactivate the tumor suppressor p53 through proteasomal degradation in cervical cancers. Therefore, use of small molecules for inhibition of proteasome function and induction of p53 reactivation is a promising strategy for induction of apoptosis in cervical cancer cells. The polyphenolic alkanone, 6-Gingerol (6G), present in the pungent extracts of ginger (Zingiber officinale Roscoe) has shown potent anti-tumorigenic and pro-apoptotic activities against a variety of cancers. In this study we explored the molecular mechanism of action of 6G in human cervical cancer cells in vitro and in vivo. 6G potently inhibited proliferation of the HPV positive cervical cancer cells. 6G was found to: (i) inhibit the chymotrypsin activity of proteasomes, (ii) induce reactivation of p53, (iii) increase levels of p21, (iv) induce DNA damage and G2/M cell cycle arrest, (v) alter expression levels of p53-associated apoptotic markers like, cleaved caspase-3 and PARP, and (vi) potentiate the cytotoxicity of cisplatin. 6G treatment induced significant reduction of tumor volume, tumor weight, proteasome inhibition and p53 accumulation in HeLa xenograft tumor cells in vivo. The 6G treatment was devoid of toxic effects as it did not affect body weights, hematological and osteogenic parameters. Taken together, our data underscores the therapeutic and chemosensitizing effects of 6G in the management and treatment of cervical cancer.     

Proteasome inhibitor MG132 reverses multidrug resistance of gastric cancer through enhancing apoptosis and inhibiting P-gp

Multidrug resistance (MDR) is a major impediment to the effective chemotherapy of many human malignancies. Although much effort has been devoted to develop new drugs for overcoming MDR, until now, still no useful method of reversing MDR, suitable for clinical use, has emerged from this large quantity of work. Some researchers have reported that proteasome inhibitors could induce apoptosis in a variety of cancer cells. In the present study, we found that, in vincristine-resistant human gastric cancer cell line SGC7901/VCR, proteasome inhibitor MG132 was an effective inducer of apoptosis, and also had the capacity of downregulating the expression of anti-apoptotic Bcl-2 and MDR1 (P-gp), by which MG132 resensitized tumor cells to the apoptosis induced by anticancer drugs. Data presented by drug sensitivity assay further demonstrated that MG132 could reverse the resistant phenotype of gastric cancer cells effectively through both enhancing drug-induced apoptosis and inhibiting P-gp. The further study of the effectiveness and safety of proteasome inhibitor in vivo may be helpful for developing a new possible strategy to treat gastric cancer MDR.     

Proteasome inhibitor sensitizes oral squamous cell carcinoma cells to TRAIL-mediated apoptosis

Oral squamous cell carcinoma (OSCC) cells are relatively resistant to tumor necrosis factor-related apoptosis-inducing ligand (TRAIL)-mediated apoptosis during culture. We investigated the role of a proteaosome inhibitor in the survival and apoptosis of these cells. We found that the proteasome inhibitor MG132 markedly accelerated TRAIL-mediated apoptosis in OSCC cell lines HSC-2 and HSC-3. Addition of TRAIL to MG132-treated cells resulted in Bid cleavage. Furthermore, the inhibitors of caspase-3, caspase-8 and caspase-9 reduced the accelerative effect of MG132 on TRAIL-mediated apoptosis. These results suggest that the pro-apoptotic effect of a proteasome inhibitor on TRAIL-mediated apoptosis may contribute to both extrinsic and intrinsic pathways. MG132 enhanced the expression of the TRAIL receptors DR4 and DR5, and neutralization of DR5 receptors showed a marked reduction of TRAIL-mediated apoptosis, whereas that of DR4 was a partial reduction. MG132 also markedly reduced cellular FLICE-inhibitory protein (c-FLIP), cellular inhibitor of apoptosis protein-1 (cIAP-1), X-linked IAP (XIAP) and survivin. Therefore, MG132 provides partial regulation of TRAIL-mediated apoptosis in OSCC cells via modulation of DR5, c-FLIP, cIAP-1, XIAP and survivin. The proteasome inhibitor MG132 may therefore represent a novel strategy for overcoming resistance to TRAIL-mediated apoptosis in OSCC cells.     

BAG3 down-modulation sensitizes HPV18 HeLa cells to PEITC-induced apoptosis and restores p53

BAG3 is a multi-functional component of tumor cell pro-survival machinery, and its biological functions have been largely associated to proteasome system. Here, we show that BAG3 down-modulation resulted in reduced cell viability and enhanced PEITC-induced apoptosis largely more extensively in HeLa (HPV18⁺) rather than in C33A (HPV⁻) cervical carcinoma cell lines. Moreover, we demonstrate that BAG3 suppression led to a decrease of viral E6 oncoprotein and a concomitant recovery of p53 tumor suppressor, the best recognized target of E6 for proteasome degradation. E6 and p53 expression were modulated at protein level, since their respective mRNAs were unaffected. Taken together our findings reveal a novel role for BAG3 as host protein contributing to HPV18 E6-activated pro-survival strategies, and suggest a possible relevance of its expression levels in drug/radiotherapy-resistance of HPV18-bearing cervical carcinomas.     

Oncogenic WIP1 phosphatase attenuates the DNA damage response and sensitizes p53 mutant Jurkat cells to apoptosis

Wild-type (wt) p53-induced phosphatase 1 (Wip1), encoded by the protein phosphatase, Mg²⁺/Mn²⁺ dependent 1D (PPM1D) gene, is a serine/threonine phosphatase induced upon genotoxic stress in a p53-dependent manner. Wip1/PPM1D is frequently overexpressed, amplified and mutated in human solid tumors harboring wt p53 and is thus currently recognized as an oncogene. Oncogenic Wip1 dampens cellular stress responses, such as cell cycle checkpoints, apoptosis and senescence, and consequently increases resistance to anticancer therapeutics. Targeting Wip1 has emerged as a therapeutic strategy for tumors harboring wt p53. However, little is known about the efficacy of Wip1-targeted therapies in tumors lacking p53. The present study aimed to investigate the potential role of oncogenic Wip1 in p53 mutant (mt) Jurkat cells. In the present study, it was demonstrated that p53 mt Jurkat cells exhibited PPM1D/Wip1 gene amplification and expressed relatively high levels of Wip1, as confirmed by gene copy number and RNA expression analysis. In addition, Jurkat cells underwent G2 cell cycle arrest, apoptotic cell death and senescence in response to etoposide and doxorubicin, although the phosphorylation levels of DNA damage response (DDR) elements, including ataxia-telangiectasia mutated, ataxia-telangiestasia and Rad3-related, checkpoint kinase (Chk)1 and Chk2 were significantly low. Accordingly, the targeting of Wip1 phosphatase by RNA interference increased the phosphorylation of DDR elements, but decreased the rate of apoptosis in response to etoposide or doxorubicin in Jurkat cells. The induction of senescence or cell cycle arrest was not affected by the knockdown of Wip1. The results suggest that increased Wip1 expression enhances the apoptotic sensitivity of Jurkat cells in response to chemotherapeutic agents by attenuating DDR signaling. The present study highlights the possible pro-apoptotic role of Wip1 in a p53 mt T-cell acute lymphoblastic leukemia cell line. The data suggest the careful consideration of future treatment strategies aiming to manipulate or target Wip1 in human cancers lacking p53.