Oligonucleosomal DNA Fragmentation in MCF-7 Cells Undergoing Palmitate-Induced Apoptosis

Oligonucleosomal fragmentation of nuclear DNA is the late-stage apoptosis hallmark. In apoptotic mammalian cells the fragmentation is catalyzed by DFF40/CAD DNase primarily activated by caspase 3 through the site-specific proteolytic cleavage of DFF45/ICAD. A deletion in the casp3 gene of human breast adenocarcinoma MCF-7 results in lack of procaspase 3 in these cells. The absence of caspase 3 in MCF-7 leads to disability to activate oligonucleosomal DNA fragmentation in TNF-alpha induced cell death. In this study, sodium palmitate was used as an apoptotic stimulus for MCF-7. It has been shown that palmitate but not TNF-alpha induces both apoptotic changes in nuclei and oligonucleosomal DNA fragmentation in casp3-mutated MCF-7. Activation and accumulation of 40-50 kD DFF40-like DNases in nuclei of palmitate-treated apoptotic MCF-7 were detected by SDS-DNA-PAGE assay. Microsomal fraction of apoptotic MCF-7 does not contain any detectable DNases, but activates 40-50 kD nucleases when incubated with human placental chromatin. Furthermore, microsomes of apoptotic MCF-7 induce oligonucleosomal fragmentation of chromatin in a cell-free system. Both the activation of DNases and chromatin fragmentation are suppressed in the presence of the caspase 3/7 inhibitor Ac-DEVD-CHO. Microsome-associated caspase 7 is suggested to play an essential role in the induction of oligonucleosomal DNA fragmentation in casp3-deficient MCF-7 cells.     

Sulindac Enhances the Killing of Cancer Cells Exposed to Oxidative Stress

Background

Sulindac is an FDA-approved non-steroidal anti-inflammatory drug (NSAID) that affects prostaglandin production by inhibiting cyclooxygenases (COX) 1 and 2. Sulindac has also been of interest for more than decade as a chemopreventive for adenomatous colorectal polyps and colon cancer.

Principal Findings

Pretreatment of human colon and lung cancer cells with sulindac enhances killing by an oxidizing agent such as tert-butyl hydroperoxide (TBHP) or hydrogen peroxide. This effect does not involve cyclooxygenase (COX) inhibition. However, under the conditions used, there is a significant increase in reactive oxygen species (ROS) within the cancer cells and a loss of mitochondrial membrane potential, suggesting that cell death is due to apoptosis, which was confirmed by Tunel assay. In contrast, this enhanced killing was not observed with normal lung or colon cells.

Significance

These results indicate that normal and cancer cells handle oxidative stress in different ways and sulindac can enhance this difference. The combination of sulindac and an oxidizing agent could have therapeutic value.     

白藜芦醇对胰腺癌细胞增殖和凋亡影响的研究

为了研究白藜芦醇对人胰腺癌细胞增殖和存活的影响,利用不同浓度白藜芦醇处理PANC-1和Bx PC-3细胞,通过MTS和软琼脂集落实验检测白藜芦醇对胰腺癌细胞的停泊依赖和停泊非依赖增殖的抑制。同时,采用免疫印迹的方法,检测不同浓度白藜芦醇对胰腺癌细胞增殖相关信号通路的调控,及不同时间点凋亡激活相关蛋白分子的表达。结果发现白藜芦醇能剂量依赖性抑制PANC-1和Bx PC-3细胞增殖,并且这种增殖抑制作用与表皮生长因子受体(epithelial growth factor receptor,EGFR)及下游信号通路的抑制有关。一定浓度的白藜芦醇能诱导胰腺癌细胞发生凋亡,caspase3和caspase7被剪切活化。通过检测Bcl-2(B-cell lymphoma-2,Bcl-2)促存活家族蛋白,证实白藜芦醇能有效抑制Mcl-1(myeloid cell leukemia-1,Mcl-1)的表达,并不改变Bcl-2和Bcl-XL的表达。实验结果初步表明,白藜芦醇抑制胰腺癌的增殖与存活与EGFR信号通路及促存活蛋白Mcl-1的表达下调有关。     

Knockdown of TRPM8 Suppresses Cancer Malignancy and Enhances Epirubicin-induced Apoptosis in Human Osteosarcoma Cells

As the function of transient receptor potential melastatin member 8 (TRPM8) in osteosarcoma is still unknown, we aim to investigate the possible effects and potential mechanisms of TRPM8 on cell proliferation, metastasis and chemosensitivity in osteosarcoma cells. We find that TRPM8 is aberrantly over-expressed in human osteosarcoma tissues and cell lines. Knockdown of TRPM8 by siRNA in osteosarcoma cells leads to the impaired regulation of intracellular Ca²⁺ concentration and then the Akt-GSK-3β pathway and the phosphorylation of p44/p42 and FAK are suppressed. Knockdown of TRPM8 not only negatively influences the cell proliferation and metastasis but also enhances epirubicin-induced cell apoptosis. Such results reveal that TRPM8 is worthy further investigation for its potential as a clinical biomarker and therapeutic target in osteosarcoma.     

p33 Enhances UVB-Induced Apoptosis in Melanoma Cells

The biological functions of the tumor suppressor ING1 have been studied extensively in the past few years since it was cloned. It shares many biological functions with p53 and has been reported to mediate growth arrest, senescence, apoptosis, anchorage-dependent growth, chemosensitivity, and DNA repair. Some of these functions, such as cell cycle arrest and apoptosis, have been shown to be dependent on the activity of both ING1 and p53 proteins. Two recent reports by Scott and colleagues demonstrate that p33^ING1 (one of the ING1 isoforms) translocates to the nucleus and binds to PCNA upon UV irradiation. Here we report that p33^ING1 mediates UV-induced cell death in melanoma cells. We found that overexpression of p33^ING1 increased while the introduction of an antisense p33^ING1 plasmid reduced the apoptosis rate in melanoma cells after UVB irradiation. We also demonstrated that enhancement of UV-induced apoptosis by p33^ING1 required the presence of p53. Moreover, we found that p33^ING1 enhanced the expression of endogenous Bax and altered the mitochondrial membrane potential. Taken together, these observations strongly suggest that p33^ING1 cooperates with p53 in UVB-induced apoptosis via the mitochondrial cell death pathway in melanoma cells.     

Depletion of HDAC6 Enhances Cisplatin-Induced DNA Damage and Apoptosis in Non-Small Cell Lung Cancer Cells

Histone deacetylase inhibitors (HDACi) are promising therapeutic agents which are currently used in combination with chemotherapeutic agents in clinical trials for cancer treatment including non-small cell lung cancer (NSCLC). However, the mechanisms underlying their anti-tumor activities remain elusive. Previous studies showed that inhibition of HDAC6 induces DNA damage and sensitizes transformed cells to anti-tumor agents such as etoposide and doxorubicin. Here, we showed that depletion of HDAC6 in two NSCLC cell lines, H292 and A549, sensitized cells to cisplatin, one of the first-line chemotherapeutic agents used to treat NSCLC. We suggested that depletion of HDAC6 increased cisplatin-induced cytotoxicity was due to the enhancement of apoptosis via activating ATR/Chk1 pathway. Furthermore, we showed that HDAC6 protein levels were positively correlated with cisplatin IC(50) in 15 NSCLC cell lines. Lastly, depletion of HDAC6 in H292 xenografts rendered decreased tumor weight and volume and exhibited increased basal apoptosis compared with the controls in a xenograft mouse model. In summary, our findings suggest that HDAC6 is positively associated with cisplatin resistance in NSCLC and reveal HDAC6 as a potential novel therapeutic target for platinum refractory NSCLC.     

Resveratrol Couples Apoptosis with Autophagy in UVB-Irradiated HaCaT Cells

UVB radiation causes about 90% of non-melanoma skin cancers by damaging DNA either directly or indirectly by increasing levels of reactive oxygen species (ROS). Skin, chronically exposed to both endogenous and environmental pro-oxidant agents, contains a well-organised system of chemical and enzymatic antioxidants. However, increased or prolonged free radical action can overwhelm ROS defence mechanisms, contributing to the development of cutaneous diseases. Thus, new strategies for skin protection comprise the use of food antioxidants to counteract oxidative stress. Resveratrol, a phytoalexin from grape, has gained a great interest for its ability to influence several biological mechanisms like redox balance, cell proliferation, signal transduction pathways, immune and inflammatory response. Therefore, the potential of resveratrol to modify skin cell response to UVB exposure could turn out to be a useful option to protect skin from sunlight-induced degenerative diseases. To investigate into this matter, HaCaT cells, a largely used model for human skin keratinocytes, were treated with 25 or 100 µM resveratrol for 2 and 24 hours prior to UVB irradiation (10 to 100 mJ/cm²). Cell viability and molecular markers of proliferation, oxidative stress, apoptosis, and autophagy were analyzed. In HaCaT cells resveratrol pretreatment: reduces UVB-induced ROS formation, enhances the detrimental effect of UVB on HaCaT cell vitality, increases UVB-induced caspase 8, PARP cleavage, and induces autophagy. These findings suggest that resveratrol could exert photochemopreventive effects by enhancing UVB-induced apoptosis and by inducing autophagy, thus reducing the odds that damaged cells could escape programmed cell death and initiate malignant transformation.     

抑制c-FLIP基因促进TRAIL诱导的乳腺癌细胞凋亡(英文)

目的:探讨抑制c-FLIP的表达对TRAIL诱导乳腺癌细胞MCF-7凋亡的影响。方法:重组腺病毒Ad-c-FLIP-siRNA和Ad-sTRAIL单独及联合感染对TRAIL耐药的乳腺癌细胞MCF-7,应用实时荧光定量聚合酶链反应(Real-time PCR)检测病毒感染后各组细胞内c-FLIP和TRAIL的mRNA表达变化;MTT法和结晶紫染色法检测MCF-7细胞活性,Hoechst 33258荧光染色检测各组细胞的凋亡情况。结果:与阴性对照组比较,c-FLIP-siRNA组和c-FLIP-siRNA+TRAIL组c-FLIP的mRNA相对表达量分别是(0.32±0.16)和(0.39±0.48)倍;TRAIL组和c-FLIP-siRNA+TRAIL组TRAIL的mRNA相对表达量分别是(96.21±1.54)和(87.33±1.66)倍;TRAIL组、c-FLIP-siRNA组及c-FLIP-siRNA+TRAIL组的抑制率(%)分别为(60.27±1.25)、(11.34±1.74)及(74.91±2.12)。对比阴性对照组的凋亡率(3.12±1.54),TRAIL组(12.79±2.46)和c-FLIP-siRNA+TRAIL组(25.50±3.17)组的凋亡率明显增高(P0.05),c-FLIP-siRNA组(6.85±2.82)的凋亡率变化不明显,差异无统计学意义(P0.05)。结论:siRNA抑制c-FLIP基因的表达能显著促进TRAIL对乳腺癌细胞MCF-7凋亡的诱导作用。     

抑制c-FLIP基因促进TRAIL诱导的乳腺癌细胞凋亡

目的：探讨抑制c-FLIP的表达对TRAIL诱导乳腺癌细胞MCF-7凋亡的影响。方法：重组腺病毒Ad-c-FLIP-siRNA和Ad-sTRAIL单独及联合感染对TRAIL耐药的乳腺癌细胞MCF-7,应用实时荧光定量聚合酶链反应（Real-time PCR）检测病毒感染后各组细胞内c-FLIP和TRAIL的mRNA表达变化;MTT法和结晶紫染色法检测MCF-7细胞活性,Hoechst 33258荧光染色检测各组细胞的凋亡情况。结果：与阴性对照组比较,c-FLIP-siRNA组和c-FLIP-siRNA＋TRAIL组c-FLIP的mRNA相对表达量分别是（0.32±0.16）和（0.39±0.48）倍;TRAIL组和c-FLIP-siRNA＋TRAIL组TRAIL的mRNA相对表达量分别是（96.21±1.54）和（87.33±1.66）倍;TRAIL组、c-FLIP-siRNA组及c-FLIP-siRNA＋TRAIL组的抑制率（%）分别为（60.27±1.25）、（11.34±1.74）及（74.91±2.12）。对比阴性对照组的凋亡率（3.12±1.54）,TRAIL组（12.79±2.46）和c-FLIP-siRNA＋TRAIL组（25.50±3.17）组的凋亡率明显增高（P〈0.05）,c-FLIP-siRNA组（6.85±2.82）的凋亡率变化不明显,差异无统计学意义（P〉0.05）。结论：siRNA抑制c-FLIP基因的表达能显著促进TRAIL对乳腺癌细胞MCF-7凋亡的诱导作用。     

Prion Protein Protects Cancer Cells against Endoplasmic Reticulum Stress Induced Apoptosis

Unfolded protein response(UPR) is an adaptive reaction for cells to reduce endoplasmic reticulum(ER) stress. In many types of cancers, such as lung cancer and pancreatic cancer, cancer cells may harness ER stress to facilitate their survival and growth. Prion protein(PrP) is a glycosylated cell surface protein that has been shown to be up-regulated in many cancer cells. Since PrP is a protein prone to misfolding, ER stress can result in under-glycosylated PrP, which in turn may activate ER stress. To assess whether ER stress leads to the production of under-glycosylated PrP and whether underglycosylated PrP may contribute to ER stress thus leading to cancer cell apoptosis, we treated different cancer cells with brefeldin A(BFA), thapsigargin(Thps), and tunicamycin(TM). We found that although BFA, Thps, and TM treatment activated UPR, only ATF4 was consistently activated by these reagents, but not other branches of ER stress. However, the canonical PERK-eIF2α-ATF4 did not account for the observed activation of ATF4 in lung cancer cells. In addition, BFA,but neither Thps nor TM, significantly stimulated the expression of cytosolic PrP. Finally, we found that the levels of PrP contributed to anti-apoptosis activity of BFA-induced cancer cell death. Thus, the pathway of BFA-induced persistent ER stress may be targeted for lung and pancreatic cancer treatment.     

OBATOCLAX and ABT-737 Induce ER Stress Responses in Human Melanoma Cells that Limit Induction of Apoptosis

Anti-apoptotic Bcl-2 family proteins, in particular, Mcl-1, are known to play a critical role in resistance of human melanoma cells to induction of apoptosis by endoplasmic reticulum stress and other agents. The present study examined whether the BH3 mimetics, Obatoclax and ABT-737, which inhibit multiple anti-apoptotic Bcl-2 family proteins, would overcome resistance to apoptosis. We report that both agents induced a strong unfolded protein response (UPR) and that RNAi knockdown of UPR signalling proteins ATF6, IRE1α and XBP-1 inhibited Mcl-1 upregulation and increased sensitivity to the agents. These results demonstrate that inhibition of anti-apoptotic Bcl-2 proteins by Obatoclax and ABT-737 appears to elicit a protective feedback response in melanoma cells, by upregulation of Mcl-1 via induction of the UPR. We also report that Obatoclax, but not ABT-737, strongly induces autophagy, which appears to play a role in determining melanoma sensitivity to the agents.     

PI3K Inhibition Enhances Doxorubicin-Induced Apoptosis in Sarcoma Cells

We searched for a drug capable of sensitization of sarcoma cells to doxorubicin (DOX). We report that the dual PI3K/mTOR inhibitor PI103 enhances the efficacy of DOX in several sarcoma cell lines and interacts with DOX in the induction of apoptosis. PI103 decreased the expression of MDR1 and MRP1, which resulted in DOX accumulation. However, the enhancement of DOX-induced apoptosis was unrelated to DOX accumulation. Neither did it involve inhibition of mTOR. Instead, the combination treatment of DOX plus PI103 activated Bax, the mitochondrial apoptosis pathway, and caspase 3. Caspase 3 activation was also observed in xenografts of sarcoma cells in nude mice upon combination of DOX with the specific PI3K inhibitor GDC-0941. Although the increase in apoptosis did not further impact on tumor growth when compared to the efficient growth inhibition by GDC-0941 alone, these findings suggest that inhibition of PI3K may improve DOX-induced proapoptotic effects in sarcoma. Taken together with similar recent studies of neuroblastoma- and glioblastoma-derived cells, PI3K inhibition seems to be a more general option to sensitize tumor cells to anthracyclines.