Fbw7/hCDC4 dimerization regulates its substrate interactions

Background

Membrane complement regulatory proteins (mCRPs) inhibit complement-mediated killing of human cells by human complement, a property that confers protection from complement to malignant breast cancer cells and that thwarts some immunotherapies. Metabolic mechanisms may come into play in protecting cancer cells from the complement system subsequent to relatively low levels of complement deposition.

Results

In differentiating these mechanisms, two types of human breast cancer cell lines, MCF7 (adenocarcinoma) and Bcap37 (medullary carcinoma) were cell-cycle synchronized using glutamine-deprivation followed by restoration. These cells were examined for the expression of two mCRPs (CD59 and CD55), and for subsequent susceptibility to antibody-mediated complement-induced membrane damage. After glutamine restoration, MCF7 and Bcap37 cells were synchronized into the G2/M phase and an average increased expression of CD59 and CD55 occurred with a corresponding resistance to complement-mediated damage. Blocking CD59 inhibitory function with monoclonal antibody revealed that CD59 played a key role in protecting unsynchronized Bcap37 and MCF7 cancer cells from the complement membrane attack complex. Interestingly, glutamine-deprivation did not significantly affect the expression of proteins e.g., the surface level of CD59 or CD55, but did increase the susceptibility to complement-mediated killing. One possible explanation is that glutamine-deprivation may have slowed the turnover rate of mCRPs, preventing the cells from replacing pre-existing mCRPs, as they became neutralized by covalent C4b and C3b depositions.

Conclusion

Taken together the findings are consistent with the conclusion that future immunotherapies should aim to achieve a highly specific and profound activation and deposition of complement as well as to disrupt the synthesis and expression of CD59 and CD55 by the cancer cells.     

Cardamonin induces G2/M arrest and apoptosis via activation of the JNK–FOXO3a pathway in breast cancer cells

Cardamonin (CD), a naturally occurring chalcone isolated from large black cardamom, was previously reported to suppress the proliferation of breast cancer cells. However, its precise molecular anti‐tumor mechanisms have not been well elucidated. In this study, we found that CD markedly inhibited the proliferation of MDA‐MB 231 and MCF‐7 breast cancer cells through the induction of G2/M arrest and apoptosis. Reactive oxygen species (ROS) plays a pivotal role in the inhibition of CD‐induced cell proliferation. Treatment with N‐acetyl‐cysteine (NAC), an ROS scavenger, blocked CD‐induced G2/M arrest and apoptosis in this study. Quenching of ROS by overexpression of catalase also blocked CD‐induced cell cycle arrest and apoptosis. We showed that CD enhanced the expression and nuclear translocation of Forkhead box O3 (FOXO3a) via upstream c‐Jun N‐terminal kinase, inducing the expression of FOXO3a and its target genes, including p21, p27, and Bim. This process led to the reduction of cyclin D1 and enhancement of activated caspase‐3 expression. The addition of NAC markedly reversed these effects, knockdown of FOXO3a using small interfering RNA also decreased CD‐induced G2/M arrest and apoptosis. In vivo, CD efficiently suppressed the growth of MDA‐MB 231 breast cancer xenograft tumors. Taken together, our data provide a molecular mechanistic rationale for CD‐induced cell cycle arrest and apoptosis in breast cancer cells.     

Mechanisms of apoptosis by the tumor suppressor Par-4

Par‐4 is a pro‐apoptotic, tumor suppressor protein that induces apoptosis selectively in cancer cells. Endoplasmic reticulum‐stress and higher levels of protein kinase A in tumor cells confer the coveted feature of cancer selective response to extracellular and intracellular Par‐4, respectively. Recent studies have shown that systemic Par‐4 confers resistance to tumor growth in mice, and that tumor‐resistance is transferable by bone‐marrow transplantation. Moreover, recombinant Par‐4 inhibits the growth of tumors in mice. As systemic Par‐4 induces apoptosis via cell surface GRP78, strategies that promote GRP78 trafficking to the cell surface are expected sensitize cancer cells to circulating levels of Par‐4. This review illustrates the domains and mechanisms by which Par‐4 orchestrates the apoptotic process in both cell culture models and in physiological settings. J. Cell. Physiol. 227: 3715–3721, 2012. © 2012 Wiley Periodicals, Inc.     

Identification of CD44 as a surface biomarker for drug resistance by surface proteome signature technology

We developed surface proteome signatures (SPS) for identification of new biomarkers playing a role in cancer drug resistance. SPS compares surface antigen expression of different cell lines by immunocytochemistry of a phage display antibody library directed to surface antigens of HT1080 fibrosarcoma cells. We applied SPS to compare the surface proteomes of two epithelial derived cancer cell lines, MCF7 and NCI/ADR-RES, which is drug resistant because of overexpression of the P-glycoprotein (P-gp) drug efflux pump. Surface proteomic profiling identified CD44 as an additional biomarker that distinguishes between these two cell lines. CD44 immunohistochemistry can distinguish between tumors derived from these lines and predict tumor response to doxorubicin in vivo. We further show that CD44 plays a role in drug resistance, independently of P-gp, in NCI/ADR-RES cells and increases expression of the antiapoptotic protein Bcl-xL. Our findings illustrate the utility of SPS to distinguish between cancer cell lines and their derived tumors and identify novel biomarkers involved in drug resistance.     

Comparative analysis reveals amino acids critical for anticancer activity of peptide CIGB‐552

Because of resistance development by cancer cells against current anticancer drugs, there is a considerable interest in developing novel antitumor agents. We have previously demonstrated that CIGB‐552, a novel cell‐penetrating synthetic peptide, was effective in reducing tumor size and increasing lifespan in tumor‐bearing mice. Studies of protein–peptide interactions have shown that COMMD1 protein is a major mediator of CIGB‐552 antitumor activity. Furthermore, a typical serine‐protease degradation pattern for CIGB‐552 in BALB/c mice serum was identified, yielding peptides which differ from CIGB‐552 in size and physical properties. In the present study, we show the results obtained from a comparative analysis between CIGB‐552 and its main metabolites regarding physicochemical properties, cellular internalization, and their capability to elicit apoptosis in MCF‐7 cells. None of the analyzed metabolites proved to be as effective as CIGB‐552 in promoting apoptosis in MCF‐7. Taking into account these results, it seemed important to examine their cell‐penetrating capacity and interaction with COMMD1. We show that internalization, a lipid binding‐dependent process, is impaired as well as metabolite–COMMD1 interaction, key component of the apoptotic mechanism. Altogether, our results suggest that features conferred by the amino acid sequence are decisive for CIGB‐552 biological activity, turning it into the minimal functional unit. Copyright © 2016 European Peptide Society and John Wiley & Sons, Ltd.     

Selective cytotoxicity and modulation of apoptotic signature of breast cancer cells by Pithecellobium dulce leaf extracts

We report the potent and selective cytotoxicity of the crude aqueous leaf extract from the medicinal plant, Pithecellobium dulce toward the human breast cancer cells (MCF‐7), but not the normal cells (MCF‐10A). The cytotoxicity was found to be dose and time dependent, as 300 µg/mL of the extract decreased the cell viability to 50% (IC₅₀) in 48 h. The induction of apoptosis in the breast cancer cells after treatment was confirmed by significant percentage (24.7%), of early apoptotic cells (AnnexinV ⁺Propidium Iodide^_) in treated cells as compared to control cells (3.5%). We observed a significant upregulation in the mRNA expression of various pro‐apoptotic gene such as Bax (21.1 folds), p21(14.4 folds), p53 (11.7 folds), TNF (10.2 folds) and fas (6.3 folds) after treatment as compared to untreated cells. On the other hand, the relative mRNA expression of anti‐apoptotic genes such as Bcl‐2, NF‐KB and Cdk was reduced. The selective upregulation of pro‐apoptotic gene and down regulation of specific anti‐apoptotic genes could be the inducing factor for apoptotic cell death in MCF‐7 cells after treatment with the herbal extract. We believe that our findings provide a foundation for further studies on this formulation as a potential therapeutic candidate for breast cancer. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:756–766, 2016     

Down-regulation of human complement factor H sensitizes non-small cell lung cancer cells to complement attack and reduces in vivo tumor growth

Malignant cells are often resistant to complement activation through the enhanced expression of complement inhibitors. In this work, we examined the protective role of factor H, CD46, CD55, and CD59 in two non-small cell lung cancer cell lines, H1264 and A549, upon activation of the classical pathway of complement. Complement was activated with polyclonal Abs raised against each cell line. After blocking factor H activity with a neutralizing Ab, C3 deposition and C5a release were more efficient. Besides, a combined inhibition of factor H and CD59 significantly increased complement-mediated lysis. CD46 and CD55 did not show any effect in the control of complement activation. Factor H expression was knockdown on A549 cells using small interfering RNA. In vivo growth of factor H-deficient cells in athymic mice was significantly reduced. C3 immunocytochemistry on explanted xenografts showed an enhanced activation of complement in these cells. Besides, when mice were depleted of complement with cobra venom factor, growth was recovered, providing further evidence that complement was important in the reduction of in vivo growth. In conclusion, we show that expression of the complement inhibitor factor H by lung cancer cells can prevent complement activation and improve tumor development in vivo. This may have important consequences in the efficiency of complement-mediated immunotherapies.     

Discovery of targeting peptides for selective therapy of medullary thyroid carcinoma

BACKGROUND: Adenovirus efficiently infects a broad range of target cells, thereby preventing selective gene transfer. Moreover, several cell types and tissues including primary tumors are refractory to adenoviral infection, mainly because of low expression levels of coxsackie-adenovirus receptor (CAR). Thus, identification of cancer-selective ligands which yield gene transfer to neoplastic cells by minimizing transduction of normal cells is a key issue for successful cancer therapy. METHODS: We initially analyzed adenoviral receptor expression in human medullary thyroid carcinoma (MTC) cells. MTC cell-specific peptides were isolated by biopanning a phage display peptide library on cultured cancer cells and on tumors in vivo and further characterized. RESULTS: We found significant differences in CAR and alphav-integrin protein levels between MTC-derived TT cells in vitro and established xenograft tumors in mice, indicating a lack of alphav-integrin expression on growing tumors. MTC-specific candidates were identified by performing three rounds of subtraction. Selected phages showed up to 22-fold higher binding efficiency for TT cells when compared with wild-type M13 phage or other human cell lines and tumor tissue in vivo. Homing to TT cells of the best binding phage was clearly blocked in the presence of specific peptide, whereas no phage competition was observed with an unspecific peptide. The best binding peptide mediated efficient internalization of the phage. Importantly, specific binding and internalization was also mediated by the identified peptide within the adenoviral context. CONCLUSIONS: Our results indicate that the identified ligand should be suitable to improve selectivity of adenoviral gene transfer to medullary thyroid tumors in vivo.     

转录因子Sp1上调前列腺癌细胞中CD59的表达

目的:构建针对Sp1基因siRNA真核表达载体,转染前列腺癌细胞PC-3,研究反式作用因子Sp1时CD59表达的影响.方法:应用siRNA表达载体介导的RNAi技术,构建含特异性sp1基因的重组载体pSUPER-siSp1,脂质体法转染前列腺癌细胞,G418筛选建立稳定表达转染基因的细胞株,Western blotting检测转染细胞中sp1和CD59基因的表达,MTT和染料释放试验判断CD59基因抑制后对补体溶破的抵抗作用.结果:成功构建了Sp1基因siRNA真核表达载体,转染PC-3细胞可表达荧光蛋白,稳定转染的Pc-3细胞Sp1及CD59基因蛋白水平降低,MTT和染料释放实验表明CD59基因受抑制后对补体溶破的抵抗作用降低.结论:siRNA-Sp1重组载体有效地抑制了CD59的表达,降低CD59的抗补体活性,结果证明反式作用因子Sp1是CD59表达调控中重要的转录因子,为探讨CD59在肿瘤细胞中高表达的研究奠定了基础.     

Fe(III)-salen and salphen complexes induce caspase activation and apoptosis in human cells

To explore the apoptotic and antitumor activities of metallo-salens, the authors have synthesized several Fe(III)-salen and salphen complexes and analyzed their effects on human cancer and noncancer cells. Their results demonstrated that Fe(III)-salen and salphen complexes affect cell viability and induce nuclear fragmentation and apoptosis in breast cancer (MCF7) cells. The IC(50) values for the active metallo-salen complexes ranged between 0.3 and 22 μM in MCF7 cells. Biochemically active Fe(III)-salen and salphen complexes induced caspase-3/7 activation and release of cytochrome c from the mitochondria to cytosol, suggesting the involvement of the mitochondrial pathway of apoptosis. Comparison of IC(50) values toward 3 different cell lines demonstrated that selected Fe(III)-salen complexes induce tumor cell-selective apoptosis in cultured cells. Overall, the studies demonstrated that Fe(III)-salen and salphen complexes induced efficient apoptosis in cultured human cells. The nature of the substituents and the bridging spacer between diamino groups play critical roles in determining the apoptotic activities of Fe(III)-salen and salphen complexes.     

Furanodienone inhibits cell proliferation and survival by suppressing ERα signaling in human breast cancer MCF-7 cells

Estrogen receptor alpha (ERα) plays an important role in the development and progression of breast cancer and thus the attenuation of ERα activities is a promising treatment strategy. Furanodienone is one of the main bioactive chemical components of Rhizoma Curcumae which is commonly used in Chinese medicine for the treatment of cancer. In this study, we investigated the effects of furanodienone on human breast cancer MCF‐7, T47D, and MDA‐MB‐231 cells. Our results showed that furanodienone could inhibit MCF‐7, T47D, and MDA‐MB‐231 cells proliferation in a dose (10–160 µM) dependent manner. ERα‐negative MDA‐MB‐231 cells were less sensitive to furanodienone than ERα‐positive MCF‐7 and T47D cells. Furanodienone could effectively block 17β‐estradiol (E2)‐stimulated MCF‐7 cell proliferation and cell cycle progression and induce apoptosis evidenced by the flow cytometric detection of sub‐G1 DNA content and the appearance of apoptotic nuclei after DAPI staining. Furanodienone specifically down‐regulated ERα protein and mRNA expression levels without altering ERβ expression. Furanodienone treatment inhibited E2‐stimulation of estrogen response element (ERE)‐driven reporter plasmid activity and ablated E2‐targeted gene (e.g., c‐Myc, Bcl‐2, and cyclin D1) expression which resulted in the inhibition of cell cycle progression and cell proliferation, and in the induction of apoptosis. Knockdown of ERα in MCF‐7 cells by ERα‐specific siRNA decreased the cell growth inhibitory effect of furanodienone. These findings suggest that effects of furanodienone on MCF‐7 cells are mediated, at least in part, by inhibiting ERα signaling. J. Cell. Biochem. 112: 217–224, 2011. © 2010 Wiley‐Liss, Inc.     

Down‐regulation of c‐fos by shRNA sensitizes adriamycin‐resistant MCF‐7/ADR cells to chemotherapeutic agents via P‐glycoprotein inhibition and apoptosis augmentation

Multidrug resistance (MDR) is a major hurdle in the treatment of cancer. Research indicated that the main mechanisms of most cancers included so‐called “pump” (P‐glycoprotein, P‐gp) and “non‐pump” (apoptosis) resistance. Identification of novel signaling molecules associated with both P‐gp and apoptosis will facilitate the development of more effective strategies to overcome MDR in tumor cells. Since the proto‐oncogene c‐fos has been implicated in cell adaptation to environmental changes, we analyzed its role in mediating “pump” and “non‐pump” resistance in MCF‐7/ADR, an adriamycin (ADR)‐selected human breast cancer cell line with the MDR phenotype. Elevated expression of c‐fos in MCF‐7/ADR cells and induction of c‐fos by ADR in the parental drug‐sensitive MCF‐7 cells suggested a link between c‐fos and MDR phenotype. Down‐regulation of c‐fos expression via shRNA resulted in sensitization of MCF‐7/ADR cells to chemotherapeutic agents, including both P‐gp and non‐P‐gp substrates. Further results proved that c‐fos down‐regulation in MCF‐7/ADR cells resulted in decreased P‐gp expression and activity, enhanced apoptosis, and altered expression of apoptosis‐associated proteins (i.e., Bax, Bcl‐2, p53, and PUMA). All above facts indicate that c‐fos is involved in both P‐gp‐ and anti‐apoptosis‐mediated MDR of MCF‐7/ADR cells. Based on these results, we propose that c‐fos may represent a potential molecular target for resistant cancer therapy, and suppressing c‐fos gene expression may therefore be an effective means to temper breast cancer cell's MDR to cytotoxic chemotherapy. J. Cell. Biochem. 114: 1890–1900, 2013. © 2013 Wiley Periodicals, Inc.     

Expression of the membrane complement regulatory proteins (CD55 and CD59) in human thymus

CD59 is one of the key molecules involved in cell protection against autologus complement. The fact that complement regulatory proteins are able to prevent hyperacute rejection of organs in pig to primate model, raises the question of possible complement regulatory protein (CRP) involvement in the maturation of immunological system. We report here that in foetal and postnatal human thymus, CD59 and CD55 are primarily located on Hassall's corpuscles and medullary epithelial cells. This localization highly correlates with the expression of CD30L, which is the member of the tumour necrosis factor superfamily. Additionally, TUNEL technique was used to visualize distribution of apoptotic cells in the thymus, which revealed the presence of apoptotic cells closely associated with the Hassall's corpuscles. The observed co-localization of CD59, CD55 and CD30L might suggest an involvement of the complement system in thymic selection in humans.     

Osteoprotegerin production by breast cancer cells is suppressed by dexamethasone and confers resistance against TRAIL‐induced apoptosis

Osteoprotegerin (OPG) is a decoy receptor for receptor activator of NF‐κB ligand (RANKL) and TNF‐related apoptosis‐inducing ligand (TRAIL). While RANKL is essential for osteoclastogenesis and facilitates breast cancer migration into bone, TRAIL promotes breast cancer apoptosis. We analyzed the expression of OPG and TRAIL and its modulation in estrogen receptor‐positive MCF‐7 cells and receptor‐negative MDA‐MB‐231 cells. In both cells, OPG mRNA levels and protein secretion were dose‐ and time‐dependently enhanced by interleukin (IL)‐1β and suppressed by dexamethasone. In contrast to MCF‐7 cells, MDA‐MB‐231 abundantly expressed TRAIL mRNA, which was enhanced by IL‐1β and inhibited by dexamethasone. TRAIL activated pro‐apoptotic caspase‐3, ‐7, and poly‐ADP‐ribose polymerase and decreased cell numbers of MDA‐MB‐231, but had no effect on MCF‐7 cells. Gene silencing siRNA directed against OPG resulted in a 31% higher apoptotic rate compared to non‐target siRNA‐treated MDA‐MB‐231 cells. Furthermore, TRAIL induced significantly less apoptosis in cells cultured in conditioned media (containing OPG) compared to cells exposed to TRAIL in fresh medium lacking OPG (P < 0.01) and these protective effects were reversed by blocking OPG with its specific ligand RANKL (P < 0.05). The association between cancer cell survival and OPG production by MDA‐MB‐231 cells was further supported by the finding, that modulation of OPG secretion using IL‐1β or dexamethasone prior to TRAIL exposure resulted in decreased and increased rate of apoptosis, respectively (P < 0.05). Thus, OPG secretion by breast cancer cells is modulated by cytokines and dexamethasone, and may represent a critical resistance mechanism that protects against TRAIL‐induced apoptosis. J. Cell. Biochem. 108: 106–116, 2009. © 2009 Wiley‐Liss, Inc.     

3-O-methylfunicone, from Penicillium pinophilum, is a selective inhibitor of breast cancer stem cells

Objectives: Cancer stem cells make up a subpopulation of cells within tumours that drive tumour initiation, growth and recurrence. They are resistant to many current types of cancer treatment, causing failure of such therapeutic approaches, including chemotherapy and radiotherapy. In the study described here, anti‐proliferative effects of 3‐O‐methylfunicone (OMF), a metabolite from Penicillium pinophilum, were investigated on human breast cancer MCF‐7 cells and cancer stem cells selected as mammospheres derived from MCF‐7s. Materials and methods: Stemness markers were analysed on isolated mammospheres showing positive expression of CD24, CD29, CD44, CD133, CD184 and CD338. Cell proliferation and apoptosis were analysed by flow cytometry and RT‐PCR. Cell colony formation assays were performed to evaluate colony formation of mammospheres. Results and conclusion: OMF treatment affected both MCF‐7 and mammosphere growth, inducing apoptosis. In addition, OMF strongly reduced stemness markers and survivin, hTERT and Nanog‐1 gene expression. Growth of colonies in soft‐agar was significantly affected by OMF treatment, too. Lastly, we tested ability of MCF‐7 cells to form mammospheres after treatment with OMF or cisplatin, demonstrating that OMF treatment resulted in drastic reduction in number of mammospheres. These results introduce OMF as an effective molecule in suppressing breast cancer stem cells.     

Reduction of spontaneous metastases through induction of carbohydrate cross-reactive apoptotic antibodies

The selective targeting of tumor-associated carbohydrate Ags by the induction of serum Abs that trigger apoptosis of tumor cells as a means to reduce circulating tumor cells and micrometastases would be an advantage in cancer vaccine development. Some plant lectins like Griffonia simplicifolia lectin I and wheat germ agglutinin mediate the apoptosis of tumor cells. We investigated the possibility of using these lectins as templates to select peptide mimotopes of tumor-associated carbohydrate Ags as immunogens to generate cross-reactive Abs capable of mediating apoptosis of tumor cells. In this study, we show that immunization with a mimotope selected based on its reactivity with Griffonia simplicifolia lectin I and wheat germ agglutinin induced serum IgM Abs in mice that mediated the apoptosis of murine 4T1 and human MCF7 cell lines in vitro, paralleling the apoptotic activity of the lectins. Vaccine-induced anti-carbohydrate Abs reduced the outgrowth of micrometastases in the 4T1 spontaneous tumor model, significantly increasing survival time of tumor-bearing animals. This finding parallels suggestions that carbohydrate-reactive IgM with apoptotic activity may have merit in the adjuvant setting if the right carbohydrate-associated targets are identified.     

Targeting phosphatidylserine on apoptotic cells with phages and peptides selected from a bacteriophage display library

Phosphatidylserine (PS) is a well-characterized biomarker for apoptosis. Ligands that bind to PS can be used for noninvasive imaging of therapy-induced cell death, particularly apoptosis. In this study, we screened a random 12-mer peptide phage library on liposomes prepared from PS. One clone displaying the peptide SVSVGMKPSPRP (designated as PS3-10) bound to PS approximately 4-fold better than its binding to phosphatidylcholine and 18-fold better than to bovine serum albumin in a solid-phase binding assay. In addition, the binding of the corresponding PS3-10 peptide to PS was significantly higher than that of a scrambled peptide. PS3-10 phages, but not a control 4-2-2 phage, bound to aged red blood cells that had PS exposed on their surface. Binding of PS3-10 phages and PS3-10 peptide to TRAIL-induced apoptotic DLD1 cells was 3.2 and 5.4 times higher than their binding to untreated viable cells, respectively. Significantly, immunohistochemical staining confirmed selective binding of PS3-10 phages to apoptotic cells. Our data suggest that panning of phage display libraries may allow the selection of suitable peptide ligands for apoptotic cells and that PS3-10 peptide may serve as a template for further development of molecular probes for in vitro and in vivo imaging of apoptosis.     

Corilagin inhibits breast cancer growth via reactive oxygen species‐dependent apoptosis and autophagy

Corilagin is a component of Phyllanthus urinaria extract and has been found of possessing anti‐inflammatory, anti‐oxidative, and anti‐tumour properties in clinic treatments. However, the underlying mechanisms in anti‐cancer particularly of its induction of cell death in human breast cancer remain undefined. Our research found that corilagin‐induced apoptotic and autophagic cell death depending on reactive oxygen species (ROS) in human breast cancer cell, and it occurred in human breast cancer cell (MCF‐7) only comparing with normal cells. The expression of procaspase‐8, procaspase‐3, PARP, Bcl‐2 and procaspase‐9 was down‐regulated while caspase‐8, cleaved PARP, caspase‐9 and Bax were up‐regulated after corilagin treatment, indicating apoptosis mediated by extrinsic and mitochondrial pathways occurred in MCF‐7 cell. Meanwhile, autophagy mediated by suppressing Akt/mTOR/p70S6K pathway was detected with an increase in autophagic vacuoles and LC3‐II conversion. More significantly, inhibition of autophagy by chloroquine diphosphate salt (CQ) remarkably enhanced apoptosis, while the caspase inhibitor z‐VAD‐fmk failed in affecting autophagy, suggesting that corilagin‐induced autophagy functioned as a survival mechanism in MCF‐7 cells. In addition, corilagin induced intracellular reactive oxygen species (ROS) generation, when reduced by ROS scavenger NAC, apoptosis and autophagy were both down‐regulated. Nevertheless, in SK‐BR3 cell which expressed RIP3, necroptosis inhibitor Nec‐1 could not alleviate cell death induced by corilagin, indicating necroptosis was not triggered. Subcutaneous tumour growth in nude mice was attenuated by corilagin, consisting with the results in vitro. These results imply that corilagin inhibits cancer cell proliferation through inducing apoptosis and autophagy which regulated by ROS release.     

Apoptosis induced by an antagonist peptide against HPV16 E7 in vitro and in vivo via restoration of p53

Human papilloma virus type 16 (HPV16) E7 is a viral oncoprotein that is believed to play a major role in cervical neoplasia. A novel antagonist peptide against HPV16 E7 was previously selected by phage display screening and the selected peptide was found to have anti-tumor efficacy against HPV16-positive cervical carcinoma through induction of cell cycle arrest. In the current study, to further elucidate the mechanisms of the antagonist peptide, the effects of the peptide on apoptosis are investigated by RT-PCR, Western blotting, MTT assay, TUNEL staining, Annexin V apoptosis assay, flow cytometry, and animal experiments. The antagonist peptide showed obvious anti-tumor efficacy through apoptosis induction, both in HPV16-positive cervical cancer cell lines and tumor xenografts. Our results also revealed that the peptide induced accumulation of cellular p53 and p21, and led to HPV16 E7 protein degradation. In the case of mRNA levels, it resulted in unaltered p53 and HPV16 E7 expression, but increased expression of p21. In contrast, the induction of apoptosis and p53 reactivation effects by the selected peptide were abolished after E7 knocked down with siRNA. These results demonstrate that the selected peptide can induce E7 degradation and lead to marked apoptosis in HPV16-related cancer cells by activating cellular p53 and its target genes, such as p21. Furthermore, the evident therapeutic efficacy obtained from the subcutaneous tumor model experiments in nude mice suggests a therapeutic potential for HPV16-related cancers of the selected peptide. Therefore, this specific peptide may be used to create specific biotherapies for the treatment of HPV 16-positive cervical cancers.