Preparation of nanoliposomes linked to HER2/neu-derived (P5) peptide containing MPL adjuvant as vaccine against breast cancer

The study was aimed at evaluating antitumor and immunomodulatory effects of liposomal vaccine composed of P5 human epidermal growth factor receptor 2 (HER2)/neu-derived peptide coupled to the surface of high-temperature nanoliposomes containing distearoylphosphocholine:distearoylphosphoglycerol:Chol:dioleoylphosphatidylethanolamine (DOPE) comprising monophosphoryl lipid A (MPL) adjuvant in HER2/neu overexpressing the breast cancer model. BALB/c mice bearing TUBO carcinoma were subcutaneously immunized with formulations containing 10 µg P5 peptide and 25 µg MPL three times with 2-week intervals. To determine immuno responses in immunized mice, the amount of released interferon-γ and IL-4 were measured by the enzyme-linked immunospot method and the flow cytometric analysis on the isolated splenocytes. The results demonstrated that tumor-bearing mice immunized with Lip/DOPE/MPL/P5 formulation had the most released interferon-γ and the highest cytotoxic T lymphocyte responses that led to the lowest tumor size and the longest survival time than those of other formulations. The results achieved by Lip/DOPE/MPL/P5 formulation could make it a suitable candidate to induce effective antigen-specific tumor immunity against breast cancer.     

Complex evaluation of human monocyte‐derived dendritic cells for cancer immunotherapy

Dendritic cell (DC) immunotherapy is capable of generating tumour‐specific immune responses. Different maturation strategies were previously tested to obtain DC capable of anti‐cancer responses in vitro, usually with limited clinical benefit. Mutual comparison of currently used maturation strategies and subsequent complex evaluation of DC functions and their stimulatory capacity on T cells was performed in this study to optimize the DC vaccination strategy for further clinical application. DC were generated from monocytes using granulocyte–macrophage colony‐stimulating factor (GM‐CSF) and interleukin (IL)‐4, pulsed with whole tumour cell lysate and then matured with one of five selected maturation strategies or cultured without additional maturation stimulus. DC were characterized with regard to their surface marker expression, cytokine profiles, migratory capacity, allogeneic and autologous T cell stimulatory capacity as well as their specific cytotoxicity against tumour antigens. We were able to demonstrate extensive variability among different maturation strategies currently used in DC immunotherapeutic protocols that may at least partially explain limited clinical benefit of some clinical trials with such DC. We identified DC matured with interferon‐γ and lipopolysaccharide as the most attractive candidate for future clinical trials in cancer immunotherapy.     

Functionality of insect‐cell‐derived colorectal cancer vaccine candidate protein EpCAM‐Fc in human dendritic cells

The baculovirus–insect cell expression system is widely used to produce recombinant proteins for various biomedical applications. Our previous study demonstrated that EpCAM, a colorectal cancer vaccine candidate protein, can be expressed in the baculovirus–insect cell expression system. However, its functionality (the ability to elicit an immune response), which is important for its possible use as a colorectal cancer vaccine for immunotherapy, still needed to be confirmed. In this study, we examined the ability of recombinant EpCAM to induce maturation of immature dendritic cells (DCs) derived from CD34⁺ cells isolated from human umbilical cord blood. We demonstrated that EpCAM induces the expression of four DC maturation markers: CD80, CD83, CD86 and MHC II. These results suggest that EpCAM produced in the baculovirus–insect cell expression system is functional in terms of its ability to trigger maturation of human DCs.     

Identification of a WT1 protein‐derived peptide,WT1187, as a HLA‐A*0206‐restricted,WT1‐specific CTL epitope

The Wilms' tumor gene WT1 is overexpressed in various kinds of hematopoietic malignancies as well as solid cancers, and this protein has been demonstrated to be an attractive target antigen for cancer immunotherapy. WT1‐specific CTL epitopes with a restriction of HLA‐A*2402 or HLA‐A*0201 have been already identified. In the present study it has been demonstrated that a 9‐mer WT1‐derived WT1₁₈₇ peptide, which had already been shown to elicit a WT1‐specific CTL response with a restriction of HLA‐A*0201, can also elicit a CTL response with a restriction of HLA‐A*0206. In all three different HLA‐A*0206⁺ healthy donors examined, WT1₁₈₇ peptide‐specific CTL could be generated from peripheral blood mononuclear cells, and the CTL showed cytotoxic activity that depended on dual expression of WT1 and HLA‐A*0206 molecules. The present study describes the first identification of a HLA‐A*0206‐restricted, WT1‐specific CTL epitope. The present results should help to broaden the application of WT1 peptide‐based immunotherapy from only HLA‐A*0201‐positive to HLA‐A*0206‐positive cancer patients as well.     

Comparison by flow cytometry of immune changes induced in human monocyte-derived dendritic cells upon infection with dengue 2 live-attenuated vaccine or 16681 parental strain

Dengue is an important threat for world-wide public health. Different vaccines are under development, which are currently assessed using a battery of in vitro and in vivo assays before moving on to humans. It is also important to assess vaccine characteristics on human primary cells; among them, dendritic cells, the most efficient antigen-presenting cells, are the first targets of dengue virus infection. In this study, we used flow cytometry to compare the consequences of such an infection by dengue serotype 2 live-attenuated vaccine (LAV2) or its parental strain DEN2 16681 (DEN2). Optimal conditions of infection have first been defined by a mathematical approach, and flow cytometry allowed studying modifications induced in both infected and noninfected dendritic cell populations after surface and intracellular labeling. Both DEN2 and LAV2 increased the expression of the phenotypic markers CD80, CD86, CD40, CD1a, HLA ABC and CD83, demonstrating cellular activation. Stimulated dendritic cells produced tumor necrosis factor-alpha in particular, and, to a lower extent, interleukin 6. Of importance, whereas DEN2 induced cytokine production both in the infected and noninfected populations, LAV2-induced cytokine production was restricted to the infected population. This limited activation triggered by LAV2 would be in agreement with its attenuation. In conclusion, these in vitro experiments using primary human dendritic cells may participate, in combination with other assays, to the evaluation of the immunogenicity and safety of dengue vaccine candidates.     

In vitro anti-tumor immune response induced by dendritic cells transfected with EBV-LMP2 recombinant adenovirus

Epstein-Barr virus (EBV)-associated nasopharyngeal carcinoma (NPC) is a high-incidence tumor in southern China. Latent membrane proteins 2 (LMP2) is a subdominant antigen of EBV. The present study was to develop a dendritic cells (DCs)-based cancer vaccine (rAd-LMP2-DC) and to study its biological characteristics and its immune functions. Our results showed that LMP2 gene transfer did not alter the typical morphology of mature DC, and the representative phenotypes of mature DC (CD80, CD83, and CD86) were highly expressed in rAd-LMP2-DCs. The expression of LMP2 in rAd-LPM2-DCs was about 84.54%, which suggested efficient gene transfer. Transfected DCs markedly increased antigen-specific T-cell proliferation. The specific cytotoxicity against NPC cell was significantly higher than that in controls (p < 0.05), and enhanced with increased stimulations by transfected DCs. In addition, phenotypic analysis demonstrated that the LMP2-specific CTLs consisted of both CD4(+) and CD8(+) T cells. These results showed that development of DC-based vaccine by transfection with malignancy-associated virus antigens could elicit potent CTL response and provide a potential strategy of immunotherapy for EBV-associated NPC.     

Flagellin‐dependent TLR5/caveolin‐1 as a promising immune activator in immunosenescence

The age‐associated decline of immune responses causes high susceptibility to infections and reduced vaccine efficacy in the elderly. However, the mechanisms underlying age‐related deficits are unclear. Here, we found that the expression and signaling of flagellin (FlaB)‐dependent Toll‐like receptor 5 (TLR5), unlike the other TLRs, were well maintained in old macrophages, similar to young macrophages. The expression and activation of TLR5/MyD88, but not TLR4, were sensitively regulated by the upregulation of caveolin‐1 in old macrophages through direct interaction. This interaction was also confirmed using macrophages from caveolin‐1 or MyD88 knockout mice. Because TLR5 and caveolin‐1 were well expressed in major old tissues including lung, skin, intestine, and spleen, we analyzed in vivo immune responses via a vaccine platform with FlaB as a mucosal adjuvant for the pneumococcal surface protein A (PspA) against Streptococcus pneumoniae infection in young and aged mice. The FlaB‐PspA fusion protein induced a significantly higher level of PspA‐specific IgG and IgA responses and demonstrated a high protective efficacy against a lethal challenge with live S. pneumoniae in aged mice. These results suggest that caveolin‐1/TLR5 signaling plays a key role in age‐associated innate immune responses and that FlaB‐PspA stimulation of TLR5 may be a new strategy for a mucosal vaccine adjuvant against pneumococcal infection in the elderly.     

Induction of a T helper cell response against the tumor-associated antigen HER2 using monocyte-derived dendritic cells

Tumor-reactive CD4⁺ T helper (Th) cells play a criticalrole in antitumor immunity, due to their ability to induceCD8⁺ T cell-mediated cytotoxic activity and humoralresponse. This study focuses on the in vitro generationand expansion of Th cells specific for the tumor-associatedantigen `human epidermal growth factor receptor-2' (HER2). Aprotocol for efficient HER2 presentation was developed usingautologous monocyte-derived dendritic cells (DC) as antigenpresenting cells (APC) and purified HER2 protein as antigensource. Our data suggest that DC pulsed with recombinantprotein of the extracellular domain (ECD) of HER2 (ECD/HER2)induce an ECD/HER2-specific Th cell response. This finding mayfacilitate the development of immunotherapy regimens withoutrequiring defined immunogenic epitopes of the antigen.     

Localization of the anti‐cancer peptide EGFR‐lytic hybrid peptide in human pancreatic cancer BxPC‐3 cells by immunocytochemistry

Cationic lytic‐type peptides have been studied for clinical application in various infections and cancers, but their functional cellular mechanisms remain unclear. We generated anti‐cancer epithelial growth factor receptor (EGFR)‐lytic hybrid peptide, a 32‐amino‐acid peptide composed of an EGFR‐binding sequence and lytic sequence. In this study, we investigated the distribution of EGFR‐lytic hybrid peptide in BxPC‐3 human pancreatic cancer cells by an immunocytochemical (ICC) method. Distribution of EGFR protein expression was unchanged after treatment with EGFR‐lytic peptide compared with non‐treated cells. In confocal laser scanning microscopy, immunostaining of EGFR‐lytic peptide was observed in the cytoplasm, mostly in the form of granules. Some staining was also localized on the mitochondrial membrane. At the ultrastructure level, cells treated with EGFR‐lytic peptide had a low electron density, disappearance of microvilli, and swollen mitochondria. Fragments of cell membrane were also observed in the proximity of the membrane. In immunoelectron microscopy, EGFR‐lytic peptide was observed in the cell membrane and cytoplasm. A number of granules were considered swollen mitochondria. Activation of the caspase pathway as a result of mitochondrial dysfunction was also examined to determine the cytotoxic activity of EGFR‐lytic peptide; however, no effect on cell death after EGFR‐lytic treatment was observed, and moreover, apoptosis was not found to play a critical role in the cell death mechanism. These results suggest that EGFR‐lytic peptide is localized on cell and mitochondrial membranes, with disintegration of the cell membrane contributing mainly to cell death. Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.     

T‐cell epitope‐dependent immune response in inbred (C57BL/6J,SJL/J,and C3H/HeN) and transgenic P301S and Tg2576 mice

Alzheimer's disease is characterized by two pathological hallmarks, the intracellular deposition of hyperphosphorylated Tau protein and the extracellular deposition of Aβ_1–40/42, both being targets for immunotherapy. This study evaluates the immunogenic properties of three AD‐specific B‐cell epitopes (Tau_229–237[pT231/pS235], pyroGluAβ_3–8, and Aβ_{37/38–42/43}) linked to five foreign T‐cell epitopes (MVFP, TT, TBC Ag85B, PvT19, and PvT53) by immunizing inbred C57BL/6J (H‐2^b), SJL/J (H‐2^s2), and C3H/HeN (H‐2^k) mice. Two promising candidates with respect to MHC II restriction were selected, and two transgenic mouse models of AD, P301S (H‐2^b/k) and Tg2576 (H‐2^b/s) animals, were immunized with one B‐cell epitope in combination with two T‐cell epitopes. Responders displayed an enhanced immune response compared with wild‐type animals, which supports the vaccine design and the vaccination strategy. The immune response was also characterized by specific IgG subtype titers, which revealed a strong polarization toward the humoral pathway for immunization of phospho‐Tau, whereas for both Aβ vaccines, a mixed cellular/humoral pathway response was observed. Despite the diversity and unpredictability of the immunogenicity of the peptide vaccines, all three peptide vaccine formulations appear to be promising constructs for future evaluation of their therapeutic properties. Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.     

Selective TRAIL‐induced cytotoxicity to lung cancer cells mediated by miRNA response elements

Lung cancer is among the most common cancers, and the current therapeutic strategies are still inefficient in most cases. Tumour necrosis factor‐related apoptosis‐inducing ligand (TRAIL) is a promising biological agent for cancer treatment because of its potent pro‐apoptotic effect on cancer cells. However, TRAIL also induces apoptosis in normal cells and therefore may cause toxicity to normal tissues if clinically applied. To address this issue, we inserted microRNA response elements (MREs) of miR‐133a, miR‐137 and miR‐449a, which are all underexpressed in lung cancer cells, into an adenoviral vector to regulate TRAIL expression. This MRE‐regulated vector (Ad‐TRAIL‐MRE) was able to express TRAIL in a lung‐cancer‐specific fashion. No TRAIL expression was detected in normal cells. Consistently, Ad‐TRAIL‐MRE exerted cytotoxicity to lung cancer cells, rather than normal cells, perhaps via inducing selective apoptosis. The selective TRAIL‐mediated growth‐inhibiting effect was further confirmed in a tumour xenograft model. Also, Ad‐TRAIL‐MRE only resulted in very low hepatotoxicity when applied. Collectively, we generated a novel TRAIL‐expressing adenoviral vector that was regulated by MREs. This strategy permits TRAIL expression in a lung‐cancer‐specific manner and is worth further studying for clinical trials. Copyright © 2014 John Wiley & Sons, Ltd.     

miR‐222 attenuates cisplatin‐induced cell death by targeting the PPP2R2A/Akt/mTOR Axis in bladder cancer cells

Increased miR‐222 levels are associated with a poor prognosis in patients with bladder cancer. However, the role of miR‐222 remains unclear. In the present study, we found that miR‐222 enhanced the proliferation of both the T24 and the 5637 bladder cancer cell lines. Overexpression of miR‐222 attenuated cisplatin‐induced cell death in bladder cancer cells. miR‐222 activated the Akt/mTOR pathway and inhibited cisplatin‐induced autophagy in bladder cancer cells by directly targeting protein phosphatase 2A subunit B (PPP2R2A). Blocking the activation of Akt with LY294002 or mTOR with rapamycin significantly prevented miR‐222‐induced proliferation and restored the sensitivity of bladder cancer cells to cisplatin. These findings demonstrate that miR‐222 modulates the PPP2R2A/Akt/mTOR axis and thus plays a critical role in regulating proliferation and chemotherapeutic drug resistance. Therefore, miR‐222 may be a novel therapeutic target for bladder cancer.     

Synthesis,characterization, and biological activity of poly(arginine)‐derived cancer‐targeting peptides in HepG2 liver cancer cells

The solid‐phase synthesis, structural characterization, and biological evaluation of a small library of cancer‐targeting peptides have been determined in HepG2 hepatoblastoma cells. These peptides are based on the highly specific Pep42 motif, which has been shown to target the glucose‐regulated protein 78 receptors overexpressed and exclusively localized on the cell surface of tumors. In this study, Pep42 was designed to contain varying lengths (3–12) of poly(arginine) sequences to assess their influence on peptide structure and biology. Peptides were effectively synthesized by 9‐fluorenylmethoxycarbonyl‐based solid‐phase peptide synthesis, in which the use of a poly(ethylene glycol) resin provided good yields (14–46%) and crude purities >95% as analyzed by liquid chromatography–mass spectrometry. Peptide structure and biophysical properties were investigated using circular dichroism spectroscopy. Interestingly, peptides displayed secondary structures that were contingent on solvent and length of the poly(arginine) sequences. Peptides exhibited helical and turn conformations, while retaining significant thermal stability. Structure–activity relationship studies conducted by flow cytometry and confocal microscopy revealed that the poly(arginine) derived Pep42 sequences maintained glucose‐regulated protein 78 binding on HepG2 cells while exhibiting cell translocation activity that was contingent on the length of the poly(arginine) strand. In single dose (0.15 mM) and dose‐response (0–1.5 mM) cell viability assays, peptides were found to be nontoxic in human HepG2 liver cancer cells, illustrating their potential as safe cancer‐targeting delivery agents. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Reactive oxygen species production by human dendritic cells involves TLR2 and dectin‐1 and is essential for efficient immune response against Mycobacteria

Tuberculosis remains the single largest infectious disease with 10 million new cases and two million deaths that are estimated to occur yearly, more than any time in history. The intracellular replication of Mycobacterium tuberculosis (Mtb) and its spread from the lungs to other sites occur before the development of adaptive immune responses. Dendritic cells (DC) are professional antigen‐presenting cells whose maturation is critical for the onset of the protective immune response against tuberculosis disease and may vary depending on the nature of the cell wall of Mtb strain. Here, we describe the role of the endogenous production of reactive oxygen species (ROS) on DC maturation and expansion of Mtb‐specific lymphocytes. Here, we show that Mtb induces DC maturation through TLR2/dectin‐1 by generating of ROS and through Dendritic Cell‐Specific Intercellular adhesion molecule‐3‐Grabbing Non‐integrin (DC‐SIGN) in a ROS independently manner. Based on the differences observed in the ability to induce DC maturation, ROS production and lymphocyte proliferation by those Mtb families widespread in South America, i.e., Haarlem and Latin American Mediterranean and the reference strain H37Rv, we propose that variance in ROS production might contribute to immune evasion affecting DC maturation and antigen presentation.     

Epac1‐induced cellular proliferation in prostate cancer cells is mediated by B‐Raf/ERK and mTOR signaling cascades

cAMP‐dependent, PKA‐independent effects on cell proliferation are mediated by cAMP binding to EPAC and activation of Rap signaling. In this report, we employed the analogue 8‐CPT‐2‐O‐Me‐cAMP to study binding to EPAC and subsequent activation of B‐Raf/ERK and mTOR signaling in human cancer cells. This compound significantly stimulated DNA synthesis, protein synthesis, and cellular proliferation of human 1‐LN prostate cancer cells. By study of phosphorylation‐dependent activation, we demonstrate that EPAC‐mediated cellular effects require activation of the B‐Raf/ERK and mTOR signaling cascades. RNAi directed against EPAC gene expression as well as inhibitors of ERK, PI 3‐kinase, and mTOR were employed to further demonstrate the role of these pathways in regulating prostate cancer cell proliferation. These studies were then extended to several other human prostate cancer cell lines and melanoma cells with comparable results. We conclude that B‐Raf/ERK and mTOR signaling play an essential role in cAMP‐dependent, but PKA‐independent, proliferation of cancer cells. J. Cell. Biochem. 108: 998–1011, 2009. © 2009 Wiley‐Liss, Inc.     

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.     

Fisetin induces apoptosis in breast cancer MDA‐MB‐453 cells through degradation of HER2/neu and via the PI3K/Akt pathway

Overexpression of human epidermal growth factor receptor 2 (HER2) is observed in breast cancer. The major snag faced by the human population is the development of chemoresistance to HER2 inhibitors by advanced stage breast cancer cells. Moreover, recent researchers focussed on fisetin as an antiproliferative and chemotherapeutic agent. Therefore, this study was intended to analyze the effects of fisetin on HER2/neu‐overexpressing breast cancer cell lines. Our results depicted that fisetin induced apoptosis of these cells by various mechanisms, such as inactivation of the receptor, induction of proteasomal degradation, decreasing its half‐life, decreasing enolase phosphorylation, and alteration of phosphatidylinositol 3‐kinase/Akt signaling.