Systemically administered liposome-encapsulated Ad-PEDF potentiates the anti-cancer effects in mouse lung metastasis melanoma.

BACKGROUND: The use of adenoviral vector for gene therapy is still an important strategy for advanced cancers, however, the lack of the requisite coxsackie-adenovirus receptor in cancer cells and host immune response to adenovirus limit the application of adenoviral vector in vivo. METHOD: We designed the antiangiogenic gene therapy with recombinant PEDF adenovirus (Ad-PEDF) encapsulated in cationic liposome (Ad-PEDF/Liposome), and investigated the anti-tumor efficacy of Ad-PEDF/Liposome complex on inhibition of tumor metastasis. RESULTS: We found that systemic administration of Ad-PEDF/liposome was well tolerated and resulted in marked suppression of tumor growth, and was more potent than uncoated Ad-PEDF to induce apoptosis in B16-F10 melanoma cells and inhibit murine pulmonary metastases in vivo. After Ad-luciferase was encapsulated with liposome, its distribution decreased in liver and increased in lung. The anti-Ad IgG level of Ad-PEDF/Liposome was significantly lower than Ad-PEDF used alone. CONCLUSION: The present findings provide evidences of systematic administration of cationic liposome-encapsulated Ad-PEDF in pulmonary metastatic melanoma mice model, and show an encouraging therapeutic effect for further exploration and application of more complexes based on liposome-encapsulated adenovirus for more cancers.

[Application of MHC-Ig/peptide polymer in detecting antigen-specific cytotoxic T lymphocytes in mice with experimental autoimmune uveitis].

OBJECTIVE: To explore the application of MHC-Ig/peptide polymer technique for detecting antigen-specific cytotoxic T lymphocytes (CTLs) in mice with experimental autoimmune uveitis (EAU). METHODS: B10RIII mice were immunized with an interphotoreceptor retinal-binding protein (IRBP) synthetic peptide (IRBP161-180). The in vivo primed T cells were separated and stained with MHC-Ig polymer combined with a panel of truncated peptides derived from IRBP161-180. The level of IRBP-specific CTLs cells was determined by FACS analysis. The CD8+ T cells were isolated from the primed T cells and stimulated with complex polymers containing MHC-Ig and various IRBP-derived peptides. The proliferation of CD8+ T cells was measured by H thymidine incorporation. The production of interferon- (IFN-) in the cell suspensions was measured by ELISA. RESULTS: The IRBP-specific CTLs were detected by MHC-Ig/peptide polymers. The MHC-Ig/IRBP168-177 peptide polymer dtected 12.3% specific CTLs, showing greater ability in stimulating proliferation of CTLs and production of IFN--than the other MHC-Ig/ peptide polymers (P < 0.01). The truncated 10-mer peptide, IRBP168-177, was the major antigenic epitope for the IRBP-specific CTLs. The MHC-Ig/IRBP168-177 peptide polymer detected the highest level(4.9% +/- 1.1%) of specific CTLs from peripheral blood mononuclear cells (PBMCs) at the acute stage of EAU. CONCLUSION: The MHC-Ig polymer technique is an effective instrument for detecting antigen-specific CTLs, with good sensitivity and specificity in EAU studies.

A promising cancer gene therapy agent based on the matrix protein of vesicular stomatitis virus.

The matrix (M) protein of vesicular stomatitis virus (VSV) plays a key role in inducing cell apoptosis during infection. To investigate whether M protein-mediated apoptosis could be used in cancer therapy, its cDNA was amplified and cloned into eukaryotic expression vector pcDNA3.1(+). The recombinant plasmid or the control empty plasmid pcDNA3.1(+) was mixed with cationic liposome and introduced into various tumor cell lines in vitro, including lung cancer cell LLC, A549, colon cancer cell CT26 and fibrosarcoma cell MethA. Our data showed that the M protein induced remarkable apoptosis of cancer cells in vitro compared with controls. Fifty micrograms of plasmid in a complex with 250 microg cationic liposome was injected intratumorally into mice bearing LLC or MethA tumor model every 3 days for 6 times. It was found that the tumors treated with M protein plasmid grew much more slowly, and the survival of the mice was significantly prolonged compared with the mice treated with the control plasmid. In MethA fibrosarcoma, the tumors treated with M protein plasmid were even completely regressed, and the mice acquired longtime protection against the same tumor cell in rechallenge experiments. Both apoptotic cells and CD8(+) T cells were widely distributed in M protein plasmid-treated tumor tissue. Activated cytotoxic T lymphocytes (CTLs) were further detected by means of (51)Cr release assay in the spleen of the treated mice. These results showed that M protein of VSV can act as both apoptosis inducer and immune response initiator, which may account for its extraordinary antitumor effect and warrant its further development in cancer gene therapy.

Antitumour activity of cationic-liposome-conjugated adenovirus containing the CCL19 [chemokine (C-C motif) ligand 19] gene.

CCL19 [chemokine (C-C motif) ligand 19; also known as MIP-3beta (macrophage inflammatory protein-3beta) or ELC (Epstein-Barr-virus-induced molecule 1 ligand chemokine)], one of the immunostimulatory cytokines, chemoattracts both DCs (dendritic cells) and T-lymphocytes. Adenoviral vector is one of the most used gene delivery vectors for cancer therapy because of its high gene-transfection efficiency. However, its wider application is limited, owing to immune responses that reduce transgene expression and decrease the efficacy of repeated administration. We constructed the recombinant replication deficient adenoviral vectors containing the CCL19 gene (Ad-CCL19) and combined them with PEG-PE [poly(ethylene glycol)-phosphatidylethanolamine]-modified cationic liposomes (Ad-CCL19/PEG-PE) for immunotherapy against murine fibrosarcoma. Although there were hardly any therapeutic differences between Ad-CCL19- and Ad-CCL19/PEG-PE-treated mice that were observed at the second administration, the final results demonstrated that Ad-CCL19/PEG-PE-treated mice survived much longer. The antitumour efficacy may be related to the high level of CCL19 after the final administration and lasting expression of IFN-gamma (interferon-gamma) and IL-12 (interleukin-12) in the Ad-CCL19/PEG-PE-treated group, which were measured by reverse-transcription PCR and ELISA. The results demonstrated that PEG-PE-cationic-liposome-conjugated adenovirus could prolong the expression of the therapeutic gene in vivo and may enhance the antitumour efficacy.

[Preparation and transfection of GFP plasmid DNA/cationic liposome complex].

OBJECTIVE: This work was directed at obtaining a better gene carrier to improve the effects of gene delivery. METHODS: Cationic liposomes made from cholesterol, lecithin and Eighteenth Amic by reverse evaporation technique were used for encapsulating plasmid DNA containing gfp gene. The DNA/liposome complexes differed in quantity of plasmid DNA. The sizes of complexes and the efficiency of encapsulation were detected. MTT assay was used to measure the cytotoxicities of complexes. The efficiency of transfection into COS1 cells was shown by observation of green fluorescent and measurement of fluorescent intensity. RESULTS: The average size of complexes was 562 nm, the encapsulating efficiency of DNA in microspheres reached 55%-65%. These DNA/Cationic liposome complexes could be transfected into mammalian cells, but they were different from each other in efficiency of transfection. The cytotoxicities of these complexes varied with the concentration of DNA in complexes, the quantities of complexes and the time of treatment by complexes. CONCLUSION: DNA/Cationic liposome complexes prepared by reverse evaporation technique could be applied in DNA delivery system.

Quercetin liposome sensitizes colon carcinoma to thermotherapy and thermochemotherapy in mice models.

Thermotherapy and thermochemotherapy have been used in clinics to treat patients with malignant diseases, including colon cancer, and their efficacy has been well proved. Heat shock proteins (HSPs), especially Hsp70, play important roles in neutralizing their efficacy. It has been reported that quercetin can suppress cancer by inhibiting the intratumoral expression of Hsp70. This study was designed to investigate whether quercetin could enhance sensitivity to thermotherapy and thermochemotherapy. Soluble quercetin liposome was used in this study. The effects of quercetin were investigated in vitro and in mouse colon cancer models of subcutaneous tumor and peritoneal carcinomatosis. The results showed that quercetin liposome inhibited the upregulation of Hsp70 and enhanced apoptosis induced by hyperthermia and thermochemotherapy. Systemic administration of quercetin liposome can sensitize CT26 cells to thermotherapy and chemothermotherapy. This study suggests that quercetin liposome might be potentially applied for clinical cancer therapy.

[Antitumoral efficacy by systemic delivery of cationic liposome-plasmid interleukin-15 complexes in murine models of lung metastasis].

AIM: To investigate the therapeutic effect of the plasmid pcDNA3.1-IL15 complexed with cationic liposome (CL-IL15) in the B16-F10 melanoma lung metastasis model. METHODS: A plasmid with high secretive efficiency of IL-15 was constructed and the optimum mix ratio was determined to formulate cationic liposome-plasmid complex with the optimal encapsulation. The CHO-K1 cell line was transfected by CL-IL15. The secretion of transfected IL-15 gene was detected by Western blot and its biological function was measured through the proliferation response of CTLL-2 cytotoxic T cell line of murine by MTT assay. The C57BL/6 mice were inoculated intravenously (i.v.) with B16-F10 melanoma lung metastasis cells then treated (i.v.) by CL-IL15 in a therapeutic setting to determine the tumorigenesis and research the corresponding mechanisms. RESULTS: The pcDNA3.1-IL15 plasmid was successfully constructed and the mass-ratio of optimal condition of cationic liposome-plasmid with perfect entrapment was 1:5 (plasmid: cationic liposome). Western blot analysis displayed the detection of IL-15 both in the medium and the pcDNA3.1-IL15 transfected cells. MTT assay showed that CTLL-2 cells could proliferate with the medium obtained from CHO-K1 cells transfected by CL-IL15. And the administration of CL-IL15 complexes led to the significant inhibition lung metastasis of malignant melanoma (P<0.05). CONCLUSION: CL-IL15 could inhibit the metastasis of malignant melanoma and the cationic liposome delivered plasmid pcDNA3.1-IL-15 complexes may be an efficient therapeutic strategy for the treating of lung metastasis. And the effective splenic cell-mediated cytotoxicity and the obvious NK cells recruitment may be involved.

Therapeutic effects of survivin dominant negative mutant in a mouse model of prostate cancer.

PURPOSE: Patients with localized prostate cancer can usually achieve initial response to conventional treatment. However, most of them will inevitably progress to advanced disease stage. There is a clear need to develop innovative and effective therapeutics for prostate cancer. Mouse survivin T34A (mS-T34A) is a phosphorylation-defective Thr34 → Ala dominant negative mutant, which represents a potential promising target for cancer gene therapy. This study was designed to determine whether mS-T34A plasmid encapsuled by DOTAP-chol liposome (Lip-mS) has the anti-tumor activity against prostate cancer, if so, to further investigate the possible mechanisms. METHODS: In vitro, TRAMP-C1 cells were transfected with Lip-mS and examined for apoptosis by PI staining and flow cytometric analysis. In vivo, subcutaneous prostate cancer models were established in C57BL/6 mice, which were randomly assigned into three groups to receive i.v. administrations of Lip-mS, pVITRO2-null plasmid complexed with DOTAP-chol liposome (Lip-null) or normal saline every 2 days for eight doses. Tumor volume was measured. Tumor tissues were inspected for apoptosis by TUNEL assay. Microvessel density (MVD) was determined by CD31 immunohistochemistry. Alginate-encapsulated tumor cell test was conducted to evaluate the treatment effect on angiogenesis. RESULTS: Administration of Lip-mS resulted in significant inhibition in the growth of mouse TRAMP-C1 tumors. The anti-tumor response was associated with increased tumor cell apoptosis and decreased microvessel density. CONCLUSIONS: The present study may be of importance in the exploration of the potential application of Lip-mS in the treatment of a broad spectrum of tumors.

The pigment epithelial-derived factor gene loaded in PLGA nanoparticles for therapy of colon carcinoma.

Colon carcinoma is one of the common malignant tumors and has high morbidity and mortality in the world. Pigment epithelial-derived factor (PEDF) has been found to be the most potent natural inhibitor of angiogenesis and PEDF gene has been extensively used for the therapy of tumors, which suggests a potential approach to the therapy of colon carcinoma. However, the transfer of PEDF gene largely depends on the effective gene delivery systems. Poly (lactic-co-glycolic acid) nanoparticles (PLGANPs) have been extensively used for gene therapy due to its low-toxicity, biocompatibility and biodegradability, due to its potential to be an excellent carrier of the PEDF gene. We investigated the effect of PEDF gene loaded in PLGA nanoparticles (PEDF-PLGANPs) on the mouse colon carcinoma cells (CT26s) in vitro and in vivo. Blank PLGANPs (bPLGANPs) showed lower cytotoxicity than PEI to the CT26s. In vitro, PEDF-PLGANPs directly induced CT26 apoptosis and inhibit human umbilical vein endothelial cell (HUVEC) proliferation. In vivo, PEDF-PLGANPs inhibited CT26 tumors growth by inducing CT26 apoptosis, decreasing MVD and inhibiting angiogenesis. Our present study demonstrates the inhibitory effect of PEDF-PLGANPs on the growth of CT26s in vitro and in vivo for the first time. PLGANP-mediated PEDF gene could provide an innovative strategy for the therapy of colon carcinoma.

An N-, C-terminally truncated basic fibroblast growth factor and LPD (liposome-polycation-DNA) complexes elicits a protective immune response against murine colon carcinoma.

Basic fibroblast growth factor (bFGF) is a mitogen for endothelial cells, which participates in tumor angiogenesis. Active immunity against bFGF could be a promising approach for the biotherapy of cancer. Because bFGF is abundant in normal and malignant tissues, it is presumably difficult for normal bFGF to induce immunity due to self-tolerance. In addition, previous studies have shown that a complex consisting of a cationic liposome and a non-coding plasmid DNA can be used to stimulate innate immunity. This stimulation initiates a potent cytokine response, which can inhibit tumor growth. To investigate the effects of immunity against bFGF on murine colon carcinomas, we employed an N-, C-terminally truncated basic fibroblast growth factor (tbFGF, of human origin) as an antigen and a liposome-DNA complex as an adjuvant. After six immunizations, a robust bFGF-specific immune response was elicited. Subsequently, inhibition of tumor growth and a significant reduction in tumor vasculature were observed. The antitumor effect was confirmed by adoptive therapy of activated spleen cells from the immunized mice. In vitro, a CTL assay revealed that bFGF-specific cytotoxic T lymphocytes (CTL) resulted in the lysis of mouse microvascular endothelial cells (MS1) rather than that of the CT26 colorectal cancer cells. These results suggest that anti-angiogenesis treatment induced by a bFGF-specific CTLs against microvascular endothelial cells may be a useful method for cancer therapy.

Enhanced tumor radiosensitivity by a survivin dominant-negative mutant.

Radiosensitivity of tumors is due to a complex interaction of various factors, it has been reported that survivin also acts as a constitutive and inducible radioresistance factor in a panel of tumor cells and approaches designed to inhibit survivin expression or function may lead to tumor sensitisation to chemical and physical agents. Previously, we found that the plasmid encoding the phosphorylation-defective mouse survivin threonine 34-->alanine mutant complexed to DOTAP-chol liposome (Lip-mS) can suppress murine primary breast carcinoma. However, little is known regarding the biological effect of Lip-mS combined with radiation. The present study was designed to determine whether Lip-mS could enhance the anti-tumor activity of radiation. The Lewis Lung Carcinoma (LLC) cells treated with a combination of Lip-mS and radiation displayed apparently increased apoptosis compared with those treated with Lip-mS or radiation alone. Mice bearing LLC tumors were treated with intravenous injections of Lip-mS and radiation, the combined treatment significantly reduced mean tumor volume compared with either treatment alone. Moreover, the anti-tumor effect of Lip-mS combined with radiation was greater than their additive effect when compared with the expected effect of the combined treatment. These data suggest that inhibition of survivin using a dominant-negative mutant, survivin T34A, could sensitize LLC cells to radiation efficiently and the synergistic anti-tumor activity may in part result from increasing the apoptosis of tumor cells, inhibiting tumor angiogenesis and inducing a tumor-protective immune response in the combined treatment.

Efficient inhibition of murine breast cancer growth and metastasis by gene transferred mouse survivin Thr34-->Ala mutant.

BACKGROUND: Metastasis in breast cancer is a vital concern in treatment because most women with primary breast cancer have micrometastases to distant sites at diagnosis. As a member of the inhibitor of apoptosis protein (IAP) family, survivin has been proposed as an attractive target for new anticancer interventions. In this study, we investigated the role of the plasmid encoding the phosphorylation-defective mouse survivin threonine 34-->alanine mutant (Msurvivin T34A plasmid) in suppressing both murine primary breast carcinomas and pulmonary metastases. METHODS: In vitro study, induction of apoptosis by Msurvivin T34A plasmid complexed with cationic liposome (DOTAP/Chol) was examined by PI staining fluorescence microscopy and flow cytometric analysis. The anti-tumor and anti-metastases activity of Msurvivin T34A plasmid complexed with cationic liposome (DOTAP/Chol) was evaluated in female BALB/c mice bearing 4T1 s.c. tumors. Mice were treated twice weekly with i.v. administration of Msurvivin T34A plasmid complexed with cationic liposome (DOTAP/Chol), PORF-9 null plasmid complexed with cationic liposome (DOTAP/Chol), 0.9% NaCl solution for 4 weeks. Tumor volume was observed. After sacrificed, tumor net weight was measured and Lung metastatic nodules of each group were counted. Assessment of apoptotic cells by TUNEL assay was conducted in tumor tissue. Microvessel density within tumor tissue was determined by CD31 immunohistochemistry. Alginate-encapsulated tumor cells test was conducted to evaluate the effect on angiogenesis. By experiment of cytotoxicity T lymphocytes, we test whether Msurvivin T34A plasmid complexed with cationic liposome (DOTAP/Chol) can induce specific cell immune response. RESULTS: Administration of Msurvivin T34A plasmid complexed with cationic liposome (DOTAP/Chol) resulted in significant inhibition in the growth and metastases of 4T1 tumor model. These anti-tumor and anti-metastases responses were associated with triggering the apoptosis of tumor cells directly, inhibiting angiogenesis and inducing specific cellular immune response. CONCLUSION: The present findings suggest that the Msurvivin T34A plasmid complexed with cationic liposome may provide an effective approach to inhibit the growth and metastases of a highly metastatic mouse breast cancer model with minimal side effects.