顺铂以T细胞依赖性方式增强ClK细胞的抗肿瘤作用

目的 观察顺铂预处理化疗联合细胞因子诱导的杀伤细胞( cytokine - induced killer cells,CIK cells)对小鼠CT - 26结肠癌的抑制作用,并探讨介导顺铂免疫调节效作用的机制.方法 分别建立BALB/c野生鼠或BALB/c nu/nu裸鼠CT - 26结肠癌模型,以顺铂(Cispla...     

Effects of the synthetic vasopressin analog desmopressin in a mouse model of colon cancer

Experimental and clinical data indicated that perioperative administration of the hemostatic peptide desmopressin (DDAVP) can inhibit progression of residual metastatic cells. The compound seems to act by inducing an agonist effect on specific V2 vasopressin membrane receptors present in both tumor cells and endothelial cells. Here we explored the antitumor effects of DDAVP in cultured colon carcinoma cells and in a syngeneic Balb/c mouse model. Both human Colo-205 and mouse CT-26 colon carcinoma cell lines expressed the V2 receptor, as revealed by immunofluorescence. DDAVP (at doses ranging from 100 ng/ml to 1 μg/ml) exerted a modest but significant antiproliferative effect on cultured CT-26 and Colo-205 cells. In vivo, DDAVP (2 intravenous doses of 2 μg/kg) reduced accumulation of ascites and formation of intestinal tumor nodules in mice intraperitoneally inoculated with CT-26 cells. Perioperative administration of DDAVP significantly inhibited tumor progression in animals surgically implanted in the spleen with CT-26 cells, and caused some reduction in liver metastasis. Although DDAVP and 5-fluorouracil demonstrated additive cytostatic effects in vitro, no antitumor effects were observed in this study in mice receiving a single cycle of chemotherapy (25 mg/kg) in combination with the peptide. Our data suggest that DDAVP may be potentially used to minimize spread or survival of residual malignant cells during surgical procedures for colon and other gastrointestinal tumors.     

Suppression of progression and metastasis of established colon tumors in mice by intravenous delivery of short interfering RNA targeting KITENIN, a metastasis-enhancing protein

KITENIN promotes invasion of mouse colon adenocarcinoma (CT-26) cells in vivo. Here, we studied the effects of in vivo KITENIN ablation on established tumors by using pSUPER vectors (pSUPER-KITENIN) producing short interfering RNA (siRNA). When pSUPER-KITENIN was given weekly or semiweekly for 1 month into tail vein of syngeneic mice that have established colon tumors, tumor size regressed markedly and metastases were inhibited. In mice injected with pSUPER-KITENIN, serum interleukin-2 (IL-2) and IFN-gamma increased and CD4+ and CD8+ T cells infiltrated in the regressed tumor tissues. These effects, observed beginning 2 days after i.v. injection, imply that immune response is involved in the antitumor action of pSUPER-KITENIN. Using a yeast two-hybrid assay, we identified two KITENIN-interacting proteins for the possible mediators of these actions: 90K protein, a known immune modulatory glycoprotein, and protein kinase C inhibitor (PKCI). 90K was increased in the culture medium from CT-26/antisense KITENIN/90K cells. Double culture of accessory cells with CT-26/antisense KITENIN/90K cells revealed increased secretion of IL-1 and IL-6. Overexpression of 90K in CT-26/antisense KITENIN cells further delayed tumor growth compared with that of CT-26/antisense KITENIN cells. Actin arrangement was distorted in CT-26/antisense KITENIN and CT-26/antisense PKCI cells, whereas overexpression of PKCI resulted in increased invasiveness to fibronectin. Thus, antitumor effects of KITENIN siRNA derives from both the generation of a tumor-specific immune response in vivo through increased 90K secretion from tumor cells and the suppression of tumor invasion in which PKCI is related to increased invasiveness. Moreover, siRNA targeting of KITENIN can function as a chemotherapeutic strategy against colon cancer.     

Combined effect of PT-050 (recombinant human TNF) and antitumor drugs on syngeneic murine tumors

The combined effect of PT-050 (recombinant human TNF) and various antitumor drugs was investigated using murine colon 26 adenocarcinoma, Meth A sarcoma and B16 melanoma transplanted into syngeneic mice. When colon 26- or Meth A- bearing mice were intravenously given PT-050 in combination with mitomycin C (MMC), doxorubicin (DXR), cis-platinum (CDDP), 5-fluorouracil (5-FU) or cyclophosphamide (CPA), a significant synergistic effect was observed, that is, both the inhibition rate of tumor growth and the cured ratio were increased significantly when compared with those given each drug alone. Similarly, an augmentation of the antitumor effect was also observed in B16-bearing mice by a combined treatment with PT-050 and these antitumor drugs. These results suggest that the combination chemotherapy of PT-050 with various antitumor drugs may be useful for cancer therapy.     

Inhibition of tumor growth using salmonella expressing Fas ligand

Intravenous administration of bacteria leads to their accumulation in tumors and to sporadic tumor regression. We therefore explored the hypothesis that Salmonella typhimurium engineered to express the proapoptotic cytokine Fas ligand (FasL) would exhibit enhanced antitumor activity. Immunocompetent mice carrying tumors derived from syngeneic murine D2F2 breast carcinoma or CT-26 colon carcinoma cells were treated intravenously with FasL-expressing S. typhimurium or with phosphate-buffered saline (PBS; control). Treatment with FasL-expressing S. typhimurium inhibited growth of primary tumors by an average of 59% for D2F2 tumors and 82% for CT-26 tumors (eg, at 25 days after initial treatment, mean volume of PBS-treated CT-26 colon carcinomas = 1385 mm(3) and of S. typhimurium FasL-treated CT-26 tumors = 243 mm(3), difference = 1142 mm(3), 95% confidence interval = 800 mm(3) to 1484 mm(3), P < .001). Pulmonary D2F2 metastases (as measured by lung weight) were reduced by 34% in S. typhimurium FasL-treated mice compared with PBS-treated mice. FasL-expressing S. typhimurium had similar effects on growth of murine B16 melanoma tumors in wild-type mice but not in lpr/lpr mice, which lack Fas, or in mice with disrupted host inflammatory responses. Antitumor activity was achieved without overt toxicity. These preclinical results raise the possibility that using attenuated S. typhimurium to deliver FasL to tumors may be an effective and well-tolerated therapeutic strategy for some cancers.     

Allogeneic cell therapy from immunized donors with tumor antigen peptide enhances the antitumor effect after cyclophosphamide-using non-myeloablative allogeneic hematopoietic cell transplantation

Non-myeloablative allogeneic stem cell transplantation is an option for the treatment of hematological malignancies as well as solid tumors. We recently proposed a cyclophosphamide-using non-myeloablative cell therapy in which donor lymphocytes infusion (DLI) was carried out after tolerance induction to donor cells. In this study, we tested the possibility that the cyclophosphamide-using cell therapy could be augmented by pre-immunization of donors before DLI. We initially assessed whether or not the cyclophosphamide-using cell therapy could also show antitumor effect against subcutaneously established colon 26 carcinoma. As a tumor antigen-derived peptide for colon 26, we used AH1, an immunodominant H-2L^d-binding peptide derived from the envelope protein (gp70) of an endogenous murine leukemia virus. The cyclophosphamide-using cell therapy with the DLI from donors which were pre-immunized with the AH1 peptide was compared with that from non-immunized mice. The cyclophosphamide-using cell therapy significantly suppressed subcutaneously established colon 26 carcinoma, and the tumor-rejected mice acquired the tumor-specific protective immunity. When combined with the DLI from donors that were immunized with AH1, antitumor effect of the cyclophosphamide-using cell therapy was significantly augmented. The DLI from tumor peptide-immunized donors showed no influence on donor chimerism and bodyweight of the treated mice, indicating no increased risk of graft-versus-host disease. Tumor-specific cytotoxic T lymphocytes could be generated from tumor-rejected mice. Our results indicate that the cyclophosphamide-using non-myeloablative cell therapy with the DLI from tumor peptide-immunized donors is a useful protocol to augment graft-versus-tumor effect without exacerbation of graft-versus-host disease. ( Cancer Sci 2009; 100: 138–143)     

Tumor regression by expression of high physiological levels of EBV latent membrane protein 1

Induction of apoptosis in tumor cells is one of therapeutic strategies of cancer. Previous studies indicate that LMP-1 can act as governor of cell proliferation because overexpression of latent membrane protein 1 (LMP-1) of Epstein-Barr virus (EBV) inhibits cell proliferation. Here we demonstrate that overexpression of the NLMP-1, isolated from an EBV strain prominent in Taiwanese population, also possess the ability to induce apoptosis of cells, and inhibit CT-26 tumor growth in mice. Mapping studies indicate that NLMP-1 transmembrane domain is required for induction of cytotoxicity. Intratumoral delivery of vectors expressing NLMP-1 or its membrane domain via electroporation induces tumor tissue damage, suppresses tumor growth in mice, and prolongs the survival of treated animals. In addition, the membrane domain of NLMP-1 alone induces effects similar to those induced by cotreatment with NLMP-1 and IL-12. Tumor-free mice at 120 days after the initial treatments were further challenged with CT-26 tumor cells. No tumor growth was observed. Thus, NLMP-1, and more specifically the transmembrane domain of NLMP-1, may be promising new therapeutic agents for control of tumor growth.     

Prodrug bioactivation and oncolysis of diffuse liver metastases by a herpes simplex virus 1 mutant that expresses the CYP2B1 transgene

BACKGROUND: Herpes simplex virus 1 (HSV-1) infection of cancer cells results in viral replication with cell destruction and liberation of progeny virion that infect adjacent tumor cells. rRp450 is a novel replication-conditional HSV-1 mutant that expresses both the endogenous herpes viral thymidine kinase gene and the rat p450 CYP2B1 transgene; p450 bioactivates such cancer prodrugs as cyclophosphamide. METHODS: Viral cytotoxicity and replication assays were performed in colon carcinoma cells as well as primary human hepatocytes. For in vivo studies, diffuse liver metastases were generated by inoculating MC26 cells into the portal system of BALB/c mice. Mice were treated with control media, rRp450, or rRp450 plus cyclophosphamide. RESULTS: Cytopathic effects induced by rRp450 replication in colon carcinoma cells were equivalent to those induced by wild type HSV-1 in vitro. Assays developed to separate cytotoxicity mediated by viral replication from cytotoxicity mediated by chemotherapy confirmed that HSV-1 thymidine kinase bioactivates ganciclovir and CYP2B1 bioactivates cyclophosphamide in rRp450-infected cells. rRp450 mediated cytotoxicity in the presence of cyclophosphamide was increased by 21% to 30% above that achieved by viral replication alone. Cyclophosphamide bioactivation produced bystander killing of colon carcinoma cells but not hepatocytes. In contrast to these effects of cyclophosphamide, rRp450 mediated cytotoxicity was reduced in the presence of ganciclovir. These findings are explained by further experiments showing that bioactivation of cyclophosphamide only minimally affected HSV-1 replication in colon carcinoma cells, whereas bioactivation of ganciclovir markedly attenuated HSV-1 replication. In vivo studies revealed a substantial decrease in hepatic tumor burden in all rRp450-treated animals compared to controls. The addition of cyclophosphamide augmented rRp450's in vivo anti-neoplastic effect. CONCLUSIONS: The rRp450 mutant HSV-1 is highly oncolytic against colon carcinoma cells both in vitro and in vivo. rRp450 displays preferential replication in colon carcinoma cells compared to normal hepatocytes. Activation of cyclophosphamide by the p450 transgene augmented the anti-neoplastic effects of rRp450 without simultaneously decreasing viral replication. Oncolysis induced by HSV-1 replication combined with cyclophosphamide prodrug activation warrants further investigation as a potential therapy for colon carcinoma liver metastases.     

Synergistic antitumor effect of antiangiogenic factor genes on colon 26 produced by low-voltage electroporation

Antiangiogenic factors are potent endothelial cell growth inhibitors that have been shown to inhibit angiogenesis in vitro and tumor growth in mice. We have demonstrated the synergistic antitumor effect of antiangiogenic genes (mouse angiostatin: pBLAST-mAngio; and mouse endostatin: p-BLAST42-mEndo XV) delivered to tumors by low-voltage electroporation in mouse colon 26 models. A synergistic antitumor effect was strongly suggested by in vivo tumor growth kinetics, as well as in survival studies with the mice. RT-PCR confirmed that the fragments of each gene were transferred by low-voltage electroporation in the tumor. Decreased microvessel density measurements in tumors also confirmed the efficacy of the synergistic antitumor effect of both genes. Significant growth inhibition was observed in mice treated with a 1:1 proportion of angiostatin and endostatin genes, and the order of the both genes transferred (first the endostatin gene, followed 1 week later by the angiostatin gene) had a profound inhibitory effect on tumor growth. These data suggest that in vivo delivery of antiangiogenic genes with low-voltage electroporation could be a possible therapeutic strategy for established solid tumors when both genes were applied in combination.     

Vitamins K2, K3 and K5 exert antitumor effects on established colorectal cancer in mice by inducing apoptotic death of tumor cells

Although a number of studies have shown that vitamin K possesses antitumor activities on various neoplastic cell lines, there are few reports demonstrating in vivo antitumor effects of vitamin K, and the antitumor effect on colorectal cancer (CRC) remains to be examined. Therefore, antitumor effects of vitamin K on CRC were examined both in vitro and in vivo. Vitamins K2, K3 and K5 suppressed the proliferation of colon 26 cells in a dose-dependent manner, while vitamin K1 did not. On flow cytometry, induction of apoptosis by vitamins K2, K3 and K5 was suggested by population in sub-G1 phase of the cell cycle. Hoechst 33342 staining and a two-color flow cytometric assay using fluorescein isothiocyanate-conjugated annexin V and propidium iodide confirmed that vitamins K2, K3 and K5 induced apoptotic death of colon 26 cells. Enzymatic activity of caspase-3 in colon 26 cells was significantly up-regulated by vitamins K2, K3 and K5. The pan-caspase inhibitor, benzyloxycarbonyl-Val-Ala-Asp-fluoromethyl ketone, substantially prevented vitamin K-mediated apoptosis. In vivo study using syngeneic mice with subcutaneously established colon 26 tumors demonstrated that intravenous administration of vitamins K2, K3 and K5 significantly suppressed the tumor growth. The number of apoptotic tumor cells was significantly larger in the vitamin K-treated groups than in the control group. These results suggest that vitamins K2, K3 and K5 exerted effective antitumor effects on CRC in vitro and in vivo by inducing caspase-dependent apoptotic death of tumor cells, suggesting that these K vitamins may be promising agents for the treatment of patients with CRC.     

Antitumor effects of systemic and local immunization with a CTL-directed peptide in combination with a local injection of OK-432.

PURPOSE: The accumulation of T cells into the tumor site is crucial for the elicitation of in vivo antitumor effects after cancer vaccination. In this study, we investigated the antitumor effects and associated mechanisms of action that were induced by systemic and local immunization with a CTL-directed peptide in combination with a peritumoral injection of a streptococcal preparation, OK-432. EXPERIMENTAL DESIGN AND RESULTS: The human SART3(315-323) peptide, which has the potential to induce human leukocyte antigen-A24-restricted CTLs, not only has the same amino acid sequence as the mouse SART3, but also has the capacity for binding to H-2K(d) molecules. Therefore, the SART3(315-323) peptide could be used as a tumor antigen-derived peptide in H-2(d) mice. Systemic immunization with the SART3(315-323) peptide and the subsequent peritumoral injection of both the SART3(315-323) peptide and OK-432 effectively induced peptide-specific and colon26 carcinoma-reactive CTLs in BALB/c mice. The combination therapy suppressed the growth of s.c. established colon26 carcinoma. The accumulation of both CD8(+) and CD4(+) T cells into the tumor site was more apparent in mice treated with the combination therapy than in those treated with other protocols. In addition, the level of IgG reactive to the administered SART3(315-323) peptide increased in mice that were treated with the combination therapy. CONCLUSION: These results indicate that antitumor effects could be efficiently induced by a combination therapy that included systemic and local immunization with a CTL-directed peptide together with a local injection of OK-432.     

Expression of the interleukin-21 gene in murine colon carcinoma cells generates systemic immunity in the inoculated hosts

Interleukin-21 (IL-21) is a novel cytokine that can induce proliferation of activated T cells and maturation of natural killer (NK) cells. We therefore examined whether expression of the IL-21 gene in tumor cells could generate antitumor responses. Murine colon carcinoma Colon 26 cells that were transduced with the mouse IL-21 gene (Colon 26/IL-21) were rejected in syngeneic mice and the mice subsequently acquired protective immunity. The growth of Colon 26/IL-21 tumors developed in nude mice was retarded compared with that of parent tumors, and this growth suppression was not observed in nude mice that were treated with anti-asialo GM(1) antibody. Spleen cells from the mice that had rejected Colon 26/IL-21 cells showed cytotoxic activity to Colon 26 but not to irrelevant tumor cells, and produced larger amounts of interferon-gamma upon stimulation with irradiated Colon 26 cells. Spleen cells from Colon 26/IL-21-tumor- but not parent-tumor-bearing mice had lytic activity to YAC-1 cells. These data suggest that expression of IL-21 in tumors induces T- and NK-cell-dependent antitumor effects.     

Tyrosine kinase inhibition of multiple angiogenic growth factor receptors improves survival in mice bearing colon cancer liver metastases by inhibition of endothelial cell survival mechanisms

Redundant mechanisms mediate colon cancer angiogenesis. Targeting multiple angiogenic factors simultaneously may improve survival of mice with colon cancer metastases. BALB/c mice underwent splenic injection with CT-26 colon cancer cells to generate liver metastases and received administration of either vehicle alone or a tyrosine kinase inhibitor for vascular endothelial growth factor, basic fibroblast growth factor, and platelet-derived growth factor receptors (SU6668). Mice were sacrificed when they became moribund as determined by a blinded observer. In a parallel experiment, groups of mice were sacrificed at earlier time points to better define the kinetics of the effect of SU6668 on angiogenic parameters over time. SU6668 increased median survival by 58% (P < 0.001) and led to a progressive increase in tumor cell and endothelial cell apoptosis that increased over time. In addition, pericyte vessel coverage and tumor vascularity were significantly decreased in mice treated with SU6668. Based on current knowledge of endothelial cell survival, these data suggest that SU6668 may prevent tumor endothelial cell survival directly (vascular endothelial growth factor) and indirectly (pericyte coverage) by affecting endothelial cell survival mechanisms.     

Protective immunity is induced in murine colon carcinoma cells by the expression of interleukin-12 or interleukin-18, which activate type 1 helper T cells

We investigated the antitumor effects induced by the production of interleukin-12 (IL-12) or IL-18, which influence the function of T helper type 1 cells, in murine colon carcinoma cells (Colon 26). Retrovirally transduced cells with IL-12 genes that encoded both p35 and p40 (Colon 26/IL-12) lost their tumorigenicity when inoculated subcutaneously or intraperitoneally into syngeneic immunocompetent mice. Moreover, the mice that had rejected the Colon 26/IL-12 cells generated protective immunity to wild-type (wt) cells when subsequently challenged. Colon 26 cells transduced with the IL-18 gene (Colon 26/IL-18) could not form subcutaneous tumors in immunocompetent mice, and the mice became resistant to inoculated wt cells. Immunohistochemical analysis revealed that the numbers of blood vessels in Colon 26/IL-12 or Colon 26/IL-18 tumors were markedly reduced, and that the expression of adhesion molecules such as intercellular adhesion molecule-1 and vascular cell adhesion molecule-1 increased on the endothelium in the stroma of Colon 26/IL-12 tumors. The loss of tumorigenicity of Colon 26/IL-12 or Colon 26/IL-18 cells was not observed in immunocompromised mice. However, the survival days of the immunocompromised mice inoculated with Colon 26/IL-12 but not Colon 26/IL-18 cells were significantly longer than those inoculated with wt cells. The secretion of cytokines that stimulate T helper type 1 cells from tumor cells can thereby induce an antitumor response. However, the effector cells involved in these antitumor effects could differentially migrate to the tumors, and the inhibition of angiogenesis may partially contribute to the antitumor responses observed.     

CS-706, a novel cyclooxygenase-2 selective inhibitor, prolonged the survival of tumor-bearing mice when treated alone or in combination with anti-tumor chemotherapeutic agents

The potent chemopreventive activity of cyclooxygenase-2 (COX-2) inhibitors has been demonstrated in a number of preclinical studies, but their potency in antitumor activity is still in dispute. In this report, we demonstrate the potent antitumor activity of a novel COX-2 inhibitor, CS-706 in mouse colorectal adenocarcinoma colon 26 tumor-bearing mice treated with or without antitumor chemotherapeutic agents. Daily oral administration of CS-706 at doses of 3-100 mg/kg from the day of tumor inoculation (Day 0) inhibited tumor growth dose-dependently, and the maximal inhibition was 67% at a dose of 100 mg/kg. In contrast, celecoxib, a well-known COX-2 inhibitor, did not inhibit tumor growth at doses up to 100 mg/kg. Furthermore, CS-706 at a dose of 1 mg/kg or above markedly prolonged the survival time of tumor-bearing mice. Administration of 30 mg/kg CS-706 from Day 7 combined with a single intravenous treatment of 10 mg/kg cisplatin on Day 7 completely regressed the tumors in all tumor-bearing mice examined, whereas only in 1 of 10 mice tumor was regressed with cisplatin treatment. Similar combination effects were observed with 10 mg/kg CS-706 and 60 mg/kg 5-fluorouracil (5-FU). Moreover, 10 mg/kg CS-706 significantly inhibited angiogenesis induced by implanted chambers with colon 26 cells in a dorsal air sac assay in mice. Collectively, these results suggest that CS-706 is a potent antitumor agent, especially in combination with conventional chemotherapeutic agents, and that the anti-angiogenic activity of CS-706 may contribute at least in part to its marked antitumor activity.     

Characteristics of the Inhibitory Effect of Mitoxantrone and Pirarubicin on Lung Metastases of Colon Carcinoma 26

This study was performed to evaluate the antimetastatic activity of antitumor agents against metastatic colon carcinoma 26 (Co 26Lu), and to investigate their mechanisms of action. Pirarubicin demonstrated the most striking antitumor activity in mice bearing intravenously injected Co 26Lu cells. Etoposide and mitoxantrone also showed marked antitumor activity. Pirarubicin and mitoxantrone also exerted remarkable inhibitory effect on spontaneous lung metastases from subcutaneously implanted Co 26Lu. Pirarubicin showed marked inhibition of both primary tumor growth and lung metastases. Mitoxantrone was effective in preventing lung metastases even at doses that did not exhibit an antitumor effect on the primary tumor. Moreover, mitoxantrone administered two days after intravenous injection of tumor cells obviously reduced the number of lung colonies, while simultaneous injection of the drug did not inhibit colony formation. Mitoxantrone effectively inhibited angiogenesis on the chorioallantoic membrane at doses that did not affect the growth rate of embryos. These results suggest that mitoxantrone, besides its direct antitumor effect on tumor cells, may inhibit lung metastases by inhibiting angiogenesis.     

Tetrandrine induces apoptosis and growth suppression of colon cancer cells in mice

Tetrandrine, a bisbenzylisoquinoline alkaloid, exerts antitumor effects against some cancers. We explored tetrandrine’s effects on colon cancer with cultured mouse CT-26 cells and with subcutaneous tumors. Tetrandrine induced apoptosis in concentration- and time-dependent manner. Tetrandrine increased expression of ERK 1/2 and p38 MAPK; inhibition of p38 MAPK reduced tetrandrine-induced apoptosis; inhibition of ERK1/2 did not. Tetrandrine had significant effects on tumors including slower growth and longer animal survival time and higher survival rate. Higher dose and earlier treatment were more effective than lower dose and delayed treatment. TUNEL staining showed prominent tetrandrine-induced apoptosis of tumors. These data suggest that tetrandrine induced significant apoptosis of cultured and subcutaneous CT-26 cells. Tetrandrine-induced apoptosis might be at least partially related to activation of the p38 MAPK signaling pathway.     

Synergistic antitumor effects of liposomal honokiol combined with cisplatin in colon cancer models

Honokiol, a novel antitumor agent, may induce apoptosis and inhibit the growth of vascular endothelium in a number of tumor cell lines and xenograft models. It has been proposed that the antitumor effects of chemotherapy may be increased in combination with an antiangiogenesis agent as an anticancer strategy. In the present study, we examined the potential of honokiol to increase the antitumor effect of cisplatin (DDP) when the agent and drug were combined in murine CT26 colon cancer models, and investigated the underlying mechanism. Liposomal honokiol (LH) was prepared, and female BALB/c?mice were administered LH at various doses to determine the optimum doses for honokial. Evaluation of cell apoptosis was analyzed using flow cytometry. Honokiol was encapsulated with liposome to improve its water insolubility. In?vitro, LH inhibited the proliferation of CT26 cells via apoptosis and significantly enhanced the DPP-induced apoptosis of CT26 cells. In?vivo, the systemic administration of LH plus DDP resulted in the inhibition of subcutaneous tumor growth beyond the effects observed with either LH or DDP alone. This growth reduction was associated with elevated levels of apoptosis (TUNEL staining) and reduced endothelial cell density (CD31 staining) compared with either treatment alone. Collectively, these findings indicate that LH may augment the induction of apoptosis in CT26 cells in?vitro and in?vivo, and this combined treatment has exhibited synergistic suppression in tumor progression according to the synergistic analysis. The present study may be significant to future exploration of the potential application of the combined approach in the treatment of colon cancer.