IntroductionTumor-associated macrophages, which are derived from the infiltration of circulating bone marrow-derived monocytes, consist primarily of a polarized M2 macrophage (M2-Mϕ) population and are associated with poor prognosis in various cancers. In the present study, we attempted to assess whether M2-Mϕs derived from bone marrow stimulate the promotion and progression of mammary tumors.Methods4T1 murine mammary carcinoma cells were injected either alone or coupled with M2-Mϕs into the mammary fat pads of syngeneic female Balb/C mice. M2-Mϕs were prepared by treating monocytes isolated from female Balb/C mouse bone marrow with IL-4. Tumor cell growth was determined using an in vivo imaging system and the expression of cell proliferation-related, angiogenesis-related, and lymphangiogenesis-related proteins in tumor tissues was immunohistochemically analyzed. To evaluate the effects of the crosstalk between 4T1 cells and M2-Mϕs on the secretion and mRNA expression of cytokines and the migration of monocytes, 4T1 cells and M2-Mϕs were co-cultured and cytokine antibody array, real-time RT-PCR, and trans-well migration assays were conducted.ResultsThe co-injection of M2-Mϕs into the mammary fat pads of mice increased solid tumor growth and lung metastasis of 4T1 cells as well as the infiltration of CD45+ leukocytes into tumor tissues. The proportions of Ki-67+ proliferating cells and the expression of hypoxia inducible factor-1α, vascular endothelial cell growth factor A, CD31, vascular endothelial cell growth factor C, and lymphatic vessel endothelial receptor-1 were increased significantly in the tumor tissues of mice co-injected with 4T1 cells and M2-Mϕs. The in vitro results revealed that the proliferation of 4T1 cells, the migration of monocytes, and the secretion of granulocyte colony-stimulating factor, IFNγ, IL-1α, IL-2, IL-16, IFNγ-induced protein-10, keratinocyte-derived chemokine, macrophage colony-stimulating factor, monocyte chemotactic protein-1, macrophage inflammatory protein-1α, and RANTES were increased when 4T1 cells were co-cultured with M2-Mϕs, as compared with when the 4T1 cells were cultured alone.ConclusionThe crosstalk between 4T1 cells and M2-Mϕs increased the production of cytokines, which may have induced immune cell infiltration into tumor tissues, tumor cell proliferation, angiogenesis, and lymph angiogenesis, thereby increasing solid tumor growth and lung metastasis.
Fisetin, a natural flavonol present in edible vegetables, fruits, and wine, was reported to exert anticarcinogenic effects. The objective of the current study was to examine the effect of fisetin on the cell cycle progression of the human colon cancer cell line HT-29. HT-29 cells were cultured in serum-free medium with 0, 20, 40, or 60 micromol/L fisetin. Fisetin dose dependently inhibited both cell growth and DNA synthesis (P < 0.05), with a 79 +/- 1% decrease in cell number observed 72 h after the addition of 60 micromol/L fisetin. Perturbed cell cycle progression from the G(1) to S phase was observed at 8 h with 60 micromol/L fisetin treatment, whereas a G(2)/M phase arrest was observed after 24 h (P < 0.05). The phosphorylation state of the retinoblastoma proteins shifted from hyperphosphorylated to hypophosphorylated in cells treated with 40 micromol/L fisetin. (P < 0.05). Fisetin decreased the activities of cyclin-dependent kinases (CDK)2 and CDK4; these effects were likely attributable to decreases in the levels of cyclin E and D1 and an increase in p21(CIP1/WAF1) levels (P < 0.05). However, fisetin also inhibited CDk4 activity in a cell-free system (P < 0.05), indicating that it may directly inhibit CDk4 activity. The protein levels of cell division cycles (CDC)2 and CDC25C and the activity of CDC2 were also decreased in fisetin-treated cells (P < 0.05). These results indicate that inhibition of cell cycle progression in HT-29 cells after treatment with fisetin can be explained, at least in part, by modification of CDK activities.
To examine the effects of high-fat diet (HFD) on melanoma progression, HFD-fed C57BL/6N mice were subcutaneously injected with syngeneic B16F10 melanoma cells. At 3 weeks post-injection, the tumors were resected; the mice were then sacrificed at 2 weeks post-resection. HFD stimulated melanoma growth and lymph node (LN) metastasis as well as tumor and LN lymphangiogenesis. Lipid vacuoles in the tumor and M2-macrophage (MU)s in the adipose and tumor tissues were increased in HFDfed mice. CCL19 and CCL21 contents were higher in LNs than in tumors. HFD increased both CCL19 and CCL21 levels in LNs and CCR7 in tumors. Adipose tissue-conditioned media (CM) from HFD-fed mice enhanced lymphangiogenesis, and mature adipocyte (MA)/M2-MU co-culture CM markedly stimulated the tube formation of lymphatic endothelial cell (LEC)s and B16F10 migration. Monocyte migration was moderately stimulated by B16F10 or MA CM, but tremendously stimulated by B16F10/M2-MU co-culture CM, which was enhanced by MA/B16F10/M2-MU co-culture CM. The co-culture results revealed that MAs increased CCL2, M-CSF and CCR7 mRNAs in B16F10s; vascular endothelial growth factor (VEGF)-D mRNA in M2-MUs; and CCL19, CCL21 and VEGF receptor (VEGFR)3 mRNA in LECs. M2-MUs increased CCL2, M-CSF and VEGF-A mRNAs in B16F10s, whereas B16F10s increased VEGF-C mRNAs in M2-MUs and VEGFR3 mRNA in LECs. These results indicate that in HFD-fed mice, MA-induced CCL2 and M-CSF in tumor cells increase M2-MUs in tumor; the crosstalk between tumor cells and M2-MUs further increases cytokines and angiogenic and lymphangiogenic factors. Additionally, MA-stimulated CCL19, CCL21/CCR7 axis contributes to increased LN metastasis in HFD-fed mice.Over the past several decades, incidences of overweight and obesity have been rising very rapidly in both developed and developing countries. The prevalence of malignant melanoma is also rising in nearly all countries. 1 In the previous decade, several studies reported the link between melanomas and obesity. [2][3][4] To effectively prevent and treat melanoma, it is necessary to understand the biological processes linking obesity and melanoma progression. Metastasis is associated with poor prognosis for melanoma; approximately 15-20% of patients will develop metastasis. 5 Lymph node (LN) involvement is indicative of poor prognosis, and in malignant melanoma, nearly 60% of metastasis is found in draining LNs. 6 In aggressive melanoma, lymphatic vessels act as the main path of metastatic dissemination. 7 Tumor-associated lymphatic vessels constitute the main channel for the early spread of tumor cells into the LNs through pre-existing vessels or newly formed lymphatics, which are produced by a process referred to as tumor-induced lymphangiogenesis. Currently, there is persuasive evidence indicating that the level of tumor lymphangiogenesis is correlated with the incidence of sentinel LN metastases as well as with disease-free survival in melanoma patients. Further, animal studies convincingly support that tumors can actively stimulate lymphangioge...
Lovastatin is a 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitor. Its inhibitory action on HMG-CoA reductase leads to depletion of isoprenoids, which inhibits post-translational modification of RAS. In this study, we investigated the effect of combining lovastatin with gefitinib on gefitinib-resistant human non-small cell lung cancer (NSCLC) cell lines with K-Ras mutations. Antitumor effects were measured by growth inhibition and 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay. Effects on apoptosis were determined by flow cytometry, DNA fragmentation, and immunoblots. Protein levels of RAS, AKT/pAKT, and RAF/ERK1/2 in cancer cells were analyzed by immunoblot. Compared with gefitinib alone, a combination of gefitinib with lovastatin showed significantly enhanced cell growth inhibition and cytotoxicity in gefitinib-resistant A549 and NCI-H460 human NSCLC cells. In addition, lovastatin combination treatment significantly increased gefitinib-related apoptosis, as determined by fluorescence microscopy and flow cytometric analysis. These effects correlated with up-regulation of cleaved caspase-3, poly (ADP-ribose) polymerase (PARP), and Bax and down-regulation of Bcl-2. The combination of lovastatin and gefitinib effectively down-regulated RAS protein and suppressed the phosphorylation of RAF, ERK1/2, AKT, and EGFR in both cell lines. Taken together, these results suggest lovastatin can overcome gefitinib resistance, in NSCLC cells with K-Ras mutations, by down regulation of RAS protein, which leads to inhibition of both RAF/ERK and AKT pathways.
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