Chien-Hsing Lee scite author profile

Accumulating evidence is indicating metformin to possess the potential ability in preventing tumor development and suppressing cancer growth. However, the exact mechanism of its antitumorigenic effects is still not clear. We found that metformin suppressed the ability of cancer to skew macrophage toward M2 phenotype. Metformin treated cancer cells increased macrophage expression of M1-related cytokines IL-12 and TNF-α and attenuated M2-related cytokines IL-8, IL-10, and TGF-β expression. Furthermore, metformin treated cancer cells displayed inhibited secretion of IL-4, IL-10 and IL-13; cytokines important for inducing M2 macrophages. Conversely, M1 inducing cytokine IFN-γ was upper-regulated in cancer cells. Additionally, through increasing AMPK and p65 phosphorylation, metformin treatment activated AMPK-NF-κB signaling of cancer cells that participate in regulating M1 and M2 inducing cytokines expression. Moreover, Compound C, an AMPK inhibitor, significantly increased IL-4, IL-10, and IL-13 expression while BAY-117082, an NF-κB inhibitor, decreased expression. In metformin-treated tumor tissue, the percentage of M2-like macrophages decreased while M1-like macrophages increased. These findings suggest that metformin activates cancer AMPK-NF-κB signaling, a pathway involved in regulating M1/M2 expression and inducing genes for macrophage polarization to anti-tumor phenotype.

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Intratumoral macrophage counts correlate with tumor progression in colorectal cancer

Kang

Chen

Lee

et al. 2010

Journal of Surgical Oncology

133

104

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Background: The role of intratumoral tumor-associated macrophages (TAMs) in colorectal cancer (CRC) is not clear. We aim to examine the relationships of TAMs and the clinicopathologic features of CRC and the expression of matrix metalloproteinases (MMP)-2 and MMP-9. Methods: Immunohistochemical staining of CD68, MMP-2, and MMP-9 was determined in tissue samples from CRC patients. To test the biological effect of macrophages on tumor cells, cancer cells were cocultured with macrophages and function change of cancer cells were examined. Results: Intratumoral TAM count correlated with depth of invasion (P ¼ 0.048), lymph node metastasis (P < 0.0001), and staging (P < 0.0001) of CRC. MMP-2 and MMP-9 expression was significantly associated with lymph node metastasis and staging. A significant association between intratumoral TAM counts and MMP-2 (P < 0.0001) and MMP-9 (P < 0.0001) expression was noted. When cocultured with macrophages, cancer cells increased their invasiveness and migration and elevated MMP-2 and MMP-9 secretion. Conclusions: Intratumoral TAMs cause cancer cells to have a more aggressive behavior, and this may be due to an upregulation of tumor cellderived MMP-2 and MMP-9. Examination of intratumoral TAMs can serve as a progressive marker for CRC patients.

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Conjugated linoleic acid concentration as affected by lactic cultures and added linoleic acid

1999

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Epidermal growth factor receptor regulates β-catenin location, stability, and transcriptional activity in oral cancer

et al. 2010

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BackgroundMany cancerous cells accumulate β-catenin in the nucleus. We examined the role of epidermal growth factor receptor (EGFR) signaling in the accumulation of β-catenin in the nuclei of oral cancer cells.ResultsWe used two strains of cultured oral cancer cells, one with reduced EGFR expression (OECM1 cells) and one with elevated EGFR expression (SAS cells), and measured downstream effects, such as phosphorylation of β-catenin and GSK-3β, association of β-catenin with E-cadherin, and target gene regulation. We also studied the expression of EGFR, β-catenin, and cyclin D1 in 112 samples of oral cancer by immunostaining. Activation of EGFR signaling increased the amount of β-catenin in the nucleus and decreased the amount in the membranes. EGF treatment increased phosphorylation of β-catenin (tyrosine) and GSK-3β(Ser-(9), resulting in a loss of β-catenin association with E-cadherin. TOP-FLASH and FOP-FLASH reporter assays demonstrated that the EGFR signal regulates β-catenin transcriptional activity and mediates cyclin D1 expression. Chromatin immunoprecipitation experiments indicated that the EGFR signal affects chromatin architecture at the regulatory element of cyclin D1, and that the CBP, HDAC1, and Suv39h1 histone/chromatin remodeling complex is involved in this process. Immunostaining showed a significant association between EGFR expression and aberrant accumulation of β-catenin in oral cancer.ConclusionsEGFR signaling regulates β-catenin localization and stability, target gene expression, and tumor progression in oral cancer. Moreover, our data suggest that aberrant accumulation of β-catenin under EGFR activation is a malignancy marker of oral cancer.

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Chien-Hsing Lee

Metformin-treated cancer cells modulate macrophage polarization through AMPK-NF-κB signaling

Intratumoral macrophage counts correlate with tumor progression in colorectal cancer

Conjugated linoleic acid concentration as affected by lactic cultures and added linoleic acid

Epidermal growth factor receptor regulates β-catenin location, stability, and transcriptional activity in oral cancer

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