M-H Kweon scite author profile

M-H Kweon

2Publications

84Citation Statements Received

95Citation Statements Given

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128

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University of Wisconsin–Madison

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Green tea polyphenol EGCG suppresses cigarette smoke condensate-induced NF-κB activation in normal human bronchial epithelial cells

et al. 2006

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Cigarette smoke is a powerful inducer of inflammatory responses resulting in disruption of major cellular pathways with transcriptional and genomic alterations driving the cells towards carcinogenesis. Cell culture and animal model studies indicate that (À)-epigallocatechin-3-gallate (EGCG), the major polyphenol present in green tea, possesses potent anti-inflammatory and antiproliferative activity capable of selectively inhibiting cell growth and inducing apoptosis in cancer cells without adversely affecting normal cells. Here, we demonstrate that EGCG pretreatment (20-80 lM) of normal human bronchial epithelial cells (NHBE) resulted in significant inhibition of cigarette smoke condensate (CSC)-induced cell proliferation. Nuclear factor-jB (NF-jB) controls the transcription of genes involved in immune and inflammatory responses. In most cells, NF-jB prevents apoptosis by mediating cell survival signals. Pretreatment of NHBE cells with EGCG suppressed CSC-induced phosphorylation of IjBa, and activation and nuclear translocation of NFjB/p65. NHBE cells transfected with a luciferase reporter plasmid containing an NF-jB-inducible promoter sequence showed an increased reporter activity after CSC exposure that was specifically inhibited by EGCG pretreatment. Immunoblot analysis showed that pretreatment of NHBE cells with EGCG resulted in a significant downregulation of NF-jB-regulated proteins cyclin D1, MMP-9, IL-8 and iNOS. EGCG pretreatment further inhibited CSC-induced phosphorylation of ERK1/2, JNK and p38 MAPKs and resulted in a decreased expression of PI3K, AKT and mTOR signaling molecules. Taken together, our data indicate that EGCG can suppress NF-jB activation as well as other pro-survival pathways such as PI3K/AKT/mTOR and MAPKs in NHBE cells, which may contribute to its ability to suppress inflammation, proliferation and angiogenesis induced by cigarette smoke.

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A novel antioxidant 3-O-Caffeoyl-1-methylquinic acid enhances ultraviolet A-mediated apoptosis in immortalized HaCaT keratinocytes via Sp1-dependent transcriptional activation of p21WAF1/Cip1

et al. 2006

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It has become clear that ultraviolet A (UVA) radiation from the solar spectrum is a major environmental challenge to the skin. This necessitates developing novel mechanism-based agents capable of ameliorating UVAinduced effects in the skin. We recently described a novel antioxidant, 3-O-Caffeoyl-1-methylquinic acid (MCGA3) from leaves of bamboo. Here, we investigated the photochemopreventive effects of MCGA3 against UVAmediated apoptosis in immortalized HaCaT keratinocytes. Pretreatment of MCGA3 rendered cells more sensitive to subsequent UVA irradiation-induced apoptosis as well as completely reversed UVA-induced sustained phosphorylation of extracellular signal-regulated kinase 1/2 and protein kinase Ca, downregulation of p21, and reactive oxygen species generation. Interestingly, MCGA3 itself effectively induced p21 protein and mRNA levels. Silencing of p21 by RNA interference revealed a pivotal role of p21 in generating G 1 -S arrest and in enhancing UVA-mediated apoptosis. Transcriptional activation of p21 by MCGA3 was mediated through the proximal region of multiple Sp1 sites regardless of p53-binding site in p21 promoter, and this effect was augmented by desferroioxamine, an iron chelating agent. Additional studies suggested that iron chelation-driven hypoxia by MCGA3 may function in activation of p21. MCGA3 could be a useful agent to prevent photocarcinogenesis via apoptotic elimination of p53 mutant and DNA-repair defective cells caused by UVA radiation.

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M-H Kweon

Green tea polyphenol EGCG suppresses cigarette smoke condensate-induced NF-κB activation in normal human bronchial epithelial cells

A novel antioxidant 3-O-Caffeoyl-1-methylquinic acid enhances ultraviolet A-mediated apoptosis in immortalized HaCaT keratinocytes via Sp1-dependent transcriptional activation of p21WAF1/Cip1

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