Background: Nicotine promotes the proliferation of human squamous cell lung cancer (SCC-L) via the α7-nicotinic receptor (nAChR).Results: Nicotine increases α7-nAChR expression via transcriptional mechanisms involving Sp1 and GATA proteins.Conclusion: Nicotine-induced up-regulation of α7-nAChR accelerates the growth of human SCC-L.Significance: SCC-L patients exposed to nicotine display fast growing lung tumors and worse clinical outcomes.
Exposure to carcinogenic metals, such as trivalent arsenic [As(III)] and hexavalent chromium [Cr(VI)], through drinking water is a major global public health problem and is associated with various cancers. However, the mechanism of their carcinogenicity remains unclear. In this study, we used azoxymethane/dextran sodium sulfate (AOM/DSS)-induced mouse colitis-associated colorectal cancer model to investigate their tumorigenesis. Our results demonstrate that exposure to As(III) or Cr(VI), alone or in combination, together with AOM/DSS pretreatment has a promotion effect, increasing the colorectal tumor incidence, multiplicity, size, and grade, as well as cell inflammatory response. Two-dimensional differential gel electrophoresis coupled with mass spectrometry revealed that As(III) or Cr(VI) treatment alone significantly changed the density of proteins. The expression of β-catenin and phospho-GSK was increased by treatment of carcinogenic metals alone. Concomitantly, the expression of NADPH oxidase1 (NOX1) and the level of 8-OHdG were also increased by treatment of carcinogenic metals alone. Antioxidant enzymes, such as superoxide dismutase (SOD) and catalase, were decreased. Similarly, in an in vitro system, exposure of CRL-1807 to carcinogenic metals increased reactive oxygen species (ROS) generation, the expression of β-catenin, phospho-GSK, and NOX1. Inhibition of ROS generation by addition of SOD or catalase inhibited β-catenin expression and activity. Our study provides a new animal model to study the carcinogenicity of As(III) and Cr(VI) and suggest that As(III) and Cr(VI) promote colorectal cancer tumorigenesis, at least partly, through ROS-mediated Wnt/β-catenin signaling pathway.
Oxidative stress enhanced by transition metals such as iron forms an attractive hypothesis for neurodegeneration in Alzheimer's Disease (AD). Iron is increased in the brain in AD, but whether this is a primary abnormality or the result of secondary accumulation is unclear. Among several genetic loci associated with AD, the locus at chromosome 6p21 contains the hereditary hemochromatosis gene HFE. To determine whether a genetic predisposition to iron accumulation is associated with AD, we evaluated three hemochromatosis-associated HFE mutations and APOE in cognitively and histopathologically evaluated subjects with AD, mild cognitive impairment (MCI), non-demented controls with AD-like pathologic changes defined by Braak stage > or = 3 (high pathology controls (HPC)), and non-demented controls without significant histologic changes (low-pathology controls (LPC)). In a subset, we examined ventricular (CSF) fluid F(2)-isoprostane (F(2)-IsoP) levels, a marker of lipid peroxidation. Seventeen subjects demonstrated homozygous or compound heterozygous HFE mutations, 13 (9.4%) in the AD/MCI group (P = 0.019 vs. LPC) and four (20%) in the HPC group (P = 0.006, P < 0.05 with Bonferroni correction vs. LPC). In contrast, the APOE4 allele frequency was increased only in the AD/MCI patients (P < 10(-3) vs. HPC, P < 10(-6) vs. LPC). F(2)-IsoP levels were increased in AD subjects with any HFE mutation versus wild type HFE (P = 0.027). Although confirmation is required, these findings suggest that HFE mutations are associated with increased oxidative stress and Braak stage, and that HFE and APOE genotypes are different between AD patients, high pathology and low pathology controls.
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