Project description:Preclinical data support the potential of the death-signaling receptors for TRAIL as targets for cancer therapy. However, it is unclear whether these death-signaling receptors suppress the emergence and growth of malignant tumors in vivo. Herein we show that TNF-related apoptosis-inducing ligand receptor (TRAIL-R), the only proapoptotic death-signaling receptor for TRAIL in the mouse, suppresses inflammation and tumorigenesis. Loss of a single TRAIL-R allele on the lymphoma-prone Emu-myc genetic background significantly reduced median lymphoma-free survival. TRAIL-R-deficient lymphomas developed with equal frequency irrespective of mono- or biallelic loss of TRAIL-R, had increased metastatic potential, and showed apoptotic defects relative to WT littermates. In addition, TRAIL-R-/- mice showed decreased long-term survival following a sublethal dose of ionizing radiation. Histological evaluation of moribund irradiated TRAIL-R-/- animals showed hallmarks of bronchopneumonia as well as tumor formation with increased NF-kappaB p65 expression. TRAIL-R also suppressed diethylnitrosamine-induced (DEN-induced) hepatocarcinogenesis, as an increased number of large tumors with apoptotic defects developed in the livers of DEN-treated TRAIL-R-/- mice. Thus TRAIL-R may function as an inflammation and tumor suppressor in multiple tissues in vivo.

Project description:Transcriptome analysis of RNA samples from riboflavin deficiency combined with NMBA-induced rat esophageal intraepithelial neoplasia tissues. Epidemiological studies suggest that dietary riboflavin deficiency and environmental exposure to N-nitrosomethylbenzylamine (NMBA) are common in China's high incidence area of esophageal cancer. Riboflavin deficiency has been documented as an important risk factor for esophageal cancer. In this study, we established a F344 rat esophageal tumor model that combines dietary riboflavin deficiency with exposure to NMBA. The results showed that riboflavin deficiency combined with NMBA (R0N+) enhanced the incidence of esophageal intraepithelial neoplasia, including in situ carcinoma, whereas normal levels of riboflavin combined with NMBA (RcN+) mainly induced the occurrence of esophageal benign hyperplasia and small amount of esophageal intraepithelial neoplasia. Oxidative DNA damage (8-OHdG) and DNA double-strand breaks (p-γH2AX) in R0N+ rats were higher than that in RcN+ rats. The aim of the present study is to analyze the mechanism of riboflavin deficiency-induced tumorigenesis. So, we used Affymetrix Clariom D(also known as Rat Transcriptome Array 1.0) to identify genes that were differentially expressed upon R0N+ esophageal intraepithelial neoplasia tissues.

Project description:Chronic inflammation is implicated in the pathogenesis of esophageal squamous cell carcinoma (ESCC). The causes of inflammation in ESCC, however, are undefined. Dietary zinc (Zn)-deficiency (ZD) increases the risk of ESCC. We have previously shown that short-term ZD (6 weeks) in rats induces overexpression of the proinflammatory mediators S100a8 and S100a9 in the esophageal mucosa with accompanying esophageal epithelial hyperplasia. Here we report that prolonged ZD (21 weeks) in rats amplified this inflammation that when combined with non-carcinogenic low doses of the environmental carcinogen, N-nitrosomethylbenzylamine (NMBA) elicited a 66.7% (16/24) incidence of ESCC. With Zn-sufficiency, NMBA produced no cancers (0/21) (P<0.001). At tumor endpoint, the neoplastic ZD esophagus, as compared with Zn-sufficient esophagus, had an inflammatory gene signature with upregulation of numerous cancer-related inflammation genes (CXC and CC chemokines, chemokine receptors, cytokines and Cox-2) in addition to S100a8 and S100a9. This signature was already activated in the earlier dysplastic stage. Additionally, time-course bioinformatics analysis of expression profiles at tumor endpoint and before NMBA exposure revealed that this sustained inflammation was due to ZD rather than carcinogen exposure. Importantly, Zn replenishment reversed this inflammatory signature at both the dysplastic and neoplastic stages of ESCC development, and prevented cancer formation. Thus, the molecular definition of ZD-induced inflammation as a critical factor in ESCC development has important clinical implications with regard to development and prevention of this deadly disease.

Project description:Riboflavin deficiency regulates inflammation-associated genes in rat esophageal intraepithelial neoplasia

Project description:Type 2 diabetes (T2DM) is a heterogeneous group of diseases that is progressive and involves multiple tissues. Goto-Kakizaki (GK) rats are a polygenic model with elevated blood glucose, peripheral insulin resistance, a non-obese phenotype, and exhibit many degenerative changes observed in human T2DM. As part of a systems analysis of disease progression in this animal model, this study characterized the contribution of adipose tissue to pathophysiology of the disease. We sacrificed subgroups of GK rats and appropriate controls at 4, 8, 12, 16 and 20 weeks of age and carried out a gene array analysis of white adipose tissue. We expanded our physiological analysis of the animals that accompanied our initial gene array study on the livers from these animals. The expanded analysis included adipose tissue weights, HbA1c, additional hormonal profiles, lipid profiles, differential blood cell counts, and food consumption. HbA1c progressively increased in the GK animals. Altered corticosterone, leptin, and adiponectin profiles were also documented in GK animals. Gene array analysis identified 412 genes that were differentially expressed in adipose tissue of GKs relative to controls. The GK animals exhibited an age-specific failure to accumulate body fat despite their relatively higher calorie consumption which was well supported by the altered expression of genes involved in adipogenesis and lipogenesis in the white adipose tissue of these animals, including Fasn, Acly, Kklf9, and Stat3. Systemic inflammation was reflected by chronically elevated white blood cell counts. Furthermore, chronic inflammation in adipose tissue was evident from the differential expression of genes involved in inflammatory responses and activation of natural immunity, including two interferon regulated genes, Ifit and Iipg, as well as MHC class II genes. This study demonstrates an age specific failure to accumulate adipose tissue in the GK rat and the presence of chronic inflammation in adipose tissue from these animals.

Project description:We developed a two-staged lung cancer mouse model, which mimics the smoking carcinogen-induced, and chronic obstructive pulmonary disease (COPD)-related airway inflammation promoted lung cancers. We used the carcinogen 4-(methylnitrosamino)-1-(3- pyridyl)-1-butanone (NNK) to induce lung cancer and in parallel to repeated Lipopolysaccharide (LPS) installation to induce chronic lung inflammation. To identify genes associated with chronic inflammation promoting lung tumorigenesis, we have performed whole genome microarray expression profiling of mice exposed to Phosphate-Buffered Saline (PBS), NNK, LPS, and combined NNK and LPS.

Project description:Weaning male Sprague-Dawley rats were divided into 2 dietary groups to form the Zn-deficient (ZD) and Zn-sufficient (ZS) groups. After 5 weeks, the animals received intragastrically, their 1st N-nitrosomethylbenzylamine dose (NMBA, an esophagus carcinogen) at 2 mg/kg body weight. Immediately after NMBA treatment, half of the ZD rats were switched to a ZS diet to form the Zn-replenished (ZR) group, the other half of ZD rats and ZS rats continued on their respective diets. Five weeks after the 1st NMBA dose, 8 ZD, 8 ZR, and 8 ZS rats were sacrificed gene expression profiling and related studies. The remaining rats received their 2nd and 3rd NMBA dose at 6 weeks and 12 weeks after the 1st NMBA dose. At 15 weeks (endpoint) after the 1st NMBA dose, all animals were sacrificed for tumor incidence analysis and gene expression profiling studies. In this study, ZD rats documented a significantly higher tumorigenic outcome than control ZS rats (tumor incidence, ZD vs ZS: 100% vs 16.6%; tumor multiplicity, 11 ± 3.8 vs 0.5 ± 0.3, P<0.001). Replenishing zinc after the first NMBA dose led to a significantly reduced tumor incidence and multiplicity in ZR vs ZD rats (incidence, 28.9% vs 100%; multiplicity, 0.6 ± 0.4 vs 11 ± 3.8, P<0.001). Expression profiling of esophageal epithelia from NMBA-treated ZD, ZR, and control ZS rats (n=4/group) was performed at 5 weeks and at 15 weeks after the 1st carcinogen dose, using Rat Genome 230 2.0 GeneChip (Affymetrix, Santa Clara, CA)

Project description:S100A4 plays important roles in tumor development and metastasis, but its role in regulating inflammation and colitis-associated tumorigenesis has not been well characterized. Here, we report that S100A4 expression was increased in azoxymethane (AOM) and dextran sulfate sodium (DSS) induced colorectal cancer (CRC) in mice. After AOM/DSS treatment, both S100A4-TK mice with the selective depletion of S100A4-expressing cells and S100A4-deficient (S100A4-/-) mice developed fewer and smaller tumors than wild-type (WT) control littermates. Furthermore, S100A4-/- mice were resistant to DSS-induced colitis, reduced infiltration of macrophages, and the diminished production of proinflammatory cytokines. Further studies revealed that reduced colon inflammation and colorectal tumor development in S100A4-/- mice were partly due to the dampening of nuclear factor (NF)-?B activation in macrophages. Furthermore, the administration of a neutralizing S100A4 antibody to WT mice significantly decreased AOM/DSS-induced colon inflammation and tumorigenesis. These results indicate that S100A4 amplifies an inflammatory microenvironment that promotes colon tumorigenesis and provides a promising therapeutic strategy for treatment of inflammatory bowel disease and prevention of colitis-associated colorectal carcinogenesis.

Project description:Following a request from the European Commission, the EFSA Panel on Dietetic Products, Nutrition and Allergies (NDA) derives dietary reference values (DRVs) for riboflavin. The Panel considers that the inflection point in the urinary riboflavin excretion curve in relation to riboflavin intake reflects body saturation and can be used as a biomarker of adequate riboflavin status. The Panel also considers that erythrocyte glutathione reductase activation coefficient is a useful biomarker, but has limitations. For adults, the Panel considers that average requirements (ARs) and population reference intakes (PRIs) can be determined from the weighted mean of riboflavin intake associated with the inflection point in the urinary riboflavin excretion curve reported in four intervention studies. PRIs are derived for adults and children assuming a coefficient of variation of 10%, in the absence of information on the variability in the requirement and to account for the potential effect of physical activity and the methylenetetrahydrofolate reductase 677TT genotype. For adults, the AR and PRI are set at 1.3 and 1.6 mg/day. For infants aged 7-11 months, an adequate intake of 0.4 mg/day is set by upward extrapolation from the riboflavin intake of exclusively breastfed infants aged 0-6 months. For children, ARs are derived by downward extrapolation from the adult AR, applying allometric scaling and growth factors and considering differences in reference body weight. For children of both sexes aged 1-17 years, ARs range between 0.5 and 1.4 mg/day, and PRIs between 0.6 and 1.6 mg/day. For pregnant or lactating women, additional requirements are considered, to account for fetal uptake and riboflavin accretion in the placenta during pregnancy or the losses through breast milk, and PRIs of 1.9 and 2.0 mg/day, respectively, are derived.

Project description:Mutations in genes encoding enzymes in the tricarboxylic acid cycle (TCA, also known as the Krebs cycle) have been implicated as causative genetic lesions in a number of human cancers, including renal cell cancers, glioblastomas and pheochromocytomas. In recent studies, missense mutations in the succinate dehydrogenase (SDH) complex have also been proposed to cause differentiated thyroid cancer. In order to gain mechanistic insight into this process, we generated mice lacking the SDH subunit D (Sdhd) in the thyroid. We report that these mice develop enlarged thyroid glands with follicle hypercellularity and increased proliferation. In vitro, human thyroid cell lines with knockdown of SDHD exhibit an enhanced migratory capability, despite no change in proliferative capacity. Interestingly, these cells acquire stem-like features which are also observed in the mouse tumors. The stem-like characteristics are reversed by ?-ketoglutarate, suggesting that SDH-associated tumorigenesis results from dedifferentiation driven by an imbalance in cellular metabolites of the TCA cycle. The results of this study reveal a metabolic vulnerability for potential future treatment of SDH-associated neoplasia.