Project description:The results provide information on the gene expression in dissected KrasG12D-driven lung tumor in mice. Mice were fed on high-calorie diet starting 3 months before tumor induction. Dissected tumors were obtained 11 weeks after tumor induction. Total RNA extracted from Kras-driven lung tumors of mice fed with standard diet or high calorie diet
Project description:The results provide information on the gene expression in dissected KrasG12D-driven lung tumor in mice. Mice were fed on high-calorie diet starting 3 months before tumor induction. Dissected tumors were obtained 11 weeks after tumor induction.
Project description:The objective of the experiment was to dissect the effects of a high-fat diet on juvenile adipose tissue gene expression under conditions of excess calorie intake versus normal calorie intake in comparison to a standard low-fat diet. For this purpose juvenile mice were fed (A) a standard low-fat diet (CD), (B) a high-fat diet ad libitum (excess calorie intake) (HFD) and (C) a high-fat diet with calorie consumption restricted to the calorie consumption of the CD diet (R-HFD). RNA expression was profiled after 1 week of feeding in the periuterine fat depot.
Project description:Oncogenic STAT3 functions are known in various malignancies. We found that STAT3 plays an unexpected tumor suppressive role in KRAS-mutant non-small-cell-lung cancer (NSCLC). In mice, tissue-specific inactivation of Stat3 resulted in increased Kras (G12D)-driven NSCLC initiation and malignant progression leading to markedly reduced survival. Clinically, low STAT3 expression levels correlate with poor survival in human lung adenocarcinoma patients with smoking history. Consistently, KRAS-mutant lung tumors showed reduced STAT3 levels. Mechanistically, we show that STAT3 controls NFκB-induced IL-8-expression by sequestering NFκB in the cytoplasm while IL-8 in turn regulates myeloid tumor infiltration and tumor vascularization thereby promoting tumor progression. These results identify a novel STAT3-NFκB-IL-8 axis in KRAS-mutant NSCLC with therapeutic and prognostic relevance WT: Control lung; KRAS: Lung tumors expressing KRAS G12D; KRAS STAT3 KO: Lung tumors expressing KRAS G12D- STAT3 deficient; tumors of four mice pooled per sample
Project description:VMH was dissected from 16-week-old mice with deletion of SIRT1 in SF1 neurons (Sf1-Cre; Sirt1loxP/loxP) and intact controls (Sirt1loxP/loxP) and fed on high calorie diet from 8 weeks of age.
Project description:Obesity is associated with an increased incidence of high grade prostate cancer (PC) and worse prognosis for PC patients. Recently, we showed in men that obesity-related periprostatic white adipose tissue (WAT) inflammation, characterized by macrophages surrounding dead or dying adipocytes forming crown-like structures, was associated with high grade PC. Possibly, interventions that suppress periprostatic WAT inflammation will improve outcomes for men with PC. We found that supplemental 17β-estradiol (E2) could decrease periprostatic WAT inflammation in obese male mice in association with reduction in weight and calorie consumption. Here, we tested the hypothesis that calorie restriction alone would have similar effects on periprostatic WAT inflammation in obese male mice. To test this hypothesis, male mice were fed high fat diet to induce obesity and then switched to a 30% caloric restriction diet for an addition 7 weeks until sacrifice. LFD fed mice and mice fed HFD ad libitum serve as controls.
Project description:Resveratrol in high doses has been shown to extend lifespan in some studies in invertebrates and to prevent early mortality in mice fed a high-fat diet. We fed mice from middle age (14-months) to old age (30-months) either a control diet, a low dose of resveratrol (4.9 mg kg-1 day-1), or a calorie restricted (CR) diet and examined genome-wide transcriptional profiles. We report a striking transcriptional overlap of CR and resveratrol in heart, skeletal muscle and brain. Both dietary interventions inhibit gene expression profiles associated with cardiac and skeletal muscle aging. Gene expression profiling suggests that both CR and resveratrol may retard some aspects of aging through alterations in chromatin structure and transcription. Resveratrol, at doses that can be readily achieved in humans, fulfills the definition of a dietary compound that mimics some aspects of CR. Experiment Overall Design: Heart, neocortex tissue, and gastrocnemius muscle was collected from young and old mice at 5 and 30 months of age, respectively; mice were subjected to either a calorie restricted diet or a control diet supplemented with resveratrol
Project description:To assess the effect of steatosis and oxidative stress on progression of liver fibrosis, we have employed whole genome microarray expression profiling as a discovery platform to identify genes that are related with oxidative stress- and steatosis-induced hepatic fibrogenesis. When wild type mice were fed high-fat/high-sucrose diet for 24 weeks, expression of 69 genes was changed more than 10-fold compared with wild type animals fed normal diet, 11 of which were categorized to lipid metabolic process. Moreover, expression of 208 genes showed more than 5-fold changes in Tet-mev-1 mice fed high-fat/high-sucrose diet compared with the same transgenic animals fed normal diet, and gene ontology analyses indicated significant changes in chemokine activity and chemokine receptor binding as well as defense and immune responses. oxidative stress and high fat high calorie induced gene expression in wild type or Tet-mev-1 mouse liver tissue. wild type and Tet-mev-1 mice were fed either normal diet or high fat high sucrose diet for 4 months, and have been given doxycycline-containing water from embryo. Each group were perfomed by duplicate.
Project description:To profile the expression of circulating miRNAs in a mouse model of diet-induced obesity (DIO) with subsequent weight-reduction with low-fat diet (LFD), eighteen C57BL/6 male mice were grouped into three subgroups as: (1) Control: the mice fed with the standard AIN-76A (fat: 11.5 kcal%) diet for 12 wks; (2) DIO: the mice fed with 58 kcal% high-fat diet for 12 wks; (3) DIO+LFD: the mice fed with high-fat diet for 8 wks to induce obesity, then changed to 10.5 kcal% low-fat diet for subsequent 4 wks.
Project description:Diet-induced obesity is the central cause of diabetes, cardiovascular disease as well as metabolic syndrome. Here, we have studied the efficacy of cycles of a 4-5 day fasting mimicking diet (FMD) in inhibiting high-fat, high calorie diet (HFCD) -induced obesity in mature female C57BL/6 mice. We show that a monthly 5-day cycle of FMD inhibit HFCD-mediated obesity by causing a reduction in calorie intake and accumulation of visceral and subcutaneous fat depots without lean body mass loss. FMD cycles also increase cardiac vascularity, function and stress resistance, and reverse the hypercholesterolemia caused by the HFCD. The sustained activation of adipocyte genes associated with mitochondrial metabolism and biogenesis and the sustained ketogenesis in the HFCD-fed mice subjected to monthly cycles of FMD indicate a reprogramming of fat cell metabolism that is likely to be at the center of obesity reversal. All these improvements could explain the protection from early mortality elicited by the high-fat, high calorie diet.