82 research outputs found
Conditional Inactivation of Limbic Neuropeptide Y-1 Receptors Increases Vulnerability to Diet-Induced Obesity in Male Mice
NPY and its Y1 cognate receptor (Y1R) have been shown to be involved in the regulation
of stress, anxiety, depression and energy homeostasis. We previously demonstrated that conditional
knockout of Npy1r gene in the excitatory neurons of the forebrain of adolescent male mice (Npy1rrfb
mice) decreased body weight growth and adipose tissue and increased anxiety. In the present
study, we used the same conditional system to examine whether the targeted disruption of the
Npy1r gene in limbic areas might affect susceptibility to obesity and associated disorders during
adulthood in response to a 3-week high-fat diet (HFD) regimen. We demonstrated that following
HFD exposure, Npy1rrfb male mice showed increased body weight, visceral adipose tissue, and blood
glucose levels, hyperphagia and a dysregulation of calory intake as compared to control Npy1r2lox
mice. These results suggest that low expression of Npy1r in limbic areas impairs habituation to
high caloric food and causes high susceptibility to diet-induced obesity and glucose intolerance in
male mice, uncovering a specific contribution of the limbic Npy1r gene in the dysregulation of the
eating/satiety balance
Effetti organizzazionali del Bisfenolo-A sull'espressione della kisspeptina e della NOS nell'ipotalamo di topi CD-1
Hypothalamic NPY‐Y1R Interacts with Gonadal Hormones in Protecting Female Mice against Obesity and Neuroinflammation
Bifidobacterium bifidum PRL2010 Modulates the Host Innate Immune Response
Here, we describe data obtained from transcriptome profiling of human cell lines and intestinal cells of a murine model upon exposure and colonization, respectively, with Bifidobacterium bifidum PRL2010. Significant changes were detected in the transcription of genes that are known to be involved in innate immunity. Furthermore, results from enzyme-linked immunosorbent assays (ELISAs) showed that exposure to B. bifidum PRL2010 causes enhanced production of interleukin 6 (IL-6) and IL-8 cytokines, presumably through NFκB activation. The obtained global transcription profiles strongly suggest that Bifidobacterium bifidum PRL2010 modulates the innate immune response of the host. © 2014, american Society for Microbiology. All Rights Reserved.We thank GenProbio srl for financial support of the Laboratory of Probiogenomics. This work was financially supported by Fondazione Cariplo (grant 2010-0678 to S.G. and V.T.) and by a FEMS Jensen Award to F.T. This publication has emanated from research supported in part by a research grant from Science Foundation Ireland (SFI) under grant SFI/12/RC/2273. The grant ILINK2010-0122, funded by CSIC, is also acknowledged.Peer Reviewe
Metabolism disrupting chemicals and metabolic disorders
The recent epidemics of metabolic diseases, obesity, type 2 diabetes(T2D), liver lipid disorders and metabolic syndrome have largely been attributed to genetic background and changes in diet, exercise and aging. However, there is now considerable evidence that other environmental factors may contribute to the rapid increase in the incidence of these metabolic diseases. This review will examine changes to the incidence of obesity, T2D and non-alcoholic fatty liver disease (NAFLD), the contribution of genetics to these disorders and describe the role of the endocrine system in these metabolic disorders. It will then specifically focus on the role of endocrine disrupting chemicals (EDCs) in the etiology of obesity, T2D and NAFLD while finally integrating the information on EDCs on multiple metabolic disorders that could lead to metabolic syndrome. We will specifically examine evidence linking EDC exposures during critical periods of development with metabolic diseases that manifest later in life and across generations
Current Knowledge on Endocrine Disrupting Chemicals (EDCs) from Animal Biology to Humans, from Pregnancy to Adulthood: Highlights from a National Italian Meeting
Wildlife has often presented and suggested the effects of endocrine disrupting chemicals (EDCs). Animal studies have given us an important opportunity to understand the mechanisms of action of many chemicals on the endocrine system and on neurodevelopment and behaviour, and to evaluate the effects of doses, time and duration of exposure. Although results are sometimes conflicting because of confounding factors, epidemiological studies in humans suggest effects of EDCs on prenatal growth, thyroid function, glucose metabolism and obesity, puberty, fertility, and on carcinogenesis mainly through epigenetic mechanisms. This manuscript reviews the reports of a multidisciplinary national meeting on this topic
Metabolic Consequences and Vulnerability to Diet-Induced Obesity in Male Mice under Chronic Social Stress
Social and psychological factors interact with genetic predisposition and dietary habit in determining obesity. However, relatively few pre-clinical studies address the role of psychosocial factors in metabolic disorders. Previous studies from our laboratory demonstrated in male mice: 1) opposite status-dependent effect on body weight gain under chronic psychosocial stress; 2) a reduction in body weight in individually housed (Ind) male mice. In the present study these observations were extended to provide a comprehensive characterization of the metabolic consequences of chronic psychosocial stress and individual housing in adult CD-1 male mice. Results confirmed that in mice fed standard diet, dominant (Dom) and Ind had a negative energy balance while subordinate (Sub) had a positive energy balance. Locomotor activity was depressed in Sub and enhanced in Dom. Hyperphagia emerged for Dom and Sub and hypophagia for Ind. Dom also showed a consistent decrease of visceral fat pads weight as well as increased norepinephrine concentration and smaller adipocytes diameter in the perigonadal fat pad. On the contrary, under high fat diet Sub and, surprisingly, Ind showed higher while Dom showed lower vulnerability to obesity associated with hyperphagia. In conclusion, we demonstrated that social status under chronic stress and individual housing deeply affect mice metabolic functions in different, sometime opposite, directions. Food intake, the hedonic response to palatable food as well as the locomotor activity and the sympathetic activation within the adipose fat pads all represent causal factors explaining the different metabolic alterations observed. Overall this study demonstrates that pre-clinical animal models offer a suitable tool for the investigation of the metabolic consequences of chronic stress exposure and associated psychopathologies
Parma consensus statement on metabolic disruptors
A multidisciplinary group of experts gathered in Parma Italy for a workshop hosted by the University of Parma, May 16–18, 2014 to address concerns about the potential relationship between environmental metabolic disrupting chemicals, obesity and related metabolic disorders. The objectives of the workshop were to: 1. Review findings related to the role of environmental chemicals, referred to as “metabolic disruptors”, in obesity and metabolic syndrome with special attention to recent discoveries from animal model and epidemiology studies; 2. Identify conclusions that could be drawn with confidence from existing animal and human data; 3. Develop predictions based on current data; and 4. Identify critical knowledge gaps and areas of uncertainty. The consensus statements
are intended to aid in expanding understanding of the role of metabolic disruptors in the obesity and metabolic disease epidemics, to move the field forward by assessing the current state of the science and to identify research needs on the role of environmental chemical exposures in these diseases. We propose broadening the definition of obesogens to that of metabolic disruptors, to encompass chemicals that play a role in altered susceptibility to obesity, diabetes and related metabolic disorders including metabolic syndrome
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