Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0948265 (metabolic syndrome)
 24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The original focus on energy and protein needs for combating malnutrition gave way to UNICEF promoted concerns for maternal care and complementary feeding in association with longer-term breast feeding. Nevertheless the World Food Summit's drive to halve malnutrition rates by 2015 was not accelerating the fall in malnutrition prevalences. The UN's Standing Committee on Nutrition's commission highlighted the crucial role of maternal nutrition and low birthweights, the need for a life cycle approach to prevention and the current global effects of maternal/fetal and childhood malnutrition in amplifying the impact of the new epidemic of obesity and chronic diseases. The emphasis on poverty reduction and free market solutions is too crude and national interventions geared to protecting the vulnerable, promoting equity with major community involvement in integrated multifaceted programmes are needed. The same principles apply to overnutrition and specifically to the avoidance of the current pandemic of the metabolic syndrome. An intergenerational amplification of diabesity is now emerging as overweight but poorly fed micronutrient deficient girls enter pregnancy and produce ever more susceptible children. So new strategies are now needed as recognized by economists but not by doctors and nutritionists! Economy, agriculture, food processing and marketing policy changes are crucial in determining patterns of food consumption because the costs of foods and their availability, rather than policies centred on individual responsibility for consumer choice, are the keys to making coherent public health advances.
 ...
PMID:The policy challenge of coexisting undernutrition and nutrition-related chronic diseases. 1688

During the past 10 years, there has been a dramatic increase in the prevalence of obesity in the United States and other developed nations. Recent studies indicate that adipose tissue is an endocrine organ producing numerous proteins, collectively referred to as adipokines, with broad biological activity, that play an important autocrine role in obesity-associated complications. Adipose tissue in general and visceral fat in particular are thought to be key regulators of inflammation. Inflammation is heavily involved in the onset and development of atherothrombotic disease. Moreover, chronic inflammation may also represent a triggering factor in the origin of the metabolic syndrome and type 2 diabetes mellitus. According to a hypothesis, stimuli such as overnutrition, physical inactivity, and aging would result in cytokine hypersecretion and eventually lead to insulin resistance and diabetes in genetically or metabolically predisposed individuals. This article discusses the current understanding of important adipokines thought to be involved in the metabolic and cardiovascular risk associated with obesity. Available evidence linking fat removal by liposuction to modification of cardiovascular risk and vascular inflammatory markers in the obese patient is also presented. Most studies have shown that liposuction produces beneficial effects on insulin resistance and vascular inflammation in the obese patient, reducing its cardiovascular risk. Besides having a significant role in body contouring of the obese patient at the end of the lengthy process of bariatric surgery and massive weight loss, plastic surgery should be incorporated into a multifaceted program of lifestyle changes that allows the obese patient to obtain weight loss and, more importantly, to maintain the reduced weight in the long term.
 ...
PMID:Role of adipokines in the obesity-inflammation relationship: the effect of fat removal. 1757 1

Chronic overnutrition combined with a lack of exercise is the main cause for the rapidly increasing prevalence of overweight and obesity. It seems accepted that adipositis (macrophage infiltration and inflammation of adipose tissue in obesity) and systemic low grade inflammation affect the pathogenesis of the metabolic syndrome or type 2 diabetes mellitus (T2DM). Therefore, modern weight reduction programs additionally focus on strategies to attenuate the inflammation state. Exercise is one major factor, which contributes to the reduction of both the incidence of T2DM and inflammation, and the immunomodulatory effects of exercise are supported by similarly beneficial effects of dietary changes. In this context, glucose is the most extensively studied nutrient and current investigations focus on postprandial glucose-induced inflammation, one possible reason why hyperglycemia is detrimental. Indeed, glucose may modulate the mRNA expression and serum concentrations of immune parameters but these alterations rapidly normalize in normoglycemic subjects. In case of an impaired metabolic state, however, postprandial hyperglycemia increases magnitude and duration of systemic inflammatory responses, which probably promotes the development of T2DM and of cardiovascular disease.
 ...
PMID:Inflammation in metabolic syndrome and type 2 diabetes: Impact of dietary glucose. 1715 Dec 91

Converging lines of evidence from epidemiological studies and animal models now indicate that the origins of obesity and related metabolic disorders lie not only in the interaction between genes and traditional adult risk factors, such as unbalanced diet and physical inactivity, but also in the interplay between genes and the embryonic, fetal and early postnatal environment. Whilst studies in man initially focused on the relationship between low birth weight and risk of adult obesity and metabolic syndrome, evidence is also growing to suggest that increased birth weight and/or adiposity at birth can also lead to increased risk for childhood and adult obesity. Hence, there appears to be increased risk of obesity at both ends of the birth weight spectrum. Animal models, including both under- and overnutrition in pregnancy and lactation lend increasing support to the developmental origins of obesity. This review focuses upon the influence of the maternal nutritional and hormonal environment in pregnancy in permanently programming appetite and energy expenditure and the hormonal, neuronal and autocrine mechanisms that contribute to the maintenance of energy balance in the offspring. We discuss the potential maternal programming 'vectors' and the molecular mechanisms that may lead to persistent pathophysiological changes resulting in subsequent disease. The perinatal environment, which appears to programme subsequent obesity, provides a potential therapeutic target, and work in this field will readily translate into improved interventional strategies to stem the growing epidemic of obesity, a disease which, once manifest, has proven particularly resistant to treatment.
 ...
PMID:Developmental programming of obesity in mammals. 1717 60

Genes involved in carbohydrate and lipid metabolism are nutritionally regulated at the transcriptional level in a coordinated fashion. SREBP-1c is a bHLH transcription factor that controls lipogenesis and is induced during overnutrition to facilitate the conversion of glucose to fatty acids and triglycerides for the storage of the excess energy. Uncontrolled activation of nuclear SREBP-1c in the liver can cause hepatosteatosis, hypertriglyceridemia, and hepatic insulin resistance due to direct suppression of insulin signaling pathways, precipitating development of metabolic syndrome. Conversely, TFE3 is a novel bHLH transcription factor that strongly activates various insulin signaling molecules, protecting against the development of insulin resistance and the metabolic syndrome. Regulation of IRS-2 is the primary site where TFE3 in synergy with Foxo1, and SREBP-1c converge. Taken together, TFE3/Foxo1 and SREBP-1c reciprocally regulate IRS-2 expression and insulin sensitivity in the liver. This scenario provides a mechanistic explanation for the physiological link between glucose and lipid metabolism such as physiological switching of glycogen synthesis to lipogenesis. In addition, these two transcription factors may ultimately contribute to pathophysiological effects of overnutrition leading to the development of the metabolic syndrome and diabetes. In this review, I will discuss roles of SREBP-1c and TFE3 in homeostasis of energy metabolism and in metabolic disturbances, focusing on hepatic insulin sensitivity.
 ...
PMID:SREBP-1c and TFE3, energy transcription factors that regulate hepatic insulin signaling. 1727 46

This review focuses on adipose tissue biology and introduces the concept of adipose tissue plasticity and expandability as key determinants of obesity-associated metabolic dysregulation. This concept is fundamental to our understanding of adipose tissue as a dynamic organ at the center of nutritional adaptation. Here, we summarize the current knowledge of the mechanisms by which adipose tissue can affect peripheral energy homeostasis, particularly in the context of overnutrition. Two mechanisms emerge that provide a molecular understanding for obesity-associated insulin resistance. These are a) the dysregulation of adipose tissue expandability and b) the abnormal production of adipokines. This knowledge has the potential to pave the way for novel therapeutic concepts and strategies for managing and/or correcting complications associated with obesity and the metabolic syndrome.
 ...
PMID:Thematic review series: adipocyte biology. Adipose tissue function and plasticity orchestrate nutritional adaptation. 1737 80

Obesity and insulin resistance, the cardinal features of metabolic syndrome, are closely associated with a state of low-grade inflammation. In adipose tissue chronic overnutrition leads to macrophage infiltration, resulting in local inflammation that potentiates insulin resistance. For instance, transgenic expression of Mcp1 (also known as chemokine ligand 2, Ccl2) in adipose tissue increases macrophage infiltration, inflammation and insulin resistance. Conversely, disruption of Mcp1 or its receptor Ccr2 impairs migration of macrophages into adipose tissue, thereby lowering adipose tissue inflammation and improving insulin sensitivity. These findings together suggest a correlation between macrophage content in adipose tissue and insulin resistance. However, resident macrophages in tissues display tremendous heterogeneity in their activities and functions, primarily reflecting their local metabolic and immune microenvironment. While Mcp1 directs recruitment of pro-inflammatory classically activated macrophages to sites of tissue damage, resident macrophages, such as those present in the adipose tissue of lean mice, display the alternatively activated phenotype. Despite their higher capacity to repair tissue, the precise role of alternatively activated macrophages in obesity-induced insulin resistance remains unknown. Using mice with macrophage-specific deletion of the peroxisome proliferator activated receptor-gamma (PPARgamma), we show here that PPARgamma is required for maturation of alternatively activated macrophages. Disruption of PPARgamma in myeloid cells impairs alternative macrophage activation, and predisposes these animals to development of diet-induced obesity, insulin resistance, and glucose intolerance. Furthermore, gene expression profiling revealed that downregulation of oxidative phosphorylation gene expression in skeletal muscle and liver leads to decreased insulin sensitivity in these tissues. Together, our findings suggest that resident alternatively activated macrophages have a beneficial role in regulating nutrient homeostasis and suggest that macrophage polarization towards the alternative state might be a useful strategy for treating type 2 diabetes.
 ...
PMID:Macrophage-specific PPARgamma controls alternative activation and improves insulin resistance. 1751 19

Obesity, and its health-related sequelae (the metabolic syndrome), have recently emerged as a global health crisis. The prevalence of childhood and adult obesity in economically developed and developing countries world-wide has more than doubled over the past decade. While genetic factors, increasingly sedentary lifestyles, and overnutrition have all been cited as important components of the obesity crisis, recent epidemiological and experimental evidence suggests that developmental factors--especially those that occur in utero and during early postnatal life--play a significant role in the pandemic. Research into the 'developmental origins of health and disease' (DOHaD) has now firmly established that pre- and perinatal developmental perturbations which predispose to obesity in adult life can result from a variety of factors, including both nutritional surplus and deficiency, and there is growing evidence that these physiological traits can be passed on epigenetically to subsequent generations. Anthropological perspectives regarding the developmental origins of obesity and its related health problems cannot only shed further light on contemporary ethnic human health disparities, but can offer unique insights into the relevance of the developmental origins of disease to community-based public health interventions.
 ...
PMID:The developmental origins of obesity and related health disorders--prenatal and perinatal factors. 1759 81

The 'developmental origins of adult health and disease' hypothesis stated that environmental factors, particularly maternal undernutrition, act in early life to programme the risks for adverse health outcomes, such as cardiovascular disease, obesity and the metabolic syndrome in adult life. Early physiological tradeoffs, including activation of the foetal hypothalamo-pituitary-adrenal (HPA) axis, confer an early fitness advantage such as foetal survival, while incurring delayed health costs. We review the evidence that such tradeoffs are anticipated from conception and that the periconceptional nutritional environment can programme the developmental trajectory of the stress axis and the systems that maintain and regulate arterial blood pressure. There is also evidence that restriction of placental growth and function, results in an increased dependence of the maintenance of arterial blood pressure on the sequential recruitment of the sympathetic nervous system and HPA axis. While the 'early origins of adult disease' hypothesis has focussed on the impact of maternal undernutrition, an increase in maternal nutritional intake and in maternal body mass intake has become more prevalent in developed countries. Exposure to overnutrition in foetal life results in a series of central and peripheral neuroendocrine responses that in turn programme development of the fat cell and of the central appetite regulatory system. While the physiological responses to foetal undernutrition result in the physiological trade off between foetal survival and poor health outcomes that emerge after reproductive senescence, exposure to early overnutrition results in poor health outcomes that emerge in childhood and adolescence. Thus, the effects of early overnutrition can directly impact on reproductive fitness and on the health of the next generation. In this context, the physiological responses to relative overnutrition in early life may directly contribute to an intergenerational cycle of obesity.
 ...
PMID:Developmental origins of adult health and disease: the role of periconceptional and foetal nutrition. 1822 59

The cluster of cardiovascular risk factors-abdominal obesity, dyslipidaemia, insulin resistance and hypertension-has been recognized as the core of the metabolic syndrome. Adults with severe growth hormone (GH) deficiency have, to a large extent, features of the metabolic syndrome, and there is a strong inverse association between visceral fat accumulation and blunted GH secretion in adults. Hyposomatotropism in abdominal obesity has therefore been suggested to be of importance for its metabolic consequences. However, the underlying pathophysiological mechanisms are poorly understood. Prevalence of the metabolic syndrome is steadily increasing worldwide. Overnutrition and sedentary habits are the stigmata of modern society that predispose genetically susceptible individuals to develop central obesity and other features of the metabolic syndrome including glucose intolerance, hypertension and dyslipidemia. Although there are still no unified definitions of the syndrome, it is clear that this condition is associated with an increased risk for development of cardiovascular disease (CVD) and diabetes mellitus (DM). In this review, we discuss current evidence regarding alterations in the GH-IGF- 1 axis in abdominal obesity and its possible impact on other features of the metabolic syndrome.
 ...
PMID:The GH/IGF-1 Axis in Obesity: Physiological and Pathological Aspects. 1837 Jul 71


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>