Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038187 (starvation)
 24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adiponectin is an abundantly expressed adipokine in adipose tissue and has direct insulin sensitizing activity. A decrease in the circulating levels of adiponectin by interactions between genetic factors and environmental factors causing obesity has been shown to contribute to the development of insulin resistance, type 2 diabetes, metabolic syndrome and atherosclerosis. In addition to its insulin sensitizing actions, adiponectin has central actions in the regulation of energy homeostasis. Adiponectin enhances AMP-activated protein kinase activity in the arcuate hypothalamus via its receptor AdipoR1 to stimulate food intake and decreases energy expenditure. We propose a hypothesis on the physiological role of adiponectin: a starvation gene in the course of evolution by promoting fat storage on facing the loss of adiposity.
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PMID:The physiological and pathophysiological role of adiponectin and adiponectin receptors in the peripheral tissues and CNS. 1805 35

Liver disease is one of the features of metabolic syndrome, one of the most occurring diseases of the twenty-first century. During food deprivation and starvation, adipose tissue elsewhere in the body delivers lipid components to the liver where they are stored as triacylglycerols (TG). Continuous and excessive food intake, on the other hand, leads to liver fattening (hepatic steatosis). In the long term this reaction is pathogenic mainly by inflammation reactions. We postulate the hypothesis in the evolutionary context that individuals with genes promoting the efficient deposition of fat during periods between famines (thrifty genes) in combination with a proinflammatory genotype would be favored and be selected during the course of evolution. Furthermore we postulate the hypothesis that the majority of man, living in a world were famine never comes, are physiologically not adapted to modern social behavior with abundance of food.
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PMID:Liver fattening during feast and famine: an evolutionary paradox. 1805 39

On December 13th and 14th a group of scientists and clinicians met in Washington, DC, for the cachexia consensus conference. At the present time, there is no widely agreed upon operational definition of cachexia. The lack of a definition accepted by clinician and researchers has limited identification and treatment of cachectic patient as well as the development and approval of potential therapeutic agents. The definition that emerged is: "cachexia, is a complex metabolic syndrome associated with underlying illness and characterized by loss of muscle with or without loss of fat mass. The prominent clinical feature of cachexia is weight loss in adults (corrected for fluid retention) or growth failure in children (excluding endocrine disorders). Anorexia, inflammation, insulin resistance and increased muscle protein breakdown are frequently associated with cachexia. Cachexia is distinct from starvation, age-related loss of muscle mass, primary depression, malabsorption and hyperthyroidism and is associated with increased morbidity. While this definition has not been tested in epidemiological or intervention studies, a consensus operational definition provides an opportunity for increased research.
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PMID:Cachexia: a new definition. 1871 96

Aberrant accumulation of lipids in the liver ("fatty liver" or hepatic steatosis) represents a hallmark of the metabolic syndrome and is tightly associated with obesity, type II diabetes, starvation, or glucocorticoid (GC) therapy. While fatty liver has been connected with numerous abnormalities of liver function, the molecular mechanisms of fatty liver development remain largely enigmatic. Here we show that liver-specific disruption of glucocorticoid receptor (GR) action improves the steatotic phenotype in fatty liver mouse models and leads to the induction of transcriptional repressor hairy enhancer of split 1 (Hes1) gene expression. The GR directly interferes with Hes1 promoter activity, triggering the recruitment of histone deacetylase (HDAC) activities to the Hes1 gene. Genetic restoration of hepatic Hes1 levels in steatotic animals normalizes hepatic triglyceride (TG) levels. As glucocorticoid action is increased during starvation, myotonic dystrophy, and Cushing's syndrome, the inhibition of Hes1 through the GR might explain the fatty liver phenotype in these subjects.
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PMID:The glucocorticoid receptor controls hepatic dyslipidemia through Hes1. 1876 22

Adiponectin and adiponectin receptors (AdipoRs) have been found to play significant roles in the etiology of obesity-related chronic disease. Their discovery has been a long and complicated path, with many challenges. Developing methods to unravel the molecular secrets has been an informative process in itself. However, with both functional and genetic studies confirming adiponectin as a therapeutic target adipokine, many roles and interactions with certain other biomolecules have been clearly defined. We have found that decreased high molecular weight (HMW) adiponectin plays a crucial and causal role in obesity-linked insulin resistance and metabolic syndrome; that AdipoR1 and AdipoR2 serve as the major AdipoRs in vivo; and that AdipoR1 activates the AMP kinase (AMPK) pathway and AdipoR2, the peroxisome proliferator-activated receptor alpha (PPARalpha) pathway in the liver, to increase insulin sensitivity and decrease inflammation. Further conclusions are that decreased adiponectin action and increased monocyte chemoattractant protein-1 (MCP-1) form a vicious adipokine network causing obesity-linked insulin resistance and metabolic syndrome; PPARgamma upregulates HMW adiponectin and PPARalpha upregulates AdipoRs; that dietary osmotin can serve as a naturally occurring adiponectin receptor agonist; and finally, that under starvation conditions, MMW adiponectin activates AMPK in hypothalamus, and promotes food intake, and at the same time HMW adiponectin activates AMPK in peripheral tissues, such as skeletal muscle, and stimulates fatty-acids combustion. Importantly, under pathophysiological conditions, such as obesity and diabetes, only HMW adiponectin was decreased; therefore, strategies to increase only HMW adiponectin may be a logical approach to provide a novel treatment modality for obesity-linked diseases, such as insulin resistance and type 2 diabetes. It is hoped that these data will be helpful in developing treatments to counteract the destructive, expensive and painful effects of obesity.
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PMID:Physiological and pathophysiological roles of adiponectin and adiponectin receptors in the integrated regulation of metabolic and cardiovascular diseases. 1913 82

The intracellular storage and utilization of lipids are critical to maintain cellular energy homeostasis. During nutrient deprivation, cellular lipids stored as triglycerides in lipid droplets are hydrolysed into fatty acids for energy. A second cellular response to starvation is the induction of autophagy, which delivers intracellular proteins and organelles sequestered in double-membrane vesicles (autophagosomes) to lysosomes for degradation and use as an energy source. Lipolysis and autophagy share similarities in regulation and function but are not known to be interrelated. Here we show a previously unknown function for autophagy in regulating intracellular lipid stores (macrolipophagy). Lipid droplets and autophagic components associated during nutrient deprivation, and inhibition of autophagy in cultured hepatocytes and mouse liver increased triglyceride storage in lipid droplets. This study identifies a critical function for autophagy in lipid metabolism that could have important implications for human diseases with lipid over-accumulation such as those that comprise the metabolic syndrome.
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PMID:Autophagy regulates lipid metabolism. 1964 62

Abdominal obesity is prevalent and often accompanied by an array of metabolic perturbations including elevated blood pressure, dyslipidemia, impaired glucose tolerance or insulin resistance, a prothrombotic state, and a proinflammatory state, together referred to as the metabolic syndrome. The metabolic syndrome greatly increases coronary heart disease (CHD) risk. Social stress also increases CHD although the mechanisms through which this occurs are not completely understood. Chronic stress may result in sustained glucocorticoid production, which is thought to promote visceral obesity. Thus, one hypothesis is that social stress may cause visceral fat deposition and the metabolic syndrome, which, in turn increases CHD. CHD is caused by coronary artery atherosclerosis (CAA) and its sequelae. Cynomolgus monkeys (Macaca fascicularis) are a well-established models of CAA. Social subordination may be stressful to cynomolgus monkeys and result in hypercortisolemia and exacerbated CAA in females. Herein is reviewed a body of literature which suggests that social stress increases visceral fat deposition in cynomolgus monkeys, that subordinate females are more likely than dominants to have visceral obesity, that females with visceral obesity have behavioral and physiological characteristics consistent with a stressed state, and that females with high ratios of visceral to subcutaneous abdominal fat develop more CAA. While these relationships have been most extensively studied in cynomolgus macaques, obesity-related metabolic disturbances are also observed in other primate species. Taken together, these observations support the view that the current obesity epidemic is the result of a primate adaptation involving the coevolution with encephalization of elaborate physiological systems to protect against starvation and defend stored body fat in order to feed a large and metabolically demanding brain. Social stress may be engaging these same physiological systems, increasing the visceral deposition of fat and its sequelae, which increase CHD risk.
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PMID:Social stress, visceral obesity, and coronary artery atherosclerosis: product of a primate adaptation. 1945 15

The present article presents epidemiological, and comparative evidence supporting the hypothesis that rheumatoid arthritis (RA) may represent a thrifty adaptation selected to compel animals to minimize voluntary energy expenditure. The autoimmune, pathophysiological manifestations underlying RA are framed here as constituting an evolved, protective mechanism that would have influenced animals to avoid exertion and maintain a sedentary lifestyle in order to minimize metabolic output and ultimately escape starvation. Arthritic pain is characterized here as a defensive, innate signal much like fatigue, fever, nausea and reflexive pain, and like these, is seen on a continuum varying between imperceptible encumbrance and debilitating disability. The epigenetic relationship between acute psychological stress and flare-up of arthritic symptoms is examined and taken to suggest that arthritis may be a predictive, adaptive response to severe stress allowing reductions in metabolism to follow adverse conditions or nutritional scarcity. The close associations between rheumatoid arthritis and the metabolic syndrome are also explored along with potential ties to the "thrifty genotype" and "thrifty phenotype" phenomena. This hypothesis is examined in the contexts of evolutionary medicine, phenotypic plasticity, the stress response and the bioenergetics of thrift. A brief and exploratory review of pertinent evidence suggests that RA, its subclinical manifestations, and even other forms of arthropathy may possibly represent adaptations that promoted metabolic thrift during our evolutionary past.
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PMID:Does rheumatoid arthritis represent an adaptive, thrifty condition? 1971 39

GLUT9 is a novel, facilitative glucose transporter isoform that exists as two alternative splice variants encoding two proteins that differ in their NH(2)-terminal sequence (GLUT9a and GLUT9b). Both forms of GLUT9 protein and mRNA are expressed in the epithelia of various tissues; however, the two splice variants are expressed differentially within polarized cells, with GLUT9a localized predominantly on the basolateral surfaces and GLUT9b expressed on apical surfaces. Protein expression of GLUT9 drops under conditions of starvation but increases with addition of glucose and under hyperglycemic conditions. The substrate specificity of GLUT9 is unique since, in addition to transporting hexose sugars, it also is a high-capacity uric acid transporter. Several recent large-scale human genetic studies show a correlation between SNPs mapped to GLUT9 and the serum uric acid levels in several different cohorts. The relationship between GLUT9 and uric acid is highly clinically significant. Elevated uric acid levels have been associated with metabolic syndrome, obesity, diabetes, hypertension, and chronic renal failure. Although some believe uric acid is elevated as a result of these diseases, there is now evidence that uric acid may play a role in the pathogenesis of these diseases. It is also known that GLUT9 is expressed in articular cartilage and is a uric acid transporter, and thus it is possible that GLUT9 plays a role in gout, a disease of uric acid deposition in the joints. In addition, some studies have suggested that intake of fructose plays an important role in causing elevated serum uric acid levels, especially in diabetes and obesity. It is possible that GLUT9, which seems to be both a fructose and a uric acid transporter, plays an important role in these conditions associated with hyperuricemia.
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PMID:Facilitative glucose transporter 9, a unique hexose and urate transporter. 1979 40

Abnormalities in nutritional status of peritoneal dialysis (PD) patients include too high body mass (overweight, obesity), too low body mass (underweight, starvation) or changes in body composition (malnutrition) without or with normal body weight. In vivo neutron activation analysis is considered the reference gold standard for the determination of protein malnourishment in end-stage renal disease patients, but body mass index (BMI) is the most frequently used parameter in nutritional assessment surveys. The association between BMI and outcome of PD patients is controversial, but so-called obesity paradox (the higher BMI the longer survival) remains frequently reported. The use of metabolic syndrome with high BMI as a crucial component is not more predictable in the prognosis of outcome in PD patients than using separately each risk factor of metabolic syndrome. Underweight/starvation is univocally underlined as associated with morbidity and mortality, but prevalence of severe undernutrition is decreasing over last decades, at least in well developed countries. PD patients may also present features of malnutrition without decreased body mass or even with increased body weight. It mainly concerns to deficiencies of vitamins, minerals and trace elements. Serum albumin concentration has serious limitations as a marker of nutritional status, because is influenced by volemic status and inflammation. Nutritional interventions in undernourished patients (oral, intestinal or intravenous feeding, amino acid peritoneal solution, supplementation of vitamins and trace elements) may correct deficiencies, but their influence on PD patients survival remains unclear.
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PMID:The role of nutritional status in the outcome of peritoneal dialysis patients. 1985 51


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