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Resistance Syndrome (resistance + syndrome)
Kinds of Resistance Syndrome Selected AbstractsC-reactive protein, its role in inflammation, Type 2 diabetes and cardiovascular disease, and the effects of insulin-sensitizing treatment with thiazolidinedionesDIABETIC MEDICINE, Issue 8 2004R. Nesto Abstract Increased concentrations of the marker of inflammation, C-reactive protein (CRP), are associated with insulin resistance, Type 2 diabetes and the development of cardiovascular disease. In particular, inflammation is closely associated with endothelial dysfunction and is recognized as one of the cardiovascular risk factors clustering in the Insulin Resistance Syndrome or Metabolic Syndrome. The exact mechanisms linking insulin resistance and inflammation remain unclear. However, the close association between insulin resistance and inflammation in atherogenesis suggests that therapies that address both parameters may have benefits in reducing diabetes-related macrovascular complications. The thiazolidinedione class of oral anti-diabetic agents are powerful insulin sensitizers that also have anti-inflammatory properties. Treatment with these agents has a range of anti-atherogenic effects, including reduced levels of CRP, plasminogen activator inhibitor-1 (PAI-1), TNF-, and reactive oxygen species. Additionally, the insulin-sensitizing effect of thiazolidinediones improves other factors of the Insulin Resistance Syndrome, including dyslipidaemia and hypertension. Outcome studies are underway to determine if the effects of improving insulin sensitivity and reducing inflammation will translate into clinical benefits and reduce the cardiovascular morbidity and mortality associated with insulin resistance and Type 2 diabetes. [source] Evidence for distinct effects of GH and IGF-I in the metabolic syndromeDIABETIC MEDICINE, Issue 9 2007P. Maison Abstract Aims, The metabolic syndrome is a cluster of cardiovascular risk factors which include central obesity, dyslipidaemia, glucose intolerance and hypertension. These risk factors are common in patients with growth hormone (GH) deficiency, suggesting a role for the somatotropic axis in the development of metabolic syndrome. Methods, We used factor analysis to investigate the relationships linking serum levels of GH and insulin-like growth factor I (IGF-I) to metabolic syndrome variables (high-density lipoprotein cholesterol, triglycerides, fasting glucose, blood pressure and waist circumference). We studied 359 men and 388 women from the Data from an Epidemiological Study on the Insulin Resistance syndrome (DESIR). Their age range was 30,64 years. Results, Three independent latent factors explained 61% of the total variance in women and four factors explained 73% in men. In both men and women, IGF-I showed a strong positive correlation with the lipid factor and a negative correlation with the obesity/glucose factor. In women, GH showed a strong negative correlation with the obesity/glucose factor but not the lipid factor. In men, GH was unrelated to the lipid and obesity/glucose factors. The blood pressure factor was not related to GH or IGF-I. In contrast with IGF-I, GH was significantly lower in women with metabolic syndrome (1575 ± 449 pg/ml) than in the other women (2121 ± 520 pg/ml, P = 0.002). No significant difference was observed in men for GH or IGF-I. Conclusion, Our results support a link between the somatotropic axis and several features of the metabolic syndrome, and suggest distinct effects of GH and IGF-I on these parameters. [source] The metabolic syndrome: evolving evidence that thiazolidinediones provide rational therapyDIABETES OBESITY & METABOLISM, Issue 4 2006Kathleen L. Wyne The metabolic syndrome, also known as the dysmetabolic syndrome, syndrome X or the insulin resistance syndrome, refers to the clustering of cardiovascular disease risk factors that are present in many individuals who are at increased risk for both cardiovascular events and type 2 diabetes. Prediabetic subjects typically exhibit an atherogenic pattern of cardiovascular risks that is associated with hyperinsulinaemia. Thus, identification of components of the metabolic syndrome is important if patients are to be treated early enough to prevent cardiovascular events and other complications related to diabetes. Therapies targeted to specific components of the metabolic syndrome such as improving glycaemic control, managing dyslipidaemia and reducing the prothrombotic state should help to minimize cardiovascular risk, particularly if initiated early. Traditional pharmacologic agents used to manage the individual components of the metabolic syndrome do not typically impact the other components. The thiazolidinediones, a new class of agents that improve insulin resistance, have the ability, in addition to their glucose-lowering effects, to exert several powerful anti-atherogenic properties, including anti-inflammatory effects in the vascular endothelium, redistribution of visceral fat and reduction of insulin resistance, hyperinsulinaemia and hyperproinsulinaemia. This makes the thiazolidinediones ideal candidates for the early treatment of many components associated with the metabolic syndrome. [source] Insulin resistance and endothelial dysfunction: the road map to cardiovascular diseasesDIABETES/METABOLISM: RESEARCH AND REVIEWS, Issue 6 2006Eugenio Cersosimo Abstract Cardiovascular disease affects approximately 60% of the adult population over the age of 65 and represents the number one cause of death in the United States. Coronary atherosclerosis is responsible for the vast majority of the cardiovascular events, and a number of cardiovascular risk factors have been identified. In recent years, it has become clear that insulin resistance and endothelial dysfunction play a central role in the pathogenesis of atherosclerosis. Much evidence supports the presence of insulin resistance as the fundamental pathophysiologic disturbance responsible for the cluster of metabolic and cardiovascular disorders, known collectively as the metabolic syndrome. Endothelial dysfunction is an important component of the metabolic or insulin resistance syndrome and this is demonstrated by inadequate vasodilation and/or paradoxical vasoconstriction in coronary and peripheral arteries in response to stimuli that release nitric oxide (NO). Deficiency of endothelial-derived NO is believed to be the primary defect that links insulin resistance and endothelial dysfunction. NO deficiency results from decreased synthesis and/or release, in combination with exaggerated consumption in tissues by high levels of reactive oxygen (ROS) and nitrogen (RNS) species, which are produced by cellular disturbances in glucose and lipid metabolism. Endothelial dysfunction contributes to impaired insulin action, by altering the transcapillary passage of insulin to target tissues. Reduced expansion of the capillary network, with attenuation of microcirculatory blood flow to metabolically active tissues, contributes to the impairment of insulin-stimulated glucose and lipid metabolism. This establishes a reverberating negative feedback cycle in which progressive endothelial dysfunction and disturbances in glucose and lipid metabolism develop secondary to the insulin resistance. Vascular damage, which results from lipid deposition and oxidative stress to the vessel wall, triggers an inflammatory reaction, and the release of chemoattractants and cytokines worsens the insulin resistance and endothelial dysfunction. From the clinical standpoint, much experimental evidence supports the concept that therapies that improve insulin resistance and endothelial dysfunction reduce cardiovascular morbidity and mortality. Moreover, interventional strategies that reduce insulin resistance ameliorate endothelial dysfunction, while interventions that improve tissue sensitivity to insulin enhance vascular endothelial function. There is general agreement that aggressive therapy aimed simultaneously at improving insulin-mediated glucose/lipid metabolism and endothelial dysfunction represents an important strategy in preventing/delaying the appearance of atherosclerosis. Interventions that 1 correct carbohydrate and lipid metabolism, 2 improve insulin resistance, 3 reduce blood pressure and restore vascular reactivity, and 4 attenuate procoagulant and inflammatory responses in adults with a high risk of developing cardiovascular disease reduce cardiovascular morbidity and mortality. Whether these benefits hold when the same prevention strategies are applied to younger, high-risk individuals remains to be determined. Copyright © 2006 John Wiley & Sons, Ltd. [source] Stroke in patients with diabetes mellitusDIABETES/METABOLISM: RESEARCH AND REVIEWS, Issue 4 2004Boris N. Mankovsky Abstract The article's objective is to review the key advances in the scientific literature related to the association of stroke with diabetes mellitus and to summarize the current approaches to stroke prevention in diabetic patients. The key findings from the literature regarding stroke incidence in patients with diabetes, specific and nonspecific risk factors of stroke in the diabetic population, such as arterial hypertension, dyslipidemia, hyperglycemia, diabetes duration, diabetic complications, insulin resistance/hyperinsulinemia, course and outcome of stroke in subjects with diabetes and/or hyperglycemia, and the peculiarities of type, site and size of stroke in diabetic patients are discussed. The results of recent clinical trials aimed at correcting hyperglycemia, hypertension, and dyslipidemia, to prevent stroke in people with diabetes, are reviewed. The medical database Medline along with original articles from peer-reviewed journals were used for analysis. There is convincing evidence suggesting that diabetes mellitus represents a strong independent risk factor of stroke. The contribution of hyperglycemia to increased stroke risk is not proven. Data suggest an association of the full cluster of the insulin resistance syndrome and stroke. Diabetes is a risk factor mainly for ischemic stroke, while its association with hemorrhagic stroke remains controversial. Hyperglycemia is common in stroke patients, but it is not known whether it independently influences the course and outcome of stroke or merely reflects stroke severity and location. Aggressive control of arterial hypertension and dyslipidemia allows to decrease the risk of stroke in diabetic patients substantially, while the importance of glucose control for stroke prevention remains unproven. Copyright © 2004 John Wiley & Sons, Ltd. [source] Insulin resistance in type 2 diabetes: role of fatty acids,DIABETES/METABOLISM: RESEARCH AND REVIEWS, Issue S2 2002Peter Arner Abstract Insulin resistance is one of the key factors responsible for hyperglycaemia in type 2 diabetes and can result in a number of metabolic abnormalities associated with cardiovascular disease (insulin resistance syndrome), even in the absence of overt diabetes. The mechanisms involved in the development of insulin resistance are multifactorial and are only partly understood, but increased availability of free fatty acids (FFAs) is of particular importance for the liver and skeletal muscle. The role of FFAs in type 2 diabetes is most evident in obese patients who have several abnormalities in FFA metabolism. Because of a mass effect, the release of FFAs from the total adipose tissue depot to the blood stream is increased and the high concentration of circulating FFAs impairs muscle uptake of glucose by competitive inhibition. In upper-body obesity, which predisposes individuals to type 2 diabetes, the rate of lipolysis is accelerated in visceral adipose tissue. This results in a selective increase in FFA mobilisation to the portal vein, which connects visceral fat to the liver. A high ,portal' FFA concentration has undesirable effects on the liver, resulting in dyslipidaemia, hyperinsulinaemia, hyperglycaemia and hepatic insulin resistance. Recently, a new class of antidiabetic agents, the thiazolidinediones (TZDs) or ,glitazones' has been developed. A prominent effect of these agents is the lowering of circulating FFA levels and it is believed, but not yet proven, that this interaction with FFAs constitutes a major mechanism behind the glucose-lowering effect of the TZDs. Copyright © 2002 John Wiley & Sons, Ltd. [source] The influence of the polymorphism in apolipoprotein B codon 2488 on insulin and lipid levels in a Danish twin populationDIABETIC MEDICINE, Issue 1 2002J. Bentzen Abstract Aims The apolipoprotein B codon 2488 polymorphism has been associated with the metabolism of lipoproteins in subjects with Type 2 diabetes. However, no data are available on the influence of the polymorphism on insulin or glucose metabolism. This study examines the impact of the polymorphism on parameters associated with the insulin resistance syndrome in Danish twins. Methods The effect of the polymorphism on lipid, glucose and insulin measures was studied in 548 same sex twins aged 55,74 years. Results The codon 2488 polymorphism influenced fasting triglyceride levels, as well as insulin, as measured at 120 min in an oral glucose tolerance test. Subjects with the genotype T2488T had 14% higher triglyceride levels (P = 0.02) and 31% higher insulin levels (P = 0.004) than subjects with genotype C2488C. In twins discordant for genotype, the T-allele was associated with higher levels of triglyceride (P = 0.04) and insulin (P = 0.02) and lower levels of HDL-cholesterol (P = 0.04). Conclusion The T-allele of the codon 2488 polymorphism influenced parameters related to the insulin resistance syndrome, i.e. increased levels of insulin, increased levels of triglyceride and decreased levels of HDL. As the polymorphism is silent, these effects must be mediated through linkage to other polymorphisms in apolipoprotein B or other genes on chromosome 2. [source] Review of upper airway resistance syndrome: nursing and clinical managementJOURNAL OF CLINICAL NURSING, Issue 17 2009Tara B Giblin Aims., This study aims to help nurses and nurse practitioners identify and manage paediatric patients with upper airway resistance syndrome. A review of upper airway resistance syndrome is provided, including the signs and symptoms of upper airway resistance syndrome, criteria for diagnosis, recommendations for treatment and implications for nursing in paediatric primary care. Background., Nurses often encounter sleep-related problems in the paediatric primary care setting. Commonly, these problems are well known and include snoring and obstructive sleep apnoea. Upper airway resistance syndrome is a relatively new diagnosis among sleep-related breathing disorders with which nurses and nurse practitioners should be familiar. Upper airway resistance syndrome is characterised by incomplete obstruction of the airway during sleep, leading to increased respiratory efforts and frequent arousals despite normal oxygen saturations. Design., Systematic review. Method. A review of the sleep literature identified articles regarding sleep and/or sleep-related breathing disorders and paediatrics, and upper airway resistance syndrome. Articles published since 2002 were prioritised; however, all articles describing upper airway resistance syndrome since 1993 were considered. Conclusion., Timely recognition of sleep-disordered breathing is crucial to ensuring that patients receive effective and appropriate treatment. Upper airway resistance syndrome should be a part of the differential diagnosis when assessing a child with a sleep-related breathing disorder. Relevance to clinician practice., Nurses and nurse practitioners should become comfortable and skilled in performing a thorough sleep history and physical examination to help identify when a child should receive a sleep study or referral to a specialist. [source] Adverse endothelial function and the insulin resistance syndromeJOURNAL OF INTERNAL MEDICINE, Issue 4 2000J. E. Tooke Abstract. Tooke JE, Hannemann MM (School of Postgraduate Medicine and Vascular Health Sciences, University of Exeter, Devon). Adverse endothelial function and the insulin resistance syndrome (Review). J Intern Med 2000; 247: 425,431. Type 2 diabetes is characterized by impaired endothelial dependent vasodilatation which may contribute to the high prevalence of vascular disease in such patients. Although hyperglycaemia, dyslipidaemia and hypertension can all independently cause a similar defect, recent data suggest that endothelial dysfunction may be intrinsic to the insulin resistance syndrome that commonly precedes type 2 diabetes. Such abnormalities in endothelial function could represent the impact of subclinical disturbance of metabolism or alternatively the presence of a common cellular defect that influences both nitric oxide bioavailability and insulin mediated glucose disposal. Resolution of this puzzle is likely to lead to important advances in our knowledge and ultimately treatment of vascular disease. [source] Evolution of upper airway resistance syndromeJOURNAL OF SLEEP RESEARCH, Issue 3 2009LUIZA JONCZAK Summary The question of whether upper airway resistance syndrome (UARS) is a distinct disease or an initial feature of obstructive sleep apnoea syndrome is still a matter of debate. We evaluated a retrospective group of UARS patients to determine the evolution of UARS over time and the relationship between clinical evolution and subjects' phenotype. Investigations were performed in 30 patients, in whom UARS was diagnosed between 1995 and 2000 by the use of full polysomnography (PSG) without oesophageal pressure (Pes) measurement. The time between initial and follow-up investigations was 6.6 ± 2.6 years. All subjects had full PSG with Pes measurement and completed a sleep questionnaire, including the Epworth Sleepiness Scale. In 19 subjects, PSG results were compatible with UARS. In nine subjects, obstructive sleep apnoea,hypopnoea syndrome (OSAHS) was diagnosed. In two subjects, PSG did not demonstrate breathing abnormalities. The mean ± SD apnoea,hypopnoea index in the UARS group was 1.5 ± 1.7 h,1 and 25.2 ± 19 h,1 in the OSAHS group (P < 0.01). The increase in body mass index (BMI) between initial and follow-up investigations in the UARS group was from 29.4 ± 4 to 31 ± 5.7 kg m,2 (P = 0.014) and in the OSAHS group from 30 ± 4.1 to 32.4 ± 4.7 kg m,2(P = 0.004). Amplitude of Pes swings during respiratory events was significantly higher in OSAHS than that in UARS (P = 0.014). Our results suggest that UARS is part of a clinical continuum from habitual snoring to OSAHS. Progression from UARS to OSAHS seems to be related to an increase in the BMI. [source] DERMAL NEUROVASCULAR DYSFUNCTION IN TYPE 2 DIABETESJOURNAL OF THE PERIPHERAL NERVOUS SYSTEM, Issue 1 2002AI Vinik OBJECTIVE: To review evidence for a relationship between dermal neurovascular dysfunction and other components of the metabolic syndrome of type 2 diabetes. RESEARCH DESIGN AND METHODS: We review and present data supporting concepts relating dermal neurovascular function to prediabetes and the metabolic syndrome. Skin blood flow can be easily measured by laser Doppler techniques. RESULTS: Heat and gravity have been shown to have specific neural, nitrergic, and independent mediators to regulate skin blood flow. We describe data showing that this new tool identifies dermal neurovascular dysfunction in the majority of type 2 diabetic patients. The defect in skin vasodilation is detectable before the development of diabetes and is partially correctable with insulin sensitizers. This defect is associated with C-fiber dysfunction (i.e., the dermal neurovascular unit) and coexists with variables of the insulin resistance syndrome. The defect most likely results from an imbalance among the endogenous vasodilator compound nitric oxide, the vasodilator neuropeptides substance P and calcitonin gene-related peptide, and the vasoconstrictors angiotensin 11 and endothelin. Hypertension per se increases skin vasodilation and does not impair the responses to gravity, which is opposite to that of diabetes, suggesting that the effects of diabetes override and counteract those of hypertension. CONCLUSIONS: These observations suggest that dermal neurovascular function is largely regulated by peripheral C-fiber neurons and that dysregulation may be a component of the metabolic syndrome associated with type 2 diabetes. [source] Weak and non-independent association between plasma TAFI antigen levels and the insulin resistance syndromeJOURNAL OF THROMBOSIS AND HAEMOSTASIS, Issue 4 2003H. Aubert Summary., Increased plasma thrombin-activatable fibrinolysis inhibitor (TAFI) levels were recently shown to be a part of the insulin resistance syndrome. We investigated the relationship between plasma TAFI antigen levels and insulin resistance markers and compared these results with those obtained for PAI-1 and fibrinogen which are known to be closely related to insulin resistance syndrome and fat mass, respectively. Eighty-nine obese females had 1.3-, 1.2-, and 3-fold higher circulating TAFI, fibrinogen and PAI-1, respectively, compared with 64 lean females. Univariate analysis showed that the significance level for association between TAFI or fibrinogen concentrations and insulin resistance markers was lower than the significance level for association between PAI-1 and insulin resistance markers. Nevertheless, TAFI, fibrinogen, and PAI-1 plasma levels were significantly associated to each other. In linear stepwise ascendant analysis, insulin resistance markers accounted for 50% of the interindividual variability of plasma PAI-1 and only for 10% of plasma TAFI and 13% of fibrinogen variability. The contribution of insulin resistance markers to plasma TAFI antigen levels variability disappeared when PAI-1 or fibrinogen was entered in the statistical model. TAFI mRNA was detected in the liver but not in adipose tissue and endothelial cells. No TAFI mRNA was detected in normal or atherosclerotic vessels either. These results suggest that elevated TAFI antigen levels found in obese subjects are not independently associated with the metabolic markers of the insulin resistance syndrome. Increased plasma TAFI antigen levels in obesity might reflect a specific pathway of regulation at the liver level. [source] Zinc ions in ,-cells of obese, insulin-resistant, and type 2 diabetic rats traced by autometallographyAPMIS, Issue 12 2003L. G. SØNDERGAARD Zinc ions in the secretory granules of ,-cells are known to glue insulin molecules, creating osmotically stable hexamers. When the secretory granules open to the surface, the zinc ion pressure decreases rapidly and pH levels change from acid to physiological, which results in free insulin monomers and zinc ions. The released zinc ions have been suggested to be involved in a paracrine regulation of ,- and ,-cells. Since zinc is intimately involved in insulin metabolism and because zinc homeostasis is known to be disturbed in type 2 diabetes, we decided to study the ultrastructural localisation of zinc ions in insulin-resistant and type 2 diabetic rats as compared to controls. By means of autometallography, the only method available for demonstrating zinc ions at ultrastructural levels, we found zinc ions in the secretory granules and adjacent to the plasma membrane. The membrane-related staining outside the plasma membrane reflects release of zinc ions during exocytosis. No apparent difference was found in the ultrastructural localisation of zinc ions when we compared the obese Zucker (fa/fa) rats, representing the insulin resistance syndrome, and the GK rats, representing type 2 diabetes, with controls. This suggests that the ultrastructural localisation of zinc ions is unaffected by the development of type 2 diabetes in rats in a steady state of glycaemia. [source] Insulin resistance and the metabolic syndrome in obese French childrenCLINICAL ENDOCRINOLOGY, Issue 6 2006Céline Druet Summary Objective, To estimate the frequency of the metabolic syndrome (MS) and of the insulin resistance syndrome (IRS) in overweight or obese French children and to determine the risk factors. Design, patients and methods, A total of 308 overweight and obese children [166 girls, 142 boys, aged 7,17 years; median body mass index (BMI) 4·7 standard deviation (SD) (Q1,Q3: 3·9,5·8) adjusted for age and sex] were included. The frequency of the MS was assessed with the National Cholesterol Education Program (NCEP) Adult Treatment Panel III (ATP III) criteria and the frequency of the IRS with World Health Organization (WHO) criteria. Results, The overall frequency of MS and IRS was 15·9% and 42·5%, respectively. The most common component, after abdominal obesity (95·8%) and IR (71·8%), was elevated systolic blood pressure (28·6%). The frequency of glucose tolerance disorders was low (3·6%). The frequency of MS was independently influenced by homeostatic model assessment (HOMA) (P = 0·06) and waist-to-hip ratio (P = 0·09), whereas the frequency of IRS was influenced by adiposity (degree of obesity: P = 0·02; waist-to-hip ratio: P = 0·05), puberty (P = 0·05) and mother's BMI (P = 0·01). Ethnicity had no effect on either MS or IRS. Conclusions, Metabolic complications and IR are frequent in overweight and obese children whereas the frequency of glucose tolerance disorders is very low. IRS is more prevalent than MS, indicating a major role of IR, which could precede the other metabolic complications in obese children. IRS is a relevant marker for the risk of type 2 diabetes (T2D) and cardiovascular complications in obese European children. [source] Intracellular pH, intrauterine growth and the insulin resistance syndromeCLINICAL PHYSIOLOGY AND FUNCTIONAL IMAGING, Issue 6 2001Jonathan H. Pinkney Defects of both sodium,hydrogen exchange (NHE) and sodium,lithium countertransport (SLC) have been described in subjects at increased risk of coronary heart disease (CHD). Sodium transport is linked to the regulation of cell volume, intracellular pH and cell growth, which may explain aspects of this association. However, impaired growth in early life is also linked to adult CHD, and ,programmed' alterations of cell behaviour are postulated to be responsible for this. In this study, therefore, we examined whether NHE or SLC in adults are predicted by anthropometric measures at birth, as well as being associated with insulin resistance syndrome (IRS) variables in adulthood. Red cell SLC was measured in 26 adults, and NHE in dermal fibroblasts from another 15 subjects characterized anthropometrically at birth. SLC activity correlated with LDL cholesterol, triglycerides and urate (r=0·42 , 0·49; 0·05 > P>0·01), but not birth anthropometry. NHE Vmax correlated with plasma insulin (r=0·80; P<0·001), but birth weight was unrelated to Vmax, Km or Hill coefficient for H+i. However, pHi correlated with birth weight (r=0·74; P=0·002), insulin sensitivity (r=0·52; P<0·05), fasting glucose (r=,0·52; P<0·05) 2 h insulin (r=0·51; P<0·05) 2 h glucose (r=,0·54; P<0·05). In conclusion, red cell SLC is related to IRS variables, but not with birth weight measures. In contrast, low intracellular pHi is related to both low birth weight and adult insulin resistance, suggesting it might be a ,programmed' cell phenotype, although this is not apparently explained by altered NHE kinetics. [source] The mode of action of thiazolidinediones,DIABETES/METABOLISM: RESEARCH AND REVIEWS, Issue S2 2002Hans Hauner Abstract The thiazolidinediones (TZDs) or ,glitazones' are a new class of oral antidiabetic drugs that improve metabolic control in patients with type 2 diabetes through the improvement of insulin sensitivity. TZDs exert their antidiabetic effects through a mechanism that involves activation of the gamma isoform of the peroxisome proliferator-activated receptor (PPAR,), a nuclear receptor. TZD-induced activation of PPAR, alters the transcription of several genes involved in glucose and lipid metabolism and energy balance, including those that code for lipoprotein lipase, fatty acid transporter protein, adipocyte fatty acid binding protein, fatty acyl-CoA synthase, malic enzyme, glucokinase and the GLUT4 glucose transporter. TZDs reduce insulin resistance in adipose tissue, muscle and the liver. However, PPAR, is predominantly expressed in adipose tissue. It is possible that the effect of TZDs on insulin resistance in muscle and liver is promoted via endocrine signalling from adipocytes. Potential signalling factors include free fatty acids (FFA) (well-known mediators of insulin resistance linked to obesity) or adipocyte-derived tumour necrosis factor-, (TNF-,), which is overexpressed in obesity and insulin resistance. Although there are still many unknowns about the mechanism of action of TZDs in type 2 diabetes, it is clear that these agents have the potential to benefit the full ,insulin resistance syndrome' associated with the disease. Therefore, TZDs may also have potential benefits on the secondary complications of type 2 diabetes, such as cardiovascular disease. Copyright © 2002 John Wiley & Sons, Ltd. [source] Genetics of Type 2 diabetesDIABETIC MEDICINE, Issue 5 2005I. Barroso Abstract Type 2 diabetes (T2D) has become a health-care problem worldwide, with the rise in disease prevalence being all the more worrying as it not only affects the developed world but also developing nations with fewer resources to cope with yet another major disease burden. Furthermore, the problem is no longer restricted to the ageing population, as young adults and children are also being diagnosed with T2D. In recent years, there has been a surge in the number of genetic studies of T2D in attempts to identify some of the underlying risk factors. In this review, I highlight the main genes known to cause uncommon monogenic forms of diabetes (e.g. maturity-onset diabetes of the young,MODY,and insulin resistance syndromes), as well as describe some of the main approaches used to identify genes involved in the more common forms of T2D that result from the interaction between environmental risk factors and predisposing genotypes. Linkage and candidate gene studies have been highly successful in the identification of genes that cause the monogenic variants of diabetes and, although progress in the more common forms of T2D has been slow, a number of genes have now been reproducibly associated with T2D risk in multiple studies. These are discussed, as well as the main implications that the diabetes gene discoveries will have in diabetes treatment and prevention. [source] Novel polymorphisms and lack of mutations in the ACD gene in patients with ACTH resistance syndromesCLINICAL ENDOCRINOLOGY, Issue 2 2007Catherine E. Keegan Summary Objective ACTH resistance is a feature of several human syndromes with known genetic causes, including familial glucocorticoid deficiency (types 1 and 2) and triple A syndrome. However, many patients with ACTH resistance lack an identifiable genetic aetiology. The human homolog of the Acd gene, mutated in a mouse model of adrenal insufficiency, was sequenced in 25 patients with a clinical diagnosis of familial glucocorticoid deficiency or triple A syndrome. Design A 3·4 kilobase genomic fragment containing the entire ACD gene was analysed for mutations in all 25 patients. Setting Samples were obtained by three investigators from different institutions. Patients The primary cohort consisted of 25 unrelated patients, primarily of European or Middle Eastern descent, with a clinical diagnosis of either familial glucocorticoid deficiency (FGD) or triple A syndrome. Patients lacked mutations in other genes known to cause ACTH resistance, including AAAS for patients diagnosed with triple A syndrome and MC2R and MRAP for patients diagnosed with familial glucocorticoid deficiency. Thirty-five additional patients with adrenal disease phenotypes were added to form an expanded cohort of 60 patients. Measurements Identification of DNA sequence changes in the ACD gene in the primary cohort and analysis of putative ACD haplotypes in the expanded cohort. Results No disease-causing mutations were found, but several novel single nucleotide polymorphisms (SNPs) and two putative haplotypes were identified. The overall frequency of SNPs in ACD is low compared to other gene families. Conclusions No mutations were identified in ACD in this collection of patients with ACTH resistance phenotypes. However, the newly identified SNPs in ACD should be more closely examined for possible links to disease. [source] | ||||||||||||||||||||||