Current Diabetes Reviews - Volume 8, Issue 2, 2012

The incidence of type 2 diabetes mellitus (DM2) has increased dramatically over the last several decades, largely driven by equally worrisome growing rates of obesity. Chronic diabetic complications are leading causes of morbidity and mortality worldwide. Key players in the pathophysiology of DM2 are insulin resistance and β cell dysfunction, which in turn is a result of both β cell functional abnormality as well as reduced β cell mass. The mechanisms implicated are multifactorial and include genetic and environmental factors related to obesity. Glucose homeostasis is critically dependent on a finely regulated balance between insulin sensitivity and output in the pancreas, and insulin resistance demands a corresponding rise in insulin output in order to maintain normal glycemia. However, this compensation is lost in individuals predisposed to DM2, resulting in overt hyperglycemia. Furthermore, insulin resistance related to excess adiposity is linked to several abnormalities which impact β cell function and viability. These include glucotoxicity, lipotoxicity, increased oxidative stress, and inflammation. In addition, insulin signaling in the β cell is essential to its own functionality and viability, and obesity-related abnormalities in insulin signaling are known to induce failure of insulin secretion and hyperglycemia. Insulin resistance in the β cell arises from defects in phosphorylation/activation of insulin receptor substrates (IRS) proteins, which result in impairment in glucose sensing, glucose stimulated insulin secretion, and also in increased loss of β cells. This review intends to provide an update on the main characteristics and mechanisms that link obesity and insulin resistance to β cell dysfunction in the pathogenesis of DM2.

Type 2 diabetes mellitus (T2DM) is a complex heterogeneous group of metabolic disorders including hyperglycemia and impaired insulin action and/or insulin secretion. Obesity T2DM has become a serious problem in Japan as in Western countries, with over-eating and physical inactivity. Obese Asians have mild degree of adiposity, compared with Western subjects. Unlike total body fat, body fat distribution, especially excess accumulation of visceral fat, correlates with various diabetogenic, atherogenic, prothrombotic and proinflammatory metabolic abnormalities, which increase the risk of atherosclerotic cardiovascular disease (ACVD). Obese patients with T2DM have poor glycemic control with disordered eating behaviors, and complications of hypertension and dyslipidemia, leading to ACVD. The major therapies in obese T2DM, hyperinsulinemia and low insulin sensitivity, available for weight loss, especially visceral fat reduction, include caloric restriction, physical activity and behavior modification. On the other hand, the major therapies in non-obese T2DM with insufficient insulin secretion, are insulin-secretory agents and injectable insulin. For clinically meaningful prevention/reduction in the rate of future ACVD in T2DM, it may be important to stratify T2DM subjects into those with and without visceral obesity and design specific management protocols for each group.

Diabetes mellitus is characterised by hyperglycaemia, lipidaemia and oxidative stress and predisposes affected individuals to long-term complications afflicting the eyes, skin, kidneys, nerves and blood vessels. Increased protein glycation and the subsequent build-up of tissue advanced glycation endproducts (AGEs) contribute towards the pathogenesis of diabetic complications. Protein glycation is accompanied by generation of free radicals through autoxidation of glucose and glycated proteins and via interaction of AGEs with their cell surface receptors (referred to as RAGE). Glycationderived free radicals can damage proteins, lipids and nucleic acids and contribute towards oxidative stress in diabetes. There is interest in compounds with anti-glycation activity as they may offer therapeutic potential in delaying or preventing the onset of diabetic complications. Although many different compounds are under study, only a few have successfully entered clinical trials but none have yet been approved for clinical use. Whilst the search for new synthetic inhibitors of glycation continues, little attention has been paid to anti-glycation compounds from natural sources. In the last few decades the traditional system of medicine has become a topic of global interest. Various studies have indicated that dietary supplementation with combined anti-glycation and antioxidant nutrients may be a safe and simple complement to traditional therapies targeting diabetic complications. Data for forty two plants/constituents studied for anti-glycation activity is presented in this review and some commonly used medicinal plants that possess anti-glycation activity are discussed in detail including their active ingredients, mechanism of action and therapeutic potential.

Diabetes mellitus (DM) is a chronic medical condition that is dependent upon patients self-caring and managing their condition to achieve optimal control. Adherence to medical therapy, making decisions related to lifestyle changes, and self-treating hypoglycaemia for example, require planning and organisational skills that are under the control of a specific domain of cognitive function known as executive function. Executive function has been shown by functional imaging studies such as magnetic resonance imaging to be under the influence of the frontal and prefrontal cortical system. It is now recognised that even in subjects with apparently normal cognition, DM may be associated with impaired executive function (IEF). The exact cause of IEF in DM is still not fully understood. However cerebral microvascular disease and chronic dysglycaemia have been postulated as possible factors contributing to functional neuronal dysfunction leading to IEF. IEF may adversely affect patients' abilities to self-manage their diabetes care, potentially cause worsening glycaemic control and difficulty managing risk factors. Several bedside assessment tools to screen for IEF are currently available and have been shown to correlate with functional status. However, more studies are needed to validate these tests against diabetes self-care assessment tools. Until then, clinicians and healthcare workers managing patients with DM should be aware of the potential for IEF in their patients as specific behaviour and education intervention may be needed to help manage patients with diabetes and IEF.

The objective was to review type 2 diabetes as a risk factor for breast cancer, its influence on tumor aggressiveness and prognosis, and the interactions with obesity. Consideration was given to the responsible biological mechanisms and how these relate to the potential of hypoglycemic agents, notably metformin, as breast cancer chemotherapeutic agents. Most epidemiological studies indicate that type 2 diabetes is a modest positive risk factor for postmenopausal, but not premenopausal, breast cancer; indeed before the menopause it may be associated with a reduced risk. This pattern of differing effects on risk according to menopausal status is well established in obesity; however, although most type 2 diabetics are obese, the relationship with postmenopausal breast cancer does not appear to be a function of the body mass index. We suggest that before menopause the protective effect of obesity may modify any adverse effects of the metabolic changes related to type 2 diabetes. Regardless of menopausal status, obesity is associated with breast cancers that exhibit aggressive biological characteristics at the time of diagnosis and have a poor prognosis; a similar relationship is emerging for type 2 diabetes. The two metabolic disorders share biological mechanisms for their associations with breast cancer, including a direct effect of insulin on breast cancer cell proliferation, increased extraglandular estrogen production and bioavailability, changes in the adipokines, notably adiponectin, and activation of the AMP-activated protein kinase pathway. These mechanistic considerations are consistent with metformin having high potential as a breast cancer chemopreventive and therapeutic agent.

Objective: Obesity negatively affects human health. Limiting food intake, while producing some weight loss, results in reduction of lean body mass. Combined with moderate exercise it produces significant weight loss, maintains lean body mass and improves insulin sensitivity, but appears difficult to adhere to. Bariatric surgery is clinically effective for severely obese individuals compared with non-surgical interventions, but has limitations. Clinical and pre-clinical studies have implicated a role for testosterone (T) in the patho-physiology of obesity. Methods: Evidence Acquisition and Synthesis: A literature search in PubMed on the role of T in counteracting obesity and its complications. Results: Obesity per se impairs testicular T biosynthesis. Furthermore, lower-than-normal T levels increase accumulation of fat depots, particularly abdominal (visceral) fat. This fat distribution is associated with development of metabolic syndrome (MetS) and its sequels, namely type 2 diabetes mellitus (T2DM) and cardiovascular disease (CVD). T treatment reverses fat accumulation with significant improvement in lean body mass, insulin sensitivity and biochemical profiles of cardiovascular risk. The contribution of T to combating obesity in hypogonadal men remains largely unknown to medical professionals managing patients with obesity and metabolic syndrome. Many physicians associate T treatment in men with risks for prostate malignancy and CVD. These beliefs are not supported by recent insights. Conclusion: While overall treatment of obesity is unsuccessful, T treatment of hypogonadal men may be effective, also because it improves mood, energy, reduces fatigue and may motivate men to adhere to diet and exercise regimens designed to combat obesity.

Obesity and type-2 diabetes are currently considered global pandemics. A large set of epidemiological evidences are addressing both the importance of a genetic predisposition -starting with the thrifty genotype hypothesis- and the determinant role of the maternal nutrition during pregnancy -starting with longitudinal studies of individuals born during the Dutch famine- on the adult onset of the disease. Compelling evidences suggest that both over- and undernutrition may modify the intrauterine environment of the conceptus and may alter the expression of its genome, predisposing to disease in the adult life. However, the most recent data indicate that the consequences of this phenomenon, termed as prenatal programming, are influenced both by timing, degree and duration of the challenge and by the adaptive response of the mother and the conceptus; thus, the information acquired by interventional studies modifying these parameters is becoming increasingly important. Obviously, interventional research in human beings is limited by ethical issues; hence, investigations need to be conducted on animal models, either rodents or large animals. This review summarizes the results of epidemiological human studies and translational animal research in unraveling the interaction between genome, nutritional status and adaptive response on the establishment of postnatal obesity, insulin resistance and type-2 diabetes.