Zinc and diabetes — clinical links and molecular mechanisms

Zinc is an essential trace element crucial for the function of more than 300 enzymes and it is important for cellular processes like cell division and apoptosis. Hence, the concentration of zinc in the human body is tightly regulated and disturbances of zinc homeostasis have been associated with several diseases including diabetes mellitus, a disease characterized by high blood glucose concentrations as a consequence of decreased secretion or action of insulin. Zinc supplementation of animals and humans has been shown to ameliorate glycemic control in type 1 and 2 diabetes, the two major forms of diabetes mellitus, but the underlying molecular mechanisms have only slowly been elucidated. Zinc seems to exert insulin-like effects by supporting the signal transduction of insulin and by reducing the production of cytokines, which lead to beta-cell death during the inflammatory process in the pancreas in the course of the disease. Furthermore, zinc might play a role in the development of diabetes, since genetic polymorphisms in the gene of zinc transporter 8 and in metallothionein (MT)-encoding genes could be demonstrated to be associated with type 2 diabetes mellitus. The fact that antibodies against this zinc transporter have been detected in type 1 diabetic patients offers new diagnostic possibilities. This article reviews the influence of zinc on the diabetic state including the molecular mechanisms, the role of the zinc transporter 8 and MT for diabetes development and the resulting diagnostic and therapeutic options.     

Selenium and diabetes: an enigma?

In recent years diabetes has become one of the most common metabolic diseases in developed countries and it is closely related to supernutrition and obesity. Since untreated diabetes produces oxidative stress responsible for secondary complications of the disease, antioxidant supplements were considered as being favourable for the therapy of diabetes. However, the situation has changed recently, since large cross-sectional and interventional trials revealed a positive correlation between a high Se status and diabetes incidence in humans. Thus, currently available data on the role of Se in diabetes are inconsistent and an enigma appears to exist for the relation between selenium and diabetes. This review summarizes selected human and animal studies, pointing to beneficial and critical virtues of Se in diabetes. Moreover, the review discusses possible underlying mechanisms how Se may influence diabetes in both directions. From the current literature, the following information can be extracted: (1) In populations with a high Se status, with the single exception of pregnant women, Se supplements cannot be recommended for the prevention of diabetes; (2) Anti-diabetic effects of Se seem to be restricted to high and nearly toxic doses which cannot be used in humans; and (3) Future investigations should consider the stage of the disease.     

Eicosanoids, β-cell function, and diabetes

Arachidonic acid (AA) is metabolized by cyclooxygenase (COX), lipoxygenase (LOX), and cytochrome P450 (CYP) enzymes into eicosanoids, which are involved in diverse diseases, including type 1 and type 2 diabetes. During the last 30 years, evidence has been accumulated that suggests important functions for eicosanoids in the control of pancreatic β-cell function and destruction. AA metabolites of the COX pathway, especially prostaglandin E(2) (PGE(2)), appear to be significant factors to β-cell dysfunction and destruction, participating in the pathogenesis of diabetes and its complications. Several elegant studies have contributed to the sorting out of the importance of 12-LOX eicosanoids in cytokine-mediated inflammation in pancreatic β cells. The role of CYP eicosanoids in diabetes is yet to be explored. A recent publication has demonstrated that stabilizing the levels of epoxyeicosatrienoic acids (EETs), CYP eicosanoids, by inhibiting or deleting soluble epoxide hydrolase (sEH) improves β-cell function and reduces β-cell apoptosis in diabetes. In this review we summarize recent findings implicating these eicosanoid pathways in diabetes and its complications. We also discuss the development of animal models with targeted gene deletion and specific enzymatic inhibitors in each pathway to identify potential targets for the treatment of diabetes and its complications.     

Of fat, β cells, and diabetes

The molecular mechanisms linking diet, obesity, and type 2 diabetes are still poorly understood. In a recent paper, Ohtsubo et?al. (2011) show that high lipid levels induce nuclear exclusion of Foxa2 and HNF1α in β cells, leading to impaired expression and glycosylation of proteins controlling glucose-stimulated insulin secretion.     

Vanadium and diabetes. What about vanadium toxicity?

Molecular and Cellular Biochemistry -     

Cholesterol metabolism,pancreatic β-cell function and diabetes

Cholesterol plays an essential role in determining cell membrane physico-chemical characteristics and functions. A proper membrane structure is critical in pancreatic β-cells for glucose-mediated insulin secretion, and alterations in cellular cholesterol content may negatively affect this process, leading to β-cell dysfunction. The low density lipoprotein receptor (LDL-R) appears to play a relevant role in ß-cell dysfunction due to cholesterol accumulation. This observation raised the question of whether hypocholesterolemic drugs which increase LDL-R expression might bear diabetogenic properties, thus increasing the risk of new-onset diabetes or worsen glycaemic parameters in diabetic patients.Being at higher cardiovascular risk, diabetic patients are usually treated with hypolipidemic drugs to correct the atherogenic dyslipidemia characteristic of this pathological condition. Statin therapy has been associated with an increased incidence of new-onset diabetes (NOD), being the diabetogenic effect depending on the type and dose of statin. However, it is worth noting that the benefits on cardiovascular mortality largely exceed the increased risk associated with the development of diabetes. Although genetic variants associated with lower levels of LDL-C are also associated with an increased NOD risk, clinical trials with lipid-lowering drugs other than statins, namely ezetimibe or monoclonal antibodies against PCSK9, did not observe an increase of developing diabetes.In summary, molecular evidence clearly points to a key role for cholesterol homeostasis in pancreatic β-cell function which, in humans, is negatively affected by statins. Available data exclude that this could be the case for other hypocholesterolemic approaches, but long-term studies are warranted to explore this critical aspect.     

Enhanced NTPDase and 5′-nucleotidase activities in diabetes mellitus and iron-overload model

The activity of the enzymes NTPDase and 5′-nucleotidase was studied in both diabetes mellitus and an associated model of iron-overload. Rats were divided in five groups: citrate (CC), saline (S), diabetic (D), iron-overload (IO), and diabetic iron-overload (DIO). Diabetes was induced with alloxan (150 mg/kg), and iron-overload was induced with iron-dextran (10 intramuscular applications of ±80 mg/kg). The enzymatic activities were evaluated in the platelets. The results demonstrated an increase in the activity of NTPDase with substrates ATP and ADP (60% and 120%, respectively; P < 0.001), and 5′-nucleotidase (60%, P < 0.001). This increase was more intense in the IO and DIO groups. The results obtained in vitro showed an activation in ATP, ADP, and AMP hydrolysis between 1 μM and 1,000 μM ferric nitrate concentrations, being more pronounced at 100 μM and decreasing at 1,000 μM. We concluded that diabetes mellitus in association with iron-overload increased the hydrolysis of adenine nucleotides in platelets, contributing to the abnormalities found in these pathological conditions.     

Zinc and diabetes mellitus: is there a need of zinc supplementation in diabetes mellitus patients?

Diabetes mellitus is a group of metabolic disorders, the incidence of which varies widely throughout the world. The treatment of diabetes mellitus includes insulin, oral antidiabetic agents, and dietary regimens. Although the emphasis is on macronutrients intakes, there is strong evidence that there is an abnormal metabolism of several micronutrients in diabetic individuals. Zinc is one of the essential micronutrients of which status and metabolism is altered in this condition. This work is a short review about the close relation among zinc, glucose metabolism, and insulin physiology, as well as about the few experimental data about zinc absorption and zinc supplementation in diabetes mellitus patients.     

Honey and diabetes mellitus: Obstacles and challenges – Road to be repaired

Background and objectiveSince ancient times, honey has been used due to its nutritional and therapeutic value. The role of honey has been acknowledged in the scientific literature however, its use has been controversially discussed and has not been well accepted in modern medicine especially for diabetic patients. This study aimed to investigate the role of honey in diabetic patients.MethodsIn this study, we identified 107 research articles from data based search engines including “PubMed”, “ISI-Web of Science”, “Embase” and “Google Scholar”. The research papers were selected by using the primary key-terms including “Honey”, “Honey bee” and “Diabetes Mellitus”. The research documents in which “Honey” and “Diabetes Mellitus” were debated are included. After screening, we reviewed 66 papers and finally we selected 35 studies which met the inclusion criteria and the remaining documents were excluded.ResultsThis study investigated the preclinical, clinical, human and animal model studies on honey and diabetes mellitus and found that honey decreases the fasting serum glucose, increases the sting C-peptide and 2-h postprandial C-peptide. Although, there is a dearth of data and literature also contrary discussed the use of honey in diabetic patients.ConclusionHoney decreases the fasting serum glucose, increases fasting C-peptide and 2-h postprandial C-peptide. Honey had low glycemic index and peak incremental index in diabetic patients. The use of honey in diabetic patients still has obstacles and challenges and needs more large sample sized, multi-center clinical controlled studies to reach better conclusions.     

The role of autophagy in pancreatic β-cell and diabetes

Pancreatic β-cells play a key role in glucose homeostasis in mammals. Although large-scale protein synthesis and degradation occur in pancreatic β-cells, the mechanism underlying dynamic protein turnover in β-cells remains largely unknown. We found low-level constitutive autophagy in β-cells of C57BL/6 mice fed a standard diet; however, autophagy was markedly upregulated in mice fed a high-fat diet. β-cells of diabetic db/db mice contained large numbers of autophagosomes, compared with non-diabetic db/misty controls. The functional importance of autophagy was analyzed using β-cell-specific Atg7 knockout mice. Autophagy-deficient mice showed degeneration of β-cells and impaired glucose tolerance with reduced insulin secretion. While a high-fat diet stimulated β-cell autophagy in control mice, it induced a profound deterioration of glucose intolerance in β-cell autophagy-deficient mutants, partly because of the lack of a compensatory increase in β-cell mass. These results suggest that the degradation of unnecessary cellular components by autophagy is essential for maintenance of the architecture and function of β-cells. Autophagy also serves as a crucial element of stress responses to protect β-cells under insulin resistant states. Impairment of autophagic machinery could thus predispose individuals to type 2 diabetes.     

Skin and diabetes mellitus: what do we know?

Diabetes mellitus (DM) is becoming increasingly prevalent worldwide. Although major complications of this condition involve kidney, retina and peripheral nerves, the skin of diabetic patients is also frequently injured. Hence, interest is mounting in the definition of the structural and molecular profile of non-complicated diabetic skin, i.e., before injuries occur. Most of the available knowledge in this area has been obtained relatively recently and, in part, derives from various diabetic animal models. These include both insulin-dependent and insulin-resistant models. Structural work in human diabetic skin has also been carried out by means of tissue samples or of non-invasive methods. Indications have indeed been found for molecular/structural changes in diabetic skin. However, the overall picture that emerges is heterogeneous, incomplete and often contradictory and many questions remain unanswered. This review aims to detail, as much as possible, the various pieces of current knowledge in a systematic and synoptic manner. This should aid the identification of areas in which key questions are still open and more research is needed. A comprehensive understanding of this field could help in determining molecular targets for the prevention and treatment of skin injuries in DM and markers for the monitoring of cutaneous and systemic aspects of the disease. Additionally, with the increasing development of non-invasive optics-based deep-tissue-imaging diagnostic technologies, precise knowledge of cutaneous texture and molecular structure becomes an important pre-requisite for the use of such methods in diabetic patients.     

The thrifty epigenotype: An acquired and heritable predisposition for obesity and diabetes?

Obesity and type 2 diabetes arise from a set of complex gene-environment interactions. Explanations for the heritability of these syndromes and the environmental contribution to disease susceptibility are addressed by the "thrifty genotype" and the "thrifty phenotype" hypotheses. Here, the merits of both models are discussed and elements of them are used to synthesize a "thrifty epigenotype" hypothesis. I propose that: (1) metabolic thrift, the capacity for efficient acquisition, storage and use of energy, is an ancient, complex trait, (2) the environmentally responsive gene network encoding this trait is subject to genetic canalization and thereby has become robust against mutational perturbations, (3) DNA sequence polymorphisms play a minor role in the aetiology of obesity and type 2 diabetes-instead, disease susceptibility is predominantly determined by epigenetic variations, (4) corresponding epigenotypes have the potential to be inherited across generations, and (5) Leptin is a candidate gene for the acquisition of a thrifty epigenotype.     

Does "afternoon diabetes" predict diabetes?

Twenty-eight men were given morning and afternoon oral glucose tolerance tests in 1969 and again in 1975. According to British Diabetic Association criteria all 28 had normal morning values in 1969 but seven had "afternoon diabetes". Four men had diabetic values in the morning in 1975 but only two of these had had afternoon diabetes in 1969. Better prediction of subsequent diabetes was obtained by calculating the area under the morning glucose tolerance curve in 1969. All four men who progressed to diabetes had areas exceeding 1000 units, which distinguished them absolutely from the other 24. They also tended to be more obese, but this was less predictive of subsequent diabetes.     

Visfatin: the missing link between intra-abdominal obesity and diabetes?

Human obesity-related diabetes and the accompanying metabolic disorders have been specifically linked to increased visceral adipose tissue mass. Understanding the differences in biology of the two human fat depots (visceral and subcutaneous) might hold the key to therapeutic strategies aimed at reducing obesity-induced insulin resistance and alleviating symptoms of the metabolic syndrome. Visfatin (pre-B-cell colony-enhancing factor, PBEF) is a novel adipokine that appears to be preferentially produced by visceral adipose tissue and has insulin-mimetic actions. Could this molecule hold the key to future treatments for type 1 and 2 diabetes? This article discusses the pros and cons of visfatin action and how it might affect future therapeutic strategies.     

Adiponectin and peroxisome proliferator-activated receptor-γ gene polymorphisms and gene-gene interactions with type 2 diabetes

Aims

To investigate whether gene polymorphisms of both adiponectin and peroxisome proliferator-activated receptor gamma (PPARγ) influence type 2 diabetes mellitus (T2DM) respectively in the Han people of the Wenzhou region of China and whether the interaction of gene polymorphism between adiponectin and PPARγ influences T2DM in the same subjects.

Main methods

This study included 198 patients with T2DM and 255 healthy individuals. Polymerase chain reaction–restriction fragment length polymorphism analyses were used to detect single nucleotide polymorphisms (SNPs). Logistic regression and multifactor dimensionality reduction (MDR) methods were used to analyze gene–gene interactions.

Key findings

The frequency distribution of adiponectin SNP11377 was not different (p = 0.792), but the frequency of CC, CG and GG genotypes showed the difference between two groups (T2DM: 57.1%, 33.3%, and 9.6%; control: 53.7%, 41.6%, and 4.7%, respectively; p = 0.047). Adiponectin SNP45, SNP276 and PPAR γ SNPp12a were equally distributed between the two groups (p = 0.586, 0.119, 0.437, respectively), and there were no significant differences in genotype frequencies between the two groups (p = 0.751, 0.144, 0.479, respectively). Linkage disequilibrium existed between SNP11377 and SNP45 (p < 0.001) and SNP45 and SNP276 (p < 0.001). Haplotype analyses showed no significant differences between the T2DM and control groups. According to the logistic regression and MDR gene–gene interaction analyses, SNP11377GG and SNP276GT interactions increased the risk of T2DM (odds ratio = 6.984, p = 0.012).

Significance

Adiponectin SNP11377 and SNP276 gene–gene interactions are associated with the increased risk of T2DM in this population.     

Mild streptozotocin diabetes in the Göttingen minipig. A novel model of moderate insulin deficiency and diabetes

Nonrodent models of diabetes are needed for practical and physiological reasons. Induction of mild insulin-deficient diabetes was investigated in male G?ttingen minipigs by use of streptozotocin (STZ) alone (75, 100, and 125 mg/kg) or 125 mg/kg combined with pretreatment with nicotinamide (NIA; 0, 20, 67, 100, 150, and 230 mg/kg). Use of NIA resulted in a less steep slope of the regression line between fasting plasma glucose and changing doses compared with STZ [-7.0 +/- 1.4 vs. 29.7 +/- 7.0 mM. mg(-1). kg(-1), P < 0.0001]. Intermediate NIA doses induced moderate changes of glucose tolerance [glucose area under the curve increased from 940 +/- 175 to 1,598 +/- 462 mM. min, P < 0.001 (100 mg/kg) and from 890 +/- 109 to 1,669 +/- 691 mM. min, P = 0.003 (67 mg/kg)] with reduced insulin secretion [1,248 +/- 602 pM. min after 16 days and 1,566 +/- 190 pM. min after 60 days vs. 3,251 +/- 804 pM. min in normal animals (P < 0.001)] and beta-cell mass [5.5 +/- 1.4 mg/kg after 27 days and 7.9 +/- 4.1 mg/kg after 60 days vs. 17.7 +/- 4.7 mg/kg in normal animals (P = 0.009)]. The combination of NIA and STZ provided a model characterized by fasting and especially postprandial hyperglycemia and reduced, but maintained, insulin secretion and beta-cell mass. This model holds promise as an important tool for studying the pathophysiology of diabetes and development of new pharmacological agents for treatment of the disease.     

Global diabetes landscape—type 2 diabetes mellitus in South Asia: Epidemiology,risk factors,and control

Background: Type 2 diabetes mellitus (DM) is a new epidemic in South Asia and is the result of societal influences and changing lifestyles. Epidemiologic studies suggest that the prevalence of DM has increased exponentially in urban and rural populations.Objective: This study was conducted to determine trends in the prevalence of DM in various countries in South Asia.Methods: We performed an extensive, systematic MEDLINE search for primary articles that reported on the epidemiology of DM in South Asia. Additional articles were obtained from personal collections and references cited in the primary articles. No formal meta-analysis was performed because of differing methodologies and diagnostic criteria.Results: Epidemiologic studies conducted in India during the 1960s and 1970s, using random and postload blood glucose estimations, reported DM in 1% to 4% of urban populations and 1% to 2% of rural populations. More standardized epidemiologic studies in adults since the late 1980s reported DM in 5% to 15% of urban populations, 4% to 6% of semiurban populations, and 2% to 5% of rural populations. A significantly increasing trend has been observed in urban populations (exponential trend R² = 0.74), whereas the increase is slower (R² = 0.29) in rural populations. The diabetes scenario is similar in other South Asian countries. Current prevalence rates are 5% to 16% in urban areas and 2% to 8% in rural areas. Risk factors for DM in this region are increasing sedentariness, dietary excess, obesity (especially high waist-to-hip ratio), low birth weight, and genetic influences.Conclusions: DM is a major public health problem in South Asia. The prevalence is higher in urban areas than in rural areas and is increasing. Population-based measures to control the epidemic of DM include avoidance of adiposity through enhanced physical activity and regulated calorie intake. A comprehensive national chronic care program is needed.     

VACTERL association and maternal diabetes: A possible causal relationship?

BACKGROUND: Some factors(s)/features(s) of maternal insulin‐dependent diabetes mellitus are considered common human teratogens. Although the variable association of cardiac, renal, and skeletal anomalies are commonly observed in infants from diabetic mothers, the relationship between VACTERL (i.e., the association of vertebral and cardiac defects, tracheo‐esophageal fistula, renal/radial malformations, and other limb anomalies) and maternal diabetes has not been sufficiently emphasized in the literature. CASE: We report on a 3‐year‐old boy presenting with a constellation of blastogenetic malformations strongly suggestive of VACTERL association. His mother was affected by insulin‐dependent diabetes since she was 7 years old and pregnancy history disclosed very high glucose and HbA1c levels, especially during the first 2 gestational months. CONCLUSIONS: In an attempt to properly counsel the parents, we reviewed the literature and identified four additional patients with VACTERL and first trimester exposure to maternal diabetes mellitus. Although this evidence does not strongly support a causal relationship between these two conditions, additional arguments may substantiate this hypothesis. The pathogenesis of diabetic embryopathy in relation to the VACTERL phenotype is also discussed. Birth Defects Research (Part A), 2008. © 2008 Wiley‐Liss, Inc.     

Self-efficacy and diabetes: why is emotional 'education' important and how can it be achieved?

Adequate age-appropriate diabetes knowledge and skills are essential to the success of diabetes self- and parental care. Health professionals have a central role in providing diabetes education. A direct link between diabetes knowledge and diabetes regimen behaviour cannot be assumed. Health professionals have to help children and their parents to develop the emotional concept of 'self-efficacy for diabetes self-care', to ensure optimal diabetes control.