Platelet biomarkers identifying mild cognitive impairment in type 2 diabetes patients

Type 2 diabetes mellitus (T2DM) is an independent risk factor of Alzheimer''s disease (AD). Therefore, identifying periphery biomarkers correlated with mild cognitive impairment (MCI) is of importance for early diagnosis of AD. Here, we performed platelet proteomics in T2DM patients with MCI (T2DM‐MCI) and without MCI (T2DM‐nMCI). Pearson analysis of the omics data with MMSE (mini‐mental state examination), Aβ1‐42/Aβ1‐40 (β‐amyloid), and rGSK‐3β(T/S9) (total to Serine‐9‐phosphorylated glycogen synthase kinase‐3β) revealed that mitophagy/autophagy‐, insulin signaling‐, and glycolysis/gluconeogenesis pathways‐related proteins were most significantly involved. Among them, only the increase of optineurin, an autophagy‐related protein, was simultaneously correlated with the reduced MMSE score, and the increased Aβ1‐42/Aβ1‐40 and rGSK‐3β(T/S9), and the optineurin alone could discriminate T2DM‐MCI from T2DM‐nMCI. Combination of the elevated platelet optineurin and rGSK‐3β(T/S9) enhanced the MCI‐discriminating efficiency with AUC of 0.927, specificity of 86.7%, sensitivity of 85.3%, and accuracy of 0.859, which is promising for predicting cognitive decline in T2DM patients.     

Platelet synthesis of cyclooxygenase and lipoxygenase products in type I and type II diabetes

In 24 type I and 22 type II diabetic patients without vascular complications and in 25 controls platelet thromboxane A2 (TxA2) and prostaglandin E2 (PGE2) production (by radioimmunoassay-RIA) and 1-14C arachidonic acid (AA) metabolism (by high pressure liquid chromatography-HPLC) after thrombin stimulation were studied. Platelets both from type I and type II diabetics generated larger amounts of TxB2 (p less than 0.001) and PGE2 (p less than 0.005) than controls, independently of the presence of retinopathy. No significant differences in platelet AA uptake or metabolism via the cyclooxygenase (CO) route, after thrombin stimulation (5 NIH U/ml), were observed in diabetic patients: lipoxygenase metabolites were found to be slightly, but significantly decreased. A positive linear relationship (r = 0.64, p less than 0.001) was found between HbA-1c and TxB2 production, but not with fasting plasma glucose. These results indicate that metabolic alterations can affect platelet function independently of vascular complications. The absence of alterations in intraplatelet 1-14C AA metabolism via CO, in the presence of increased TxB2 and PGE2 production from endogenous AA, suggests that the activation of CO is not the only possible mechanism of platelet activation and that probably an increased availability of platelet AA plays an important role in the enhanced platelet aggregation commonly found in diabetics.     

Antithrombin III activity in long-developing hypercoagulation in animals

Old rats aged 12-18 months and rats kept on an atherogenic diet for 3.5 months demonstrate high blood antithrombin III content at the initial period of the development of anticoagulation function suppression and of hypercoagulation. During long-developing hypercoagulation, the high content of antithrombin III might be regarded as compensatory reaction interfering with formation in the blood of thrombin microamounts. With hypercoagulation becoming more pronounced and with a further increase of blood thrombin concentration the content of antithrombin III progressively descends, which is accompanied by steady development of anticoagulation function suppression.     

Phagocytic activity is impaired in type 2 diabetes mellitus and increases after metabolic improvement

Objective

1) To evaluate whether peripheral blood mononuclear cells (PBMCs) from type 2 diabetic patients present an impairment of phagocytic activity; 2) To determine whether the eventual impairment in phagocytic activity is related to glycemic control and can be reversed by improving blood glucose levels.

Methods

21 type 2 diabetic patients and 21 healthy volunteers were prospectively recruited for a case-control study. In addition, those patients in whom HbA1c was higher than 8% (n = 12) were hospitalized in order to complete a 5-day intensification treatment of blood glucose. Phagocytic activity was assessed by using a modified flow cytometry procedure developed in our laboratory based on DNA/RNA viable staining to discriminate erythrocytes and debris. This method is simple, highly sensitive and reproducible and it takes advantage of classic methods that are widely used in flow cytometry.

Results

Type 2 diabetic patients showed a lower percentage of activated macrophages in comparison with non-diabetic subjects (54.00±18.93 vs 68.53±12.77%; p = 0.006) Significant negative correlations between phagocytic activity and fasting glucose (r = −0.619, p = 0.004) and HbA1c (r = −0.506, p = 0.019) were detected. In addition, multiple linear regression analyses showed that either fasting plasma glucose or HbA1c were independently associated with phagocytic activity. Furthermore, in the subset of patients who underwent metabolic optimization a significant increase in phagocytic activity was observed (p = 0.029).

Conclusions

Glycemic control is related to phagocytic activity in type 2 diabetes. Our results suggest that improvement in phagocytic activity can be added to the beneficial effects of metabolic optimization.     

Platelet spreading in diabetes mellitus

In 162 test persons divided into healthy control persons and diabetics of type I and type II the thrombocyte spreading was investigated according to the method of Breddin. Age, sex, degree of seriousness of retinopathy, duration of diseases, present level of blood sugar and HbA1 concentration were taken into account. Spread thrombocyte forms were increasingly found in old age, in diabetics of both types and a close relation to the extent of retinopathy was evident. As diabetic retinopathy became evident and with growing degree of seriousness, spread forms of thrombocytes were increasingly found, so that the increased spreading capacity may be interpreted as a disturbed metabolic and blood vessel situation in diabetes mellitus.     

Platelet hyperactivity and abnormal Ca(2+) homeostasis in diabetes mellitus

We sought to determine the mechanisms for hyperactivity and abnormal platelet Ca(2+) homeostasis in diabetes. The glycosylated Hb (HbA(1c)) level was used as an index of glycemic control. Human platelets were loaded with Ca- green-fura red, and cytosolic Ca(2+) ([Ca(2+)](i)) and aggregation were simultaneously measured. In the first series of experiments, the platelets from diabetic and normal subjects were compared for the ability to release Ca(2+) or to promote Ca(2+) influx. A potent and relatively specific inhibitor of Na(+)/Ca(2+) exchange, 5-(4-chlorobenzyl)-2',4'-dimethylbenzamil (CB-DMB), increased the second phase of thrombin-induced Ca(2+) response, suggesting that the Na(+)/Ca(2+) exchanger works in the forward mode to mediate Ca(2+) efflux. In contrast, in the platelets from diabetics, CB-DMB decreased the Ca(2+) response, indicating that the Na(+)/Ca(2+) exchanger works in the reverse mode to mediate Ca(2+) influx. In the second series of experiments we evaluated the direct effect of hyperglycemia on platelets in vitro. We found that thrombin- and collagen-induced increases in [Ca(2+)](i) and aggregation were not acutely affected by high glucose concentrations of 45 mM. However, when the platelet-rich plasma was incubated with a high glucose concentration at 37 degrees C for 24 h, the second phase after thrombin activation was inhibited by CB-DMB. In addition, collagen-stimulated [Ca(2+)](i) response and aggregation were also increased. Thus in diabetes the direction and activity of the Na(+)/Ca(2+) exchanger is changed, which may be one of the mechanisms for the increased platelet [Ca(2+)](i) and hyperactivity. Prolonged hyperglycemia in vitro can induce similar changes, suggesting hyperglycemia per se may be the factor responsible for the platelet hyperactivity in diabetes.     

Platelet phosphoinositide turnover in streptozotocin-induced diabetes

Increased platelet aggregation and secretion in response to various agonists has been described in both diabetic humans and animals. Alterations in the platelet membrane fatty acid composition of phospholipids and changes in the prostacyclin and thromboxane formation could only partly explain the altered platelet function in diabetes. In the present study, we have examined the role of phosphoinositide turnover in the diabetic platelet function. We report alterations in 2-[³H] myo-inositol uptake, phosphoinositide turnover, inositol phosphate and diacylglycerol (DAG) formation, phosphoinositide mass, and phospholipase C activity in platelets obtained from streptozotocin (STZ)-induced diabetic rats. There was a significant increase in the 2-[³H) myo-inositol uptake in washed platelets from diabetic rats. Basal incorporation of 2-[³H] myo-inositol into phosphatidylinositol 4,5-bisphosphate (PIP₂), phosphatidylinositol 4-phosphate (PIP) or phosphatidylinositol (PI) in platelets obtained from diabetic rats was, however, not affected. Thrombin stimulation of platelets from diabetic rats induced an increase in the hydrolysis of [³²P]PIP₂ but indicated no change in the hydrolysis of [³²P]PIP and [³²P]PI as compared to their basal levels. Thrombin-induced formation of [³H]inositol phosphates was significantly increased in both diabetic as well as in control platelets as compared to their basal levels. This formation of [³H]inositol phosphates in diabetic platelets was greater than controls at all time intervals studied. Similarly, there was an increase in the release of DAG after thrombin stimulation in the diabetic platelets. Based on these results, we conclude that there is an increase in the transport of myoinositol across the diabetic platelet membrane and this feature, along with alterations in the hydrolysis of PIP₂, inositol phosphates and DAG in the diabetic platelets, may play a role in increased phosphoinositide turnover which could explain the altered platelet function in STZ-induced diabetes.     

Prevention of type 2 diabetes

Changes in the human environment and in human behavior and lifestyle, in conjunction with genetic susceptibility, have resulted in a dramatic increase in the incidence and prevalence of diabetes in the world. The rapid escalation of the number of people with type 2 diabetes (T2DM) and diabetes-related cardiovascular disease demands urgent action on prevention. The Finnish Diabetes Prevention Study and The Diabetes Prevention Program showed that the prevention (or delaying) of T2DM is feasible and effective. Both of these trials led to a reduction of 58% in the conversion to diabetes in subjects with impaired glucose tolerance. Compared to lifestyle changes, drug treatment in the prevention of diabetes in people at high risk for T2DM has been less beneficial. Metformin (31%) or acarbose (25%) treatment obtained only about a half of the reduction in the conversion to diabetes compared to lifestyle changes. These drugs require monitoring, and have significant side-effects. Also the effect of orlistat (37%) did not reach the effect of lifestyle modification. Results of the Troglitazone in Prevention of Diabetes study are suggestive for the prevention, but the trial was too small, and included only one ethnic group (Hispanic) and one gender (women). On the basis of the evidence available, we do not have a definite proof that T2DM is prevented in any of these trials. However, we can safely conclude that the current evidence strongly favors the notion that lifestyle changes are the primary means to tackle the epidemic of T2DM.     

Genetics of type 2 diabetes

Identification and characterization of genetic variants that either cause or predispose to diabetes are a major focus of biomedical research. As of early 2007, the molecular basis of most forms of monogenic diabetes resulting from beta-cell dysfunction is known and, in particular, there has been recent success in delineating the genetic aetiology of neonatal diabetes. Finding genes predisposing to more common, multifactorial forms of type 2 diabetes represents a far greater challenge, and only a handful of robust, well-replicated examples have been established. Nevertheless, 2006 heralded identification of the most important type 2 diabetes susceptibility gene known so far, TCF7L2, and in 2007 large-scale genome-wide association studies are destined to provide novel insights into the genetic architecture and biology of type 2 diabetes.     

Distinguishing type 2 diabetes from type 1 diabetes in African American and Hispanic American pediatric patients

Objective

To test the hypothesis that clinical observations made at patient presentation can distinguish type 2 diabetes (T2D) from type 1 diabetes (T1D) in pediatric patients aged 2 to 18.

Subjects and Methods

Medical records of 227 African American and 112 Hispanic American pediatric patients diagnosed as T1D or T2D were examined to compare parameters in the two diseases. Age at presentation, BMI z-score, and gender were the variables used in logistic regression analysis to create models for T2D prediction.

Results

The regression-based model created from African American data had a sensitivity of 92% and a specificity of 89%; testing of a replication cohort showed 91% sensitivity and 93% specificity. A model based on the Hispanic American data showed 92% sensitivity and 90% specificity. Similarities between African American and Hispanic American patients include: (1) age at onset for both T1D and T2D decreased from the 1980s to the 2000s; (2) risk of T2D increased markedly with obesity. Racial/ethnic-specific observations included: (1) in African American patients, the proportion of females was significantly higher than that of males for T2D compared to T1D (p<0.0001); (2) in Hispanic Americans, the level of glycated hemoglobin (HbA1c) was significantly higher in T1D than in T2D (p<0.002) at presentation; (3) the strongest contributor to T2D risk was female gender in African Americans, while the strongest contributor to T2D risk was BMI z-score in Hispanic Americans.

Conclusions

Distinction of T2D from T1D at patient presentation was possible with good sensitivity and specificity using only three easily-assessed variables: age, gender, and BMI z-score. In African American pediatric diabetes patients, gender was the strongest predictor of T2D, while in Hispanic patients, BMI z-score was the strongest predictor. This suggests that race/ethnic specific models may be useful to optimize distinction of T1D from T2D at presentation.     

Genome-wide association studies and type 2 diabetes

In recent years, the search for genetic determinants of type 2 diabetes (T2D) has changed dramatically. Although linkage and small-scale candidate gene studies were highly successful in the identification of genes, which, when mutated, caused monogenic forms of T2D, they were largely unsuccessful when applied to the more common forms of the disease. To date, these approaches have only identified two loci (PPARG, KCNJ11) robustly implicated in T2D susceptibility. The ability to perform large-scale association analysis, including genome-wide association studies (GWAS) in many thousands of samples from different populations, and subsequently, the shift to form large international collaborations to perform meta-analyses across many studies has taken the number of independent loci showing genome-wide significant associations with T2D to 44. This number includes six loci identified initially through the analysis of quantitative glycaemic phenotypes, illustrating the usefulness of this approach both to identify new disease genes and gain insight into the mechanisms leading to disease. Combined, these loci still only account for ～10% of the observed familial clustering in Europeans, leaving much of the variance unexplained. In this review, we will describe what GWAS have taught us about the genetic basis of T2D and discuss possible next steps to uncover the remaining heritability.     

Increased circulating RANTES in type 2 diabetes

Aim

The pro-atherogenic role of RANTES, a chemokine expressing pleiotropic activities, in the course of type 2 diabetes-related atherosclerosis has been well documented. However, it is not known which of the diabetes-related factors primarily influence serum RANTES levels in patients with type 2 diabetes. Our aim was to investigate relationships between several factors known to be related to an increased risk of atherosclerosis and serum RANTES levels in type 2 diabetic patients.

Methods

A total of 168 subjects were examined, which included 138 patients with type 2 diabetes and 30 non-diabetic controls. Measurements of venous, fasting, plasma glucose, HbA₁c, lipid profile, 1,5-anhydro-D-glucitol (1,5-AG) plasma levels, homocysteine and the fasting, serum C-peptide levels were performed. Serum concentrations of RANTES were assayed using BD? Cytometric Bead Array tests. Peripheral insulin resistance was expressed according to a new index defined by Ohkura et al.

Results

RANTES levels in type 2 diabetic patients correlated with 1,5-AG, fasting glycaemia, HbA₁c and the Ohkura index. Multivariate regression analysis was performed taking into consideration several factors related to the inflammatory process and atherosclerosis, namely the patient’s age, diabetes duration, waist circumference, 1,5-AG, HbA₁c, lipid profile parameters, serum homocysteine levels and Ohkura index, as independent variables potentially influencing serum RANTES levels in type 2 diabetic patients. It is shown that RANTES concentrations in the serum is primarily dependent upon 1,5-AG plasma levels.

Conclusion

Our results suggest that increased serum levels of RANTES in type 2 diabetic patients are closely related to postprandial (acute) hyperglycaemia.

     

Mitochondrial pathophysiology and type 2 diabetes mellitus

Over the last decades, substantial progress has been made in defining the molecular events and relevant tissues controlling insulin action and the potential defects that lead to insulin resistance and later on Type 2 diabetes mellitus (T2DM). Mitochondrial dysfunction has been postulated as a common mechanism implicated in the development of insulin resistance and T2DM aetiology. Since then there has been growing interest in this area of research and many studies have addressed whether mitochondrial function/dysfunction is implicated in the progression of T2DM or if it is just a consequence. Mitochondria are adjusted to the specific needs of the tissue and to the environmental interactions or pathophysiological state that it encounters. This review offers a current state of the subject in a tissue specific approach. We will focus our attention on skeletal muscle, liver, and white adipose tissue as the main insulin sensitive organs. Hypothalamic mitochondrial function will be also discussed.     

慢性烟酰胺超载与2型糖尿病流行的关系

2型糖尿病是全球性日益严重的公共卫生问题。目前人们普遍接受的观点是2型糖尿病是基因与环境相互作用的结果,但二者如何作用尚不清楚。众所周知,饮食因素在糖尿病发病中起关键作用,而全球性糖尿病快速流行发生于尼亚新(烟酸或烟酰胺)强化食物之后,因此不能排除长期尼亚新摄入过量与糖尿病流行有关。我们最近的研究显示烟酰胺超载及解毒减慢均可引起氧化应激和胰岛素抵抗。本文结合相关文献资料,就尼亚新代谢、糖尿病人烟酰胺代谢特点、皮肤在烟酰胺代谢中的作用、药物对烟酰胺代谢的影响、以及饮食习惯和食品强化等因素与糖尿病流行的可能关系做一概述。我们认为,糖尿病时基因与环境相互作用的本质可能是长期烟酰胺超载所致的慢性中毒与机体相对较低的解毒/排泄能力的综合反映,因此,减少尼亚新摄入可能是遏制糖尿病流行的关键措施。