Glomerular CD34 expression in short- and long-term diabetes.

Aging and diabetes are associated with exacerbated expression of adhesion molecules. Given their importance in endothelial dysfunction and their possible involvement in the alteration of glomerular permeability occurring in diabetes, we have evaluated expression of the sialomucin-type adhesion molecule CD34 in renal glomerular cells of normal and diabetic animals at two different ages by colloidal gold immunocytochemistry and immunoblotting. CD34 labeling was mostly assigned to the plasma membranes of glomerular endothelium and mesangial processes.

Early glycation products of endothelial plasma membrane proteins in experimental diabetes.

The participation of glucose and two intermediates of glucose metabolism: glucose-6-phosphate (G6P) and glyceraldehyde-3-phosphate (Gald3P) to the formation of early glycation products was comparatively evaluated in the endothelial plasma membrane of streptozotocin-induced diabetic rats. Antibodies risen to a carrier protein reductively glycated by each of the sugars mentioned above were used to probe by immunoblotting the proteins of the lung microvascular endothelium plasmalemma purified from normal and diabetic rats. The amount of glycated endothelial plasma membrane proteins was below the limit of detection in normoglycemic animals but increased dramatically in diabetic animals for glucose and G6P.

Correlated endothelial caveolin overexpression and increased transcytosis in experimental diabetes.

We investigated the mechanism by which diabetes renders the capillary endothelium more permeable to macromolecules in the lungs of short-term diabetic rats. We used quantitative immunocytochemistry (ICC) to comparatively assess the permeability of alveolar capillaries to serum albumin in diabetic and normoglycemic animals. The effect of diabetes on the population of endothelial caveolae was evaluated by morphometry and by ICC and immunochemical quantification of the amount of caveolin in the whole cell or associated with the purified endothelial plasma membrane.

Circulating bile salt-dependent lipase originates from the pancreas via intestinal transcytosis.

Background & Aims: Bile salt-dependent lipase (BSDL) has been detected in human blood, where it is assumed to play a substantial role in atherosclerosis. The origin of this circulating enzyme is unknown. The aim of this study was to show that blood BSDL originates from pancreatic exocrine secretions via a transcytotic motion across the intestinal epithelium.

Is diabetic hypercoagulability an acquired annexinopathy? Glycation of annexin II as a putative mechanism for impaired fibrinolysis in diabetic patients.

Diabetics die mainly from thrombotic complications and there is clear evidence that diabetes is a hypercoagulable state. Epidemiological and prospective intervention data link hyperglycemia to vascular complications and glycation of proteins is one favored molecular basis to explain this fact. Cell surface receptors may support fibrinolytic surveillance in both intravascular and extravascular locations by stimulating plasmin generation and by protecting plasmin from its inhibitors.