Lipid peroxidation and activity of antioxidant enzymes in diabetic rats

We hypothesized that oxygen free radicals (OFRs) may be involved in pathogenesis of diabetic complications. We therefore investigated the levels of lipid peroxidation by measuring thiobarbituric acid reactive substances (TBARS) and activity of antioxidant enzymes [superoxide dismutase (SOD), glutathione peroxidase (GSH-Px) and catalase (CAT)] in tissues and blood of streptozotocin (STZ)-induced diabetic rats. The animals were divided into two groups: control and diabetic. After 10 weeks (wks) of diabetes the animals were sacrificed and liver, heart, pancreas, kidney and blood were collected for measurement of various biochemical parameters. Diabetes was associated with a significant increase in TBARS in pancreas, heart and blood. The activity of CAT increased in liver, heart and blood but decreased in kidney. GSH-Px activity increased in pancreas and kidney while SOD activity increased in liver, heart and pancreas. Our findings suggest that oxidative stress occurs in diabetic state and that oxidative damage to tissues may be a contributory factor in complications associated with diabetes.     

Metabolism, not autoxidation, plays a role in α-oxoaldehyde- and reducing sugar-induced erythrocyte GSH depletion: Relevance for diabetes mellitus

Erythrocyte and lens reduced glutathione (GSH) levels are often lower in patients with diabetes whereas erythrocyte dicarbonyl levels are often higher. We hypothesise that high plasma carbohydrates may be metabolised by glycolytic and pentose phosphate pathways to form -oxoaldehydes, which deplete cellular GSH. Our aims were: (1) to compare the effectiveness of various carbohydrates or metabolites at depleting erythrocyte GSH, (2) to determine if GSH loss is related to the autoxidation or metabolism of carbohydrates. It was found that erythrocyte GSH was depleted by 50% (ED-50) at t = 2.5 h when erythrocytes were incubated with the following: methylglyoxal (MG) 23 M, glyoxal 75 M, DL-glyceraldehyde 299 M, deoxyribose 606 M, xylitol 626 M, and ribose 2 mM. The glycolytic inhibitors, sodium arsenate and KF prevented ribose, deoxyribose, xylitol and MG-induced GSH depletion in erythrocytes over 2 h. However, the antioxidant trolox and the ferric chelator detapac did not affect MG-induced GSH depletion. These data suggest that the carbohydrates or glyceraldehyde were metabolised to form carbonyls such as MG which depleted erythrocyte GSH as a result of catalysis by glyoxalase I. None of the carbohydrates were autoxidised to carbonyls over this time period. We speculate that as a result of GSH depletion, subsequent glycoxidative stress affects erythrocyte function and contributes to diabetic complications.     

Coagulation proteases and human cancer

Tumours are capable of activating blood coagulation through the expression of procoagulant molecules such as tissue factor, cancer procoagulant and hepsin. Initiation of the clotting cascade results in the generation of the activated serine proteases factor VIIa, factor Xa and thrombin. These proteases act via protease-activated receptors and tissue factor to alter gene expression, thereby modulating tumour cell growth, invasion, metastasis and angiogenesis.     

Calmodulin-dependent cyclic nucleotide phosphodiesterase in an experimental rat model of cardiac ischemia-reperfusion

In the present study, we investigated the activity and expression of calmodulin-dependent cyclic nucleotide phosphodiesterase (CaMPDE) and the effects of calpains in rat heart after ischemia and reperfusion. Immunohistochemical studies indicated that CaMPDE in normal heart is localized in myocardial cells. Rat ischemic heart showed a decrease in CaMPDE activity in the presence of Ca2+ and calmodulin; however, in ischemic-reperfusion tissue a progressive increase in Ca2+ and calmodulin-independent cyclic nucleotide phosphodiesterase (CaM-independent PDE) activity was observed. Perfusion of hearts with cell-permeable calpain inhibitor suppressed the increase of Ca2+ and CaM-independent PDE activity. Protein expression of CaMPDE was uneffected by hypoxic injury to rat myocardium. The purified heart CaMPDE was proteolyzed by calpains into a 45 kDa immunoreactive fragment in vitro. Based on these results, we propose that hypoxic injury to rat myocardium results in the generation of CaM-independent PDE by calpain mediated proteolysis, allowing the maintenance of cAMP concentrations within the physiological range.     

A novel homozygous missense mutation in the protein C (PROC) gene causing recurrent venous thrombosis

Summary A novel homozygous CCCCTC (Pro 247 Leu) substitution was detected in the protein C genes of a patient, born to consanguineous parents, with inherited type 1 protein C deficiency and recurrent venous thrombosis. Since one of four heterozygous relatives was also clinically affected, the condition appears to be inherited as an incompletely recessive trait in this family.     

A novel missense mutation in the antithrombin III gene (Ser349→Pro) causing recurrent venous thrombosis

Summary A novel TCCCCC transition in the antithrombin III (ATIII) gene resulting in a Ser349Pro substitution was detected in three members of a family with recurrent venous thrombosis and ATIII activity/antigen levels consistent with type 11 ATIII defciency.     

Dye-affinity techniques for bioprocessing: Recent developments

Textile or triazine dyes play an important role as affinity ligands in protein purification. Each step of the protein purification protocol can be divided into three stages, partitioning between two phases, separation of these phases and recovery of the target protein from the enriched phase. Now developments in dye-affinity techniques are discussed emphasizing the innovations in all three stages of the protein purification process. Dye-affinity chromatography has become a routine step in protein purification. New dyes have been developed and used successfully in both traditional chromatographic mode and new modes like affinity precipitation, polymer aqueous two-phase partitioning or expanded bed chromatography. The specificity of dye techniques has been increased by both purposeful designing of new dyes and decreasing non-specific protein–dye interactions with polymer shielding. One can envisage further development and ramification of dye-affinity techniuqes in protein purification.     

Design of inhibitors using a combinatorial library for HIV-Nef and human SH3 domain interaction

The HIV-1 Nef protein has the ability to down regulate important molecules at the immune synapse. These include class I and class II (Human Leukocyte Antigen) HLA on the Antigen Presenting Cells (APC). The receptors in these molecules consist of SH-3 domain and their interaction with the HIV-1 Nef is critical. Therefore, it is important to inhibit this HIV-Nef and human SH3 domain interaction. Thus, we used a combinatorial library to screen for molecules to inhibit this interaction. The exercise identified a group of top ranking compounds for further consideration.