Platelet Redox Balance in Diabetic Patients with Hypertension improved by n-3 fatty acids

OBJECTIVE:<br/>Patients with type 2 diabetes mellitus (T2DM) are at increased risk of developing cardiovascular disease, largely as a result of defective production of cardioprotective nitric oxide and a concomitant rise in oxidative stress. Dietary interventions that could reverse this trend would be extremely beneficial. Here we investigated whether dietary n-3 polyunsaturated fatty acid (n-3 PUFA) supplementation positively affected platelet nitroso-redox imbalance.<br/>RESEARCH DESIGN AND METHODS:<br/>We randomized hypertensive T2DM patients (T2DM HT; n = 22) and age-and-sex matched hypertensive study participants without diabetes (HT alone; n = 23) in a double-blind, crossover fashion to receive 8 weeks of n-3 PUFAs (1.8 g eicosapentaenoic acid and 1.5 g docosahexaenoic acid) or identical olive oil capsules (placebo), with an intervening 8-week washout period. Platelet nitrite and superoxide were measured and compared before and after treatment; 8-isoprostane was determined by ELISA and subcellular compartmentalization of the NAD(P)H oxidase subunit p47-phox examined by Western blotting.<br/>RESULTS:<br/>The n-3 PUFA supplementation reduced 8-isoprostane and superoxide levels in platelets from T2DM HT, but not HT alone, participants, without effect on nitrite production. This coincided with a significant decrease in p47-phox membrane localization and a similar reduction in superoxide to that achieved with apocynin. At baseline, a subcohort of T2DM HT and HT alone participants showed evidence of nitric oxide synthase (NOS)-derived superoxide production, indicating defective enzymatic activity. This was reversed significantly in T2DM HT participants after treatment, demonstrating improved NOS function.<br/>CONCLUSIONS:<br/>Our finding that n-3 PUFAs diminish platelet superoxide production in T2DM HT patients in vivo suggests a therapeutic role for these agents in reducing the vascular-derived oxidative stress associated with diabetes.

Apoptosis and chemotherapy in bladder cancer in bladder cancer

Purpose: To discuss the role of apoptosis, gene directed self-destruction of a cell, in the response of transitional cell carcinoma of the bladder cells to chemotherapy. Methods: A directed MEDLINE literature search of apoptosis, bladder cancer and chemotherapy was performed to extract the relevant information, which was reviewed. The characteristics of apoptotic cells were defined and the methods in common use to detect these traits were described. The role of the key mediators of the apoptotic process in bladder cancer is discussed in the context of chemosensitivity and stage of disease. The importance of induction of apoptosis post chemotherapy is highlighted. Results: On stimulus by appropriate external or internal signals, a cell may alter the expression of genes coding for proteins associated with the apoptotic process. The development of apoptosis depends on the balance between pro- and anti- apoptotic proteins. Key alterations in genes and proteins related to apoptosis within bladder cancer result in a shift away from an ability to undergo apoptosis towards a cell with increased survival properties that is chemoresistant. Conclusions: Much current research in bladder cancer is aimed at restoring chemosensitivity by shifting the balance in a cell towards a pro-apoptotic phenotype. Successful translation of this work into clinical practice may improve survival in patients in whom prognosis is currently poor.

PTEN regulates colorectal epithelial apoptosis through Cdc42 signalling.

BACKGROUND:<br/>Phosphatase and tensin homologue deleted on chromosome 10 (PTEN) regulation of the Rho-like GTPase Cdc42 has a central role in epithelial polarised growth, but effects of this molecular network on apoptosis remain unclear.<br/><br/>METHODS:<br/>To investigate the role of Cdc42 in PTEN-dependent cell death, we used flow cytometry, in vitro pull-down assays, poly(ADP ribose) polymerase (PARP) cleavage and other immunoblots in isogenic PTEN-expressing and -deficient colorectal cells (HCT116PTEN(+/+), HCT116PTEN(-/-), Caco2 and Caco2 ShPTEN cells) after transfection or treatment strategies.<br/><br/>RESULTS:<br/>The PTEN knockout or suppression by short hairpin RNA or small interfering RNA (siRNA) inhibited Cdc42 activity, PARP cleavage and/or apoptosis in flow cytometry assays. Transfection of cells with wild-type or constitutively active Cdc42 enhanced PARP cleavage, whereas siRNA silencing of Cdc42 inhibited PARP cleavage and/or apoptosis. Pharmacological upregulation of PTEN by sodium butyrate (NaBt) treatment enhanced Cdc42 activity, PARP cleavage and apoptosis, whereas Cdc42 siRNA suppressed NaBt-induced PARP cleavage. Cdc42-dependent signals can suppress glycogen synthase kinase-ß (GSK3ß) activity. Pharmacological inhibition of GSK3ß by lithium chloride treatment mimicked effects of Cdc42 in promotion of PARP cleavage and/or apoptosis.<br/><br/>CONCLUSION:<br/>Phosphatase and tensin homologue deleted on chromosome 10 may influence apoptosis in colorectal epithelium through Cdc42 signalling, thus providing a regulatory framework for both polarised growth and programmed cell death.

Delayed lethality, apoptosis and micronucleus formation in human fibroblasts irradiated with X-rays or alpha-particles

Purpose: To determine the yields of cell lethality and micronucleus formation measured immediately after irradiation or at delayed times in primary human fibroblasts exposed to X-rays or alpha-particles.