N-acetylcysteine dual and antagonistic effect on cadmium cytotoxicity in human leukemia cells.

Although cadmium (Cd2+) is unable to form reactive oxygen species (ROS) directly, many of its adverse effects are connected to increased ROS generation resulting in cell death. In support of this supposition, a large number of studies have shown protective effects of antioxidants such as N-acetylcysteine (NAC) against cadmium induced cytotoxicity. Here, we describe the cytotoxic effects of Cd2+ on human leukemia U937 and K562 cells that were not mediated by oxidative stress. Surprisingly, we observed that addition of low concentrations of NAC can drastically potentiate cadmium cytotoxicity solely via ROS production. However, all adverse effects of the metal were prevented by NAC at high concentrations. Detailed analysis indicated that the protective effect of NAC was mediated by its ability to form stable complex with cadmium [Cd(NAC)2]. In conclusion, NAC exhibits dual and antagonistic effects on Cd2+ cytotoxicity in human leukemia cells.

Transient knock-down of kcna2 reduces sleep in larval zebrafish.

In the current study we set out to determine the effects of morpholino oligonucleotide (MO) knock-down of kcna2 on sleep-wake cycles in zebrafish. The results were compared to a non-overlapping MO injection, Dec2, who's mutant is also linked with a short sleep phenotype. Four groups of fish were used in the experiment: naïve fish, and fish injected with either control, kcna2, or Dec2 MO. All groups underwent 24-h behavioral monitoring of sleep-wake cycles at four and seven days-post-fertilization (dpf). First, we established an immobility dependent, sleep related, increase in arousal thresholds at both 4 and 7 dpf. Secondly, we show that kcna2 MO injected fish exhibit significantly less sleep behavior than controls and naïve fish, whereas Dec2 MO injections had similar but less severe effects. Finally, using kcna2 MO injected fish only, we turn to local field recordings at the level of the telencephalon and tectum opticum and rule out that the knock-down resulted in a non-specific increase in neural excitability that would mask sleep behavior.

Mechanical properties of hyaline and repair cartilage studied by nanoindentation.

Articular cartilage is a highly organized tissue that is well adapted to the functional demands in joints but difficult to replicate via tissue engineering or regeneration. Its viscoelastic properties allow cartilage to adapt to both slow and rapid mechanical loading. Several cartilage repair strategies that aim to restore tissue and protect it from further degeneration have been introduced. The key to their success is the quality of the newly formed tissue. In this study, periosteal cells loaded on a scaffold were used to repair large partial-thickness cartilage defects in the knee joint of miniature pigs. The repair cartilage was analyzed 26 weeks after surgery and compared both morphologically and mechanically with healthy hyaline cartilage. Contact stiffness, reduced modulus and hardness as key mechanical properties were examined in vitro by nanoindentation in phosphate-buffered saline at room temperature. In addition, the influence of tissue fixation with paraformaldehyde on the biomechanical properties was investigated. Although the repair process resulted in the formation of a stable fibrocartilaginous tissue, its contact stiffness was lower than that of hyaline cartilage by a factor of 10. Fixation with paraformaldehyde significantly increased the stiffness of cartilaginous tissue by one order of magnitude, and therefore, should not be used when studying biomechanical properties of cartilage. Our study suggests a sensitive method for measuring the contact stiffness of articular cartilage and demonstrates the importance of mechanical analysis for proper evaluation of the success of cartilage repair strategies.

The synaptic vesicle protein, cysteine-string protein, is associated with the plasma membrane in 3T3-L1 adipocytes and interacts with syntaxin 4.

Adipocytes and muscle cells play a major role in blood glucose homeostasis. This is dependent upon the expression of Glut4, an insulin-responsive facilitative glucose transporter. Glut4 is localised to specialised intracellular vesicles that fuse with the plasma membrane in response to insulin stimulation. The insulin-induced translocation of Glut4 to the cell surface is essential for the maintenance of optimal blood glucose levels, and defects in this system are associated with insulin resistance and type II diabetes. Therefore, a major focus of recent research has been to identify and characterise proteins that regulate Glut4 translocation. Cysteine-string protein (Csp) is a secretory vesicle protein that functions in presynaptic neurotransmission and also in regulated exocytosis from non-neuronal cells. We show that Csp1 is expressed in 3T3-L1 adipocytes and that cellular levels of this protein are increased following cell differentiation. Combined fractionation and immunofluorescence analyses reveal that Csp1 is not a component of intracellular Glut4-storage vesicles (GSVs), but is associated with the adipocyte plasma membrane. This association is stable, and not affected by either insulin stimulation or chemical depalmitoylation of Csp1. We also demonstrate that Csp1 interacts with the t-SNARE syntaxin 4. As syntaxin 4 is an important mediator of insulin-stimulated GSV fusion with the plasma membrane, this suggests that Csp1 may play a regulatory role in this process. Syntaxin 4 interacts specifically with Csp1, but not with Csp2. In contrast, syntaxin 1A binds to both Csp isoforms, and actually exhibits a higher affinity for the Csp2 protein. The results described raise a number of interesting questions concerning the intracellular targeting of Csp in different cell types, and suggest that the composition and synthesis of GSVs may be different from synaptic and other secretory vesicles. In addition, the interaction of Csp1 with syntaxin 4 suggests that this Csp isoform may play a role in insulin-stimulated fusion of GSVs with the plasma membrane.

Long-term insulin treatment of 3T3-L1 adipocytes results in mis-targeting of GLUT4: implications for insulin-stimulated glucose transport.

AIMS/HYPOTHESIS: Insulin stimulates glucose transport in adipose and muscle tissue by the translocation of a specialised pool of intracellular GLUT4-containing vesicles to the cell surface. It is well established that defective insulin-stimulated GLUT4 translocation is associated with insulin resistance. Long-term insulin treatment (500 nmol/l for 24 h) of 3T3-L1 adipocytes has previously been shown to decrease cellular GLUT4 content and reduce insulin-stimulated GLUT4 translocation. Here, we test the hypothesis that the insulin resistance observed after long-term insulin treatment arises by the selective loss of GLUT4 from a specific intracellular compartment. METHODS: Using iodixanol gradient centrifugation we have separated intracellular GLUT4 containing membranes into two distinct populations corresponding to recycling endosomes and a distinct intracellular compartment which probably represents GLUT4 storage vesicles (GSVs). RESULTS: A short-term insulin stimulation reduced the content of GLUT4 in the GSV fraction (51 +/- 3.5%) with only a modest decrease from the endosomal fraction (23 +/- 2.6%). Long-term insulin treatment decreased cellular GLUT4 content by about 40% and diminished the ability of a short-term insulin challenge to promote GLUT4 translocation. We further show that this depletion of cellular GLUT4 is selectively from the GSV fraction (68 +/- 7% decrease compared to untreated cells). CONCLUSIONS/INTERPRETATION: Such data argue that long-term insulin treatment results in the mis-targeting of GLUT4 such that it no longer accesses the GSV compartment. These data imply that defective targeting of GLUT4 away from the GSV compartment plays an important role in the aetiology of insulin resistance.

v- and t-SNARE protein expression in models of insulin resistance: normalization of glycemia by rosiglitazone treatment corrects overexpression of cellubrevin, vesicle-associated membrane protein-2, and syntaxin 4 in skeletal muscle of Zucker diabetic fatty rats.

Insulin stimulation of adipose and muscle cells results in the translocation of GLUT4 from an intracellular location to the plasma membrane; this translocation is defective in insulin resistance. Studies have suggested an important role for synaptobrevin and syntaxin homologues in this event, particularly the v-soluble N-ethylmaleimide attachment protein receptors (SNAREs) cellubrevin and vesicle-associated membrane protein-2 (VAMP-2) and the t-SNARE syntaxin 4, but the expression of these proteins has not been studied in insulin-resistant tissues. Therefore, we examined SNARE protein content in skeletal muscle from Zucker diabetic fatty (ZDF) rats compared with lean controls and determined the effect of the thiazolidinedione insulin sensitizer rosiglitazone on these proteins. GLUT4 levels in skeletal muscle from ZDF rats were similar to those in lean control animals. In contrast, cellubrevin, VAMP-2, and syntaxin 4 protein levels were elevated (2.8-fold, P = 0.02; 3.7-fold, P = 0.01; and 2.2-fold, P < 0.05, respectively) in skeletal muscle from ZDF rats compared with lean controls. Restoration of normoglycemia and normoinsulinemia in ZDF rats with rosiglitazone (30 micromol/kg) normalized cellubrevin, VAMP-2, and syntaxin 4 protein to levels approaching those observed in lean control animals. These data show that elevated v- and t-SNARE protein levels are associated with insulin resistance in skeletal muscle and that these increases may be reversed by rosiglitazone treatment concomitant with a restoration of glycemic control. Such increases in SNARE protein levels were not observed in streptozotocin-induced diabetic rats, which suggests that hyperinsulinemia rather than hyperglycemia may be more important in modulating SNARE protein expression in rodent models of insulin resistance. Consistent with this hypothesis, elevated levels of SNARE proteins were also observed in 3T3-L1 adipocytes chronically treated with insulin (500 nmol/l for 24 h). These data argue that SNARE protein levels may be altered in insulin-resistant states and that the levels of these proteins are modulated by agents that increase insulin sensitivity. Moreover, these data demonstrate for the first time altered expression of proteins known to regulate GLUT4 translocation in a model of diabetes.

Quantification of SNARE protein levels in 3T3-L1 adipocytes: implications for insulin-stimulated glucose transport.

Insulin-stimulates glucose transport in peripheral tissues by stimulating the movement ('translocation') of a pool of intracellular vesicles containing the glucose transporter Glut4 to the cell surface. The fusion of these vesicles with the plasma membrane results in a large increase in the numbers of Glut4 molecules at the cell surface and a concomitant enhancement of glucose uptake. It is well established that proteins of the VAMP- (synaptobrevin) and syntaxin-families play a fundamental role in the insulin-stimulated fusion of Glut4-containing vesicles with the plasma membrane. Studies have identified key roles for vesicle associated membrane protein-2 (VAMP2) and syntaxin-4 in this event, and more recently have also implicated SNAP-23 and Munc18c in this process. In this study, we have quantified the absolute levels of expression of these proteins in murine 3T3-L1 adipocytes, with the objective of determining the stoichiometry of these proteins both relative to each other and also in comparison with previous estimates of Glut4 levels within these cells. To achieve this, we performed quantitative immunoblot analysis of these proteins in 3T3-L1 membranes compared to known amounts of purified recombinant proteins. Such analyses suggest that in 3T3-L1 adipocytes there are approximately 374,000 copies of syntaxin 4, 1.15 x 10(6) copies of SNAP23, 495,000 copies of VAMP2, 4.3 x 10(6) copies of cellubrevin and 452,000 copies of Munc18c per cell, compared to previous estimates of 280,000 copies of Glut4. Thus, the main SNARE proteins involved in insulin-stimulated Glut4 exocytosis (syntaxin 4 and VAMP2) are expressed in approximately equimolar amounts in adipocytes, whereas by contrast the endosomal v-SNARE cellubrevin is present at approximately 10-fold higher levels and the t-SNARE SNAP-23 is also present in an approximately 3-fold molar excess. The implications of this quantification for the mechanism of insulin-stimulated Glut4 translocation are discussed.

Cesium-137 source strength verification.

Over the years, the protocol for Cesium-137 source calibration has undergone a number of revisions based on updated data. The 3M Corporation issued product alerts and a revision of the calibration protocol in the early 1980s. We verified the activity of clinically used cesium tubes and found the difference with the activity stated by 3M in the range of 6-13%, which exceeds the recommended by 3M adjustment of 5% for all sources issued before 1979. Therefore, the verification and adjustment of activity should be recommended for each affected tube individually.

Angiotensinogen M235T polymorphism is associated with plasma angiotensinogen and cardiovascular disease.

BACKGROUND: Genes encoding components of the renin-angiotensin system have been associated with elevated blood pressure (BP) and an increased risk of coronary artery disease. To explore the role of the angiotensinogen (AGT) gene in coronary atherosclerosis and thrombosis, we studied the effect of the AGT M235T gene variant on plasma AGT levels and BP in patients with coronary artery disease and in the subgroup of survivors of myocardial infarction as compared with angiographically defined control subjects. METHODS AND RESULTS: This was a case-control study of 301 white male subjects examined at Frankfurt University medical center. Plasma AGT levels increased stepwise according to the number of T235 alleles present (no T235 allele, 14.8 +/- 3.9 nmol/L; 1 allele, 15.7 +/- 5.1 nmol/L; 2 alleles, 17.3 +/- 4.7 nmol/L; P =.006). In a multivariate model, circulating AGT emerged as the most important predictor of diastolic pressure (P =.001). In addition, AGT M235T gene polymorphism remained a significant predictor of diastolic BP in a multivariate model adjusted for age, body mass index, fasting glucose, apolipoprotein B, presence of coronary artery disease, and treatment with antihypertensive agents ( P <.05). Finally, homozygosity for T235 was associated with increased univariate risk of coronary artery disease and myocardial infarction (odds ratio estimates 1.5; 95% confidence intervals 1.1 to 2.1, P =.03, and 1.0 to 2.1, P =.05, respectively). CONCLUSIONS: The significant relations observed between the AGT M235T variant, its protein product, and the cardiovascular disease phenotypes provide evidence for a possible role of elevated circulating AGT in the pathogenesis of coronary artery disease.

[Enzyme immunoassay in diagnosis of opisthorchiasis. Communication 2. Enzyme immunoassay test system for diagnosis of acute opisthorchiasis]. / Immunofermentnyi analiz v diagnostike opistorkhoza. Soobshchenie 2. Kharakteristika immunofermentnoi test-sistemy dlia diagnostiki ostrogo opistorkhoza.

A standard, highly specific and sensitive enzyme immunoassay test system has been developed for the diagnosis of acute opisthorchiasis, which is based on indirect solid-phase enzyme immunoassay for determination IgM antibodies to the antigen derived from Opisthorchis felineus marita extracts. The sensitivity of the test system is 87%, its specificity is 96.8%.

Statistical approach for evolutionary relationship of alpha-conotoxins and members of insulin-superfamily.

Similar conserved structures appear in apparently unrelated protein families. Thus, the superfamily of insulin shows an evolutionary relationship with the alpha-conotoxins of marine fish-hunting snails as indicated by methods of protein comparison. In order to reach statistical significance, the A-chains of different insulins, insulin-like growth factors, relaxins, insulin related peptides from invertebrates were drawn for comparison. These data were correlated with sequences from randomly chosen proteins. The alpha-conotoxins show identity scores up to 37.5% and similarity up to 56.2% toward the members of the insulin-superfamily. These scores conform to values achieved by comparing the relaxin and the insulin/IGF-sequences. The data show clearly that the identity and similarity values obtained in the comparison with the insulins are significantly higher than the scores of randomly chosen protein primary structures. According to our calculated data, this hormone system regulating metabolism and growth in vertebrates and the mentioned toxin-receptor system share the same evolutionary ancestor. However, this statistical approach has to be substantiated on gene level.

Physical training improves endothelial function in patients with chronic heart failure.

BACKGROUND: Chronic heart failure is associated with endothelial dysfunction including impaired endothelium-mediated, flow-dependent dilation (FDD). Since endothelial function is thought to play an important role in coordinating tissue perfusion and modulating arterial compliance, interventions to improve endothelial dysfunction are imperative. METHODS AND RESULTS: To assess the potential of physical training to restore FDD, 12 patients with chronic heart failure were studied and compared with FDD of 7 age-matched normal subjects. With a recently developed high-resolution ultrasound system, diameters of radial artery were measured at rest, during reactive hyperemia (with increased flow causing endothelium-mediated dilation), and during sodium nitroprusside, causing endothelium-independent dilation. Determination of FDD was repeated after intra-arterial infusion of NG-monomethyl-L-arginine (L-NMMA, 7 mumol/min) to inhibit endothelial synthesis and release of nitric oxide. The protocol was performed at baseline, after 4 weeks of daily handgrip training, and 6 weeks after cessation of the training program. FDD was impaired in heart failure patients compared with normal subjects. L-NMMA attenuated FDD, indicating that the endothelial release of nitric oxide is involved in FDD. Physical training restored FDD in patients with heart failure. In particular, the portion of FDD inhibited by L-NMMA (representing FDD mediated by nitric oxide) was significantly higher after physical training (8-minute occlusion: 8.0 +/- 1% versus 5.4 +/- 0.9%; P < .05; normal subjects: 9.2 +/- 1%). CONCLUSIONS: These results indicate that physical training restores FDD in patients with chronic heart failure, possibly by enhanced endothelial release of nitric oxide.

[Immunoenzyme analysis in the diagnosis of opisthorchiasis. I. The development of an immunoenzyme method for determining IgM antibodies to the Opisthorchis antigen]. / Immunofermentnyi analiz v diagnostike opistorkhoza. Soobshchenie I. Razrabotka immunofermentnogo metoda opredeleniia IgM-antitel k opistorkhoznomu antigenu.

An assay was developed to determine IgM antibodies to Opisthorchis felineus antigens for the diagnosis of acute infection. The method is based on indirect solid-phase enzyme immunoassay. Optimal conditions were elaborated for analysis and its high specificity and specifications are shown in the paper.

Red-cell and serum folate levels in depressed inpatients who commit violent suicide: a comparison with control groups.

There has been some discussion in the recent literature regarding the possible relationship between peripheral levels of folate and serotonin deficiency in the CNS. At the same time, such a serotonin deficiency has been implicated in the biology of suicidal behavior. Thus, decreased peripheral folate levels may be expected in patients who commit violent suicide. In this study, the red-cell and serum folate levels in nine persons who later committed suicide are compared with those in age- and sex-matched control groups. A one-way analysis of variance showed no significant difference between the groups.

Folate deficiency, anticonvulsant drugs, and psychiatric morbidity.

The folic acid (FOA) level was determined in serum and erythrocytes in 100 epileptic patients and 100 control patients using a luminescence assay. A lowered FOA concentration in serum, erythrocytes, or both was observed in 15% of the epileptic patients and in 2% of the control group. In the epileptic patients, the FOA in the serum and in the erythrocytes was significantly lower than that in the control group. Patients receiving carbamazepine monotherapy had a significantly lower FOA level in the erythrocytes than did patients receiving phenytoin monotherapy. The FOA level showed a negative correlation to the duration of epilepsy. None of the patients with lowered FOA had a normal mental status. The course of the supplementation treatment with 5 mg folinic acid (or FOA) of four patients with FOA deficiency could be monitored psychopathometrically. All four patients showed an improvement in their well-being and the majority of measured variables of the cognitive performance.

Effect of corticotropin releasing factor on atrial natriuretic peptide release from the isolated perfused rat heart.

The effect of corticotropin releasing factor (CRF) on atrial natriuretic peptide (ANP) release and its possible modulation by indomethacin, norepinephrine, propranolol and nitro-L-arginine (an inhibitor of the endothelium-derived relaxing factor (EDRF) release) was investigated, using an isolated perfused rat heart preparation. Bolus injection of 5 micrograms CRF, dissolved in 100 microliters perfusion buffer, provoked a significant (p < 0.01 vs. control) short-time increase of ANP release. Indomethacin (3 x 10(-5) mol/l) inhibited the CRF-stimulated increase of ANP release and decreased the basal ANP secretion (p < 0.01 vs. CRF group). Norepinephrine (10(-9) mol/l) slightly, but not significantly, decreased the CRF-stimulated ANP release and did not change the basal ANP output. Propranolol (3 x 10(-6) mol/l) did not alter ANP release. Nitro-L-arginine (3 x 10(-5) mol/l) increased the basal ANP release (p < 0.01 vs. CRF group) and prolonged the CRF-induced rise of the ANP secretion. The present data suggest that prostaglandins are important mediators of basal and CRF-stimulated ANP release and that EDRF might be a physiological inhibitor of ANP release.