Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adrenomedullin (AM), an endogenous peptide, has been shown to have a variety of protective effects on the cardiovascular system. However, the effect of AM on acute lung injury remains unknown. Accordingly, we investigated whether AM infusion ameliorates lipopolysaccharide (LPS)-induced acute lung injury in rats. Rats were randomized to receive continuous intravenous infusion of AM (0.1 microg x kg(-1) x min(-1)) or vehicle through a microosmotic pump. The animals were intratracheally injected with either LPS (1 mg/kg) or saline. At 6 and 18 h after intratracheal instillation, we performed histological examination and bronchoalveolar lavage and assessed the lung wet/dry weight ratio as an index of acute lung injury. Then we measured the numbers of total cells and neutrophils and the levels of tumor necrosis factor (TNF)-alpha and cytokine-induced neutrophil chemoattractant (CINC) in bronchoalveolar lavage fluid (BALF). In addition, we evaluated BALF total protein and albumin levels as indexes of lung permeability. LPS instillation caused severe acute lung injury, as indicated by the histological findings and the lung wet/dry weight ratio. However, AM infusion attenuated these LPS-induced abnormalities. AM decreased the numbers of total cells and neutrophils and the levels of TNF-alpha and CINC in BALF. AM also reduced BALF total protein and albumin levels. In addition, AM significantly suppressed apoptosis of alveolar wall cells as indicated by cleaved caspase-3 staining. In conclusion, continuous infusion of AM ameliorated LPS-induced acute lung injury in rats. This beneficial effect of AM on acute lung injury may be mediated by inhibition of inflammation, hyperpermeability, and alveolar wall cell apoptosis.
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PMID:Adrenomedullin ameliorates lipopolysaccharide-induced acute lung injury in rats. 1755 1

We hypothesized that the hepatotoxicity that develops after the induction of oxidative stress (induced by d-galactosamine [GalN]) can be ameliorated by alpha-tocopherol (ATC) and the soy isoflavone daidzein. To test this, we ranked and assigned male Wistar rats into 6 groups, which involved pretreatment (ATC or daidzein) for 1 hour followed by treatment (GalN) for 23 hours. Histopathologic analysis showed that GalN administration induced marked necrosis (P < .001), steatosis (P < .001), both lobular and portal inflammations (P < .001), overall histopathologic score (P < .001), and activation of caspase-3 in the liver (P < .001). Immunohistochemical staining of malondialdehyde-protein adducts, a measure of oxidative stress, was increased in response to GalN (P < .001). Paradoxically, there were increases in total (P < .05) and cytosolic superoxide dismutase (P < .001) activities after GalN administration, indicative of an up-regulation of antioxidant defenses. The concentration of total protein (P < .001), albumin (P < .01), and globulin fractions (P < .001) in the plasma, as well as the activity of aspartate aminotransferase (P < .001), was significantly perturbed after GalN treatment, reflective of overall acute hepatic injury. Administration of daidzein showed a significant amelioration of the Ga1N-induced increase in malondialdehyde-protein adducts (P < .01) and cytosolic superoxide dismutase activities (P < .01) in the liver. However, all other variables were not significantly altered in response to daidzein. In response to ATC pretreatment, the total histopathologic score (P < .05), degree of necrosis (P < .05), and both lobular (P < .05) and portal (P = .05) inflammations were significantly ameliorated. To conclude, both daidzein and ATC protect the liver against oxidative damage possibly via different pathways.
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PMID:The cytoprotective effect of alpha-tocopherol and daidzein against d-galactosamine-induced oxidative damage in the rat liver. 1757 Feb 44

Plasma from patients with liver failure may contain toxic molecules that cause hepatocyte apoptosis and worsen liver disease, suggesting that removal of pro-apoptotic factors is an appropriate therapeutic strategy. We investigated the apoptosis of human hepatocytes induced by plasma from patients with both acute and acute-on-chronic liver disease, and the effect of molecular adsorbent dialysis (molecular adsorbent recirculation system [MARS] dialysis) on this. Apoptotic effects of acute and acute-on-chronic liver failure plasmas from 46 patients were assessed on cultured primary human hepatocytes using terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) labeling and caspase 3 activation. In 11 patients undergoing MARS dialysis, the pro-apoptotic effect of their plasma was analyzed before and after therapy. Acute liver failure plasma induced more apoptosis than normal plasma (within 4-6 h of culture, a 2.5-fold increase by TUNEL labeling, 1.8-fold by caspase 3 activation), via a pathway involving caspase 8, suggesting involvement of the death-receptor pathway. However, not all acute liver failure plasmas were significantly more pro-apoptotic than normal plasma. Plasma from patients with acutely decompensated chronic liver disease induced apoptosis at the same rate as normal plasma. MARS dialysis improved biochemical parameters indicating effective removal of albumin-bound molecules, but the apoptotic effects of the plasma were unchanged. Thus, plasma of patients with acute liver failure, compared to normal plasma, induced increased apoptosis of primary human hepatocytes by a caspase-8- and caspase-3-dependent pathway. The apoptosis induced in the presence of liver failure plasma was not reduced by MARS dialysis.
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PMID:Characterization of pro-apoptotic effect of liver failure plasma on primary human hepatocytes and its modulation by molecular adsorbent recirculation system therapy. 1772 1

The present study was aimed at clarifying the effects of an anti-apoptotic protein for modulating symptoms in acute lung injury (ALI). From Bcl-x(L), a Bcl-2 family member, we constructed an artificial protein (FNK) and fused it with the protein transduction domain (PTD) of the HIV/Tat protein (PTD-FNK) to facilitate its permeation into cells. ALI was induced by intratracheal infusion of lipopolysaccharide (LPS) into Sprague-Dawley male rats. PTD-FNK was injected into the peritoneal cavity of the animals either 2 h before, or 3 h or 6 h after LPS challenge. All rats were sacrificed 24 h after the last treatment. Cell differential ratios and albumin concentration were estimated in bronchoalveolar lavage fluid. We examined histological change, myeloperoxidase activity, TUNEL assay, caspase-3/caspase-3-like activity and immunohistochemical reaction for caspase 3 (active form). In animals with PTD-FNK treatment, the albumin leakage was significantly attenuated with protection of tissue damage. Also, the apoptosis of alveolar wall cells was reduced by PTD-FNK treatment, while a total cell number and the neutrophil ratio were not changed. Human umbilical vein endothelial cells (HUVEC) and cells of an alveolar epithelial cell line (A549) were exposed to LPS or TNF-alpha with or without PTD-FNK treatment in vitro. Cell survival rates examined by trypan-blue exclusion assay were increased by PTD-FNK treatment in a concentration-dependent manner. Thus, PTD-FNK could play a protective role in ALI by suppressing apoptosis of alveolar epithelial cells and capillary endothelial cells despite of some effect on neutrophil activity.
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PMID:Anti-apoptotic PTD-FNK protein suppresses lipopolysaccharide-induced acute lung injury in rats. 1795 70

Advanced glycation endproducts (AGEs) are implicated in the complications of diabetes and ageing, affecting several tissues, including bone. Metformin, an insulin-sensitizer drug, reduces the risk of life-threatening macrovascular complications. We have evaluated the hypothesis that metformin can abrogate AGE-induced deleterious effects in osteoblastic cells in culture. In two osteoblast-like cell lines (UMR106 and MC3T3E1), AGE-modified albumin induced cell death, caspase-3 activity, altered intracellular oxidative stress and inhibited alkaline phosphatase activity. Metformin-treatment of osteoblastic cells prevented these AGE-induced alterations. We also assessed the expression of AGE receptors as a possible mechanism by which metformin could modulate the action of AGEs. AGEs-treatment of osteoblast-like cells enhanced RAGE protein expression, and this up-regulation was prevented in the presence of metformin. Although the precise mechanisms involved in metformin signaling are still elusive, our data implicate the AGE-RAGE interaction in the modulation of growth and differentiation of osteoblastic cells.
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PMID:Metformin reverts deleterious effects of advanced glycation end-products (AGEs) on osteoblastic cells. 1827 53

Providing sufficient islet mass is important for successful islet transplantation. Apoptosis plays a major role in post-isolation islet cell death, and prevention of apoptosis could improve transplant outcomes. The purpose of this study was to determine whether increased concentration of human albumin (HA) in pre-transplantation culture of human islets would reduce apoptosis. Human islets were cultured in CMRL with 1.5 or 5% of HA for 24 h and apoptosis was evaluated indirectly by measuring caspase 3 activity and tetramethylrhodamine-ethyl-ester (TMRE) in dissociated islets. Islet function and viability were evaluated. Islets cultured in higher albumin concentration presented with lower caspase 3 activity (43.9 +/- 3.9 vs. 67.4 +/- 11.1, p = 0.011), and had increased insulin secretory capacity (Stimulation index 3.76 +/- 0.91 vs 1.23 +/- 0.21, p = 0.023). We conclude that an increase in albumin concentration can prevent apoptosis in isolated human islets. These findings may have implications for islet transplant outcomes.
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PMID:Increased albumin concentration reduces apoptosis and improves functionality of human islets. 1829 63

Cardiolipin (CL) is a major mitochondrial membrane phospholipid in the mammalian heart and the remodeling of CL is essential to maintain its unique unsaturated fatty acyl composition. We examined CL de novo biosynthesis and remodeling in the surviving population of H9c2 cardiac myoblast cells exposed to 2-deoxyglucose (2-DG). H9c2 cells were incubated in the absence or presence of 2-DG for 16 h with [1,3-3H]glycerol or [1-14C]linoleic acid (bound to albumin in a 1:1 molar ratio). Dead cells were removed and radioactivity was incorporated into CL. Its pool size, fatty acid composition, and the activities of the CL biosynthesis and remodeling enzymes were determined. The CL pool size, its fatty acid composition, and [1,3-3H]glycerol or [1-14C]linoleic acid incorporated into CL were unaltered in the surviving population of 2-DG-treated cells compared with controls. In addition, the activities of the CL de novo biosynthetic enzymes were unaltered. Cleaved caspase-3 and poly(ADP-ribose) polymerase were slightly elevated in the surviving population of 2-DG-treated cells compared with controls, indicating that apoptosis induction was occurring in these cells. Mitochondrial phospholipase A2 and monolysocardiolipin acyltransferase (MLCL AT) activities increased 33% (p < 0.05) and 63% (p < 0.05), respectively, in 2-deoxyglucose-treated cells compared with controls. In contrast, the activity of ALCAT1, an endoplasmic reticulum MLCL AT, decreased 77% (p < 0.05), but this was not due to a reduction in ALCAT1 mRNA expression. The mRNA expression of the Barth syndrome gene TAZ, encoding a mitochondrial CL transacylase, was unaltered in 2-DG treated cells. The increase in mitochondrial MLCL AT activity was due to an elevated expression in MLCL AT protein. Thus, an increase in MLCL AT activity and expression occurs to maintain the CL pool in the surviving population of H9c2 cells as a compensatory mechanism for the elevated phospholipase A2 activity seen in 2-DG-induced apoptosis. We hypothesize that increased mitochondrial MLCL AT activity and its expression, and hence, elevated CL resynthesis, may be a protective mechanism against monolysocardiolipin-mediated apoptosis.
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PMID:Mitochondrial monolysocardiolipin acyltransferase is elevated in the surviving population of H9c2 cardiac myoblast cells exposed to 2-deoxyglucose-induced apoptosis. 1836 41

Toxic effects of the mycotoxin deoxynivalenol (DON) observed in animals range from diarrhea, vomiting, gastro-intestinal inflammation to necrosis of several tissues. In the last years, DON has been tested in hepatocytes of several animal species for its cytotoxicity. However, these tests are limited to the use of animal cells. No studies using human hepatocytes are available. Further investigations with the human hepatocellular liver carcinoma cell line HepG2 might be limited due to the disadvantages of cell lines (e. g. immortalization, tumor derivation, longtime cultivation) and do not necessarily reflect the response of normal human cells. In order to overcome this problem and to be closer to the human situation, we studied the effect of DON in human primary hepatocytes and compared these data to the effects in the HepG2 cell line. Cell viability, apoptotic and necrotic cell death, albumin secretion and metabolic activity were determined. It could be demonstrated that DON has a distinct cytotoxic effect on human primary hepatocytes. Viability, protein content and albumin secretion were reduced in a dose-dependent manner. The apoptotic key enzyme caspase-3 was activated, while LDH release occurred only after long incubation time due to a secondary necrosis. Furthermore, we studied the metabolism of DON using LC-MS/MS. DON was neither metabolized by primary hepatocytes cells nor by the HepG2 cell line.
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PMID:Effects of the mycotoxin deoxynivalenol on human primary hepatocytes. 1861 82

Advanced glycation end products (AGEs) accumulate during aging and to higher extents under pathological conditions such as diabetes. Since we previously showed that mast cells expressed the AGE-binding protein, receptor for AGEs (RAGE) on their cell surface, we examined whether AGE affected mast cell survival. Herein, we demonstrate that mast cells undergo apoptosis in response to AGE. Glycated albumin (GA), an AGE, but not stimulation with the high-affinity IgE receptor (FcepsilonRI), can induce mast cell death, as measured by annexin V/propidium iodide double-staining. GA (> or =0.1 mg/ml) exhibited this pro-apoptotic activity in a concentration-dependent manner. GA and FcepsilonRI stimulation increased the cytosolic Ca(2+) levels to a similar extent, whereas GA, but not FcepsilonRI stimulation, caused mitochondrial Ca(2+) overload and membrane potential collapse, resulting in mitochondrial integrity disruption, cytochrome c release and caspase-3/7 activation. In addition, GA, but not FcepsilonRI stimulation, induced extracellular release of superoxide from mitochondria, and this release played a key role in the disruption of Ca(2+) homeostasis. Knockdown of RAGE expression using small interfering RNA abolished GA-induced apoptosis, mitochondrial Ca(2+) overload, and superoxide release, demonstrating that RAGE mediates the GA-induced mitochondrial death pathway. AGE-induced mast cell apoptosis may contribute to the immunocompromised and inflammatory conditions.
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PMID:Extracellular superoxide released from mitochondria mediates mast cell death by advanced glycation end products. 1882 20

Hemorrhagic shock (HS) is associated with the disruption of endothelial cell barrier leading to vascular hyperpermeability. Previous studies from our laboratory implicate reactive oxygen species (ROS) and the intrinsic apoptotic signaling cascades as mediators of vascular hyperpermeability after HS. Here we report the protective effects of alpha-lipoic acid, a natural antioxidant with antiapoptotic properties, against vascular hyperpermeability after HS. Hemorrhagic shock was induced in Sprague-Dawley rats by withdrawing blood to reduce the MAP to 40 mmHg for 60 min followed by resuscitation for 60 min. The rats were given fluorescein isothiocyanate-albumin (50 mg/kg) i.v., and the mesenteric postcapillary venules were examined for change in hyperpermeability using intravital microscopy. Mitochondrial ROS formation and change in mitochondrial transmembrane potential were measured using dihydrorhodamine 123 and the cationic dye JC-1, respectively. The mitochondrial release of cytochrome c and activation of caspase 3 were measured using enzyme-linked immunosorbent assay and fluorometric assay, respectively. Hemorrhagic shock resulted in vascular hyperpermeability and mitochondrial ROS formation. The activation of mitochondrial intrinsic apoptotic signaling pathway was evidenced from mitochondrial depolarization, an increase in cytochrome c release, and activation of caspase 3. alpha-Lipoic acid (100 mg/kg) given before the shock period attenuated vascular hyperpermeability, mitochondrial ROS formation, mitochondrial depolarization, cytochrome c release, and activation of caspase 3 (P < 0.05). Together, these results demonstrate that alpha-lipoic acid provides protection against vascular hyperpermeability by modulating the mitochondrial "intrinsic" apoptotic signaling.
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PMID:Alpha-lipoic acid attenuates hemorrhagic shock-induced apoptotic signaling and vascular hyperpermeability. 1892 1


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