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)

A systematic study on the in vitro interactions of 7-20 nm spherical silver nanoparticles (SNP) with HT-1080 and A431 cells was undertaken as a part of an on-going program in our laboratory to develop a topical antimicrobial agent for the treatment of burn wound infections. Upon exposure to SNP (up to 6.25 microg/mL), morphology of both the cell types remained unaltered. However, at higher concentrations (6.25-50 microg/mL) cells became less polyhedral, more fusiform, shrunken and rounded. IC(50) values for HT-1080 and A431 as revealed by XTT assay were 10.6 and 11.6 microg/mL, respectively. When the cells were challenged with approximately 1/2 IC(50) concentration of SNP (6.25 microg/mL), clear signs of oxidative stress, i.e. decreased GSH ( approximately 2.5-folds in HT-1080, approximately 2-folds in A431) and SOD ( approximately 1.6-folds in HT-1080, 3-folds in A431) as well as increased lipid peroxidation ( approximately 2.5-folds in HT-1080, approximately 2-folds in A431) were seen. Changes in the levels of catalase and GPx in A431 cells were statistically insignificant in both cell types. DNA fragmentation in SNP-exposed cells suggested apoptosis. When the apoptotic thresholds of SNP were monitored with caspase-3 assay the concentrations required for the onset of apoptosis were found to be much lower (0.78 microg/mL in HT-1080, 1.56 microg/mL in A431) than the necrotic concentration (12.5 microg/mL in both cell types). These results can be used to define a safe range of SNP for the intended application as a topical antimicrobial agent after appropriate in vivo studies.
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PMID:Cellular responses induced by silver nanoparticles: In vitro studies. 1850 9

The development of the human insula was studied in the foetuses from 21 to 32 gestation weeks, using silver staining, immunohistochemistry of proliferative cell nuclear antigen (PCNA), activated caspase-3, and TdT-mediated dUTP-biotin nick end labeling (TUNEL) techniques. To test whether the insula also has a significant role in psychiatry behavior, we also mapped the major receptor of serotonin, 5HT-2A, in the developing insula as well. Opercular formation was evident by 21 weeks gestation. At this time, the cortical layers in the insula had started to organize, with silver impregnated pyramidal and stellate cells demonstrated various processes. By 25 gestation weeks, gyri in the insula were observed. PCNA positive cells decreased in density from 21 gestation weeks onwards while an increase of TUNEL positive cells was evident from 25 to 32 weeks of gestation. Activated capase-3 positive cells were detected in the insula, along with TUNEL positive cells, confirming possibly apoptosis. Serotonin 2A receptor appeared robustly in the 31/32 gestation week specimens. Our study showed early differentiation in the insula, when compared with other parts of the human cortex in the literature. In addition, proliferation as well as apoptosis were demonstration. Expression of 5HT (serotonin) 2A receptor positive cells in development was indicative of the insula as a significant psychiatric center.
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PMID:Development of the human insular cortex: differentiation, proliferation, cell death, and appearance of 5HT-2A receptors. 1876 64

The central objective of the current study was to investigate the potential in vitro anti-proliferative effect of 4-hydroxy-3-nitro-coumarin (hncH), and the mixed-ligand silver (I) complex of 4-oxy-3-nitro-coumarin-bis(phenanthroline), [Ag(hnc)(phen)(2)] using four human-derived model cell lines. In addition, selected mechanistic studies were carried out using the most sensitive of the four cell lines. Results obtained show that the complex could decrease the proliferation of all four cell lines including neoplastic renal and hepatic, namely A-498 and HepG(2) cells, respectively, along with two non-neoplastic renal and hepatic cell lines, HK-2 and Chang, respectively. Furthermore, non-neoplastic hepatic cells (Chang) appeared to be less sensitive to the effect of the complex, but this effect was not replicated in the non-neoplastic renal (HK-2) cells. Based on IC(50) values [Ag(hnc)(phen)(2)] was shown to be almost four times more potent than cisplatin, using HepG(2) cells. In addition, the observed anti-proliferative effect was shown to be both dose- and time-dependent. Furthermore, the complex was shown to decrease DNA synthesis, but did not intercalate with it. Moreover, there was no evidence that P-glycoprotein-mediated multi-drug resistance was likely to decrease anti-proliferative activity. Cytological stains, analysis of genomic DNA, and biochemical assays [caspase-3 and -9 and cleaved poly(ADP-ribose)-polymerase protein] showed that cell death appeared to result from apoptosis, with the possibility of secondary necrosis. Additionally, flow cytometric analysis showed that the complex functioned through an alteration in cell cycle progression. Taken together, [Ag(hnc)(phen)(2)] has been shown to be a more potent anti-proliferative agent than cisplatin, capable of altering key biochemical events leading to cell death. Additional mechanistic studies are underway to probe more fully its mechanism of action.
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PMID:Role of cell cycle events and apoptosis in mediating the anti-cancer activity of a silver(I) complex of 4-hydroxy-3-nitro-coumarin-bis(phenanthroline) in human malignant cancer cells. 1904 61

Fibroblast growth factor 2 (FGF-2) has multiple, pleiotropic effects on the nervous system that include neurogenesis, neuroprotection and neuroplasticity. Thus, alteration in FGF-2 expression patterns may have a profound impact in brain function, both in normal physiology and in pathology. Here, we used FGF-2 transgenic mice (TgFGF2) to study the effects of endogenous FGF-2 overexpression on susceptibility to seizures and to the pathological consequences of seizures. TgFGF2 mice display increased FGF-2 expression in hippocampal pyramidal neurons and dentate granule cells. Increased density of glutamatergic synaptic vesicles was observed in the hippocampus of TgFGF2 mice, and electrophysiological data (input/output curves and patch-clamp recordings in CA1) confirmed an increase in excitatory inputs in CA1, suggesting the presence of a latent hyperexcitability. Indeed, TgFGF2 mice displayed increased susceptibility to kainate-induced seizures compared with wild-type (WT) littermates, in that latency to generalized seizure onset was reduced, whereas behavioral seizure scores and lethality were increased. Finally, WT and TgFGF2 mice with similar seizure scores were used for examining seizure-induced cellular consequences. Neurogenesis and mossy fiber sprouting were not significantly different between the two groups. In contrast, cell damage (assessed with Fluoro-Jade B, silver impregnation and anti-caspase 3 immunohistochemistry) was significantly lower in TgFGF2 mice, especially in the areas of overexpression (CA1 and CA3), indicating reduction of seizure-induced necrosis and apoptosis. These data suggest that FGF-2 may be implicated in seizure susceptibility and in seizure-induced plasticity, exerting different, and apparently contrasting effects: favoring ictogenesis but reducing seizure-induced cell death.
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PMID:Fgf-2 overexpression increases excitability and seizure susceptibility but decreases seizure-induced cell loss. 1905 2

The aims of the present study were to apply the AMG technique for localization of mercury at the light and electron microscopic level in the ovary of crucian carp after exposure to mercuric chloride and to find out if this heavy metal induces expression of caspase-3. Depending on the stage of ovarian follicle development, two patterns of mercury accumulation have been found in previtellogenic ovary of crucian carp. The first mercury accumulation pattern has been found in the early previtellogenic oocyte without zona radiata. In these oocytes, mercury accumulates into an ooplasmic region that seems to correspond to the Balbiani body (32-65 microm oocyte diameter), throughout the cytoplasm (84-116 microm oocyte diameter) and in the cortical cytoplasm (approximately 180 microm oocyte diameter). The second mercury accumulation pattern has been found in the late previtellogenic oocyte with cortical alveoli (229-330 microm oocyte diameter). Ultrastructural observations have shown grains of silver-enhanced mercury inside coated vesicles, the cortical lysosome-like bodies or multivesicular bodies and cortical alveoli. Immunohistochemistry reaction for caspase-3 was positive in nuclei of the early previtellogenic oocyte and Balbiani body.
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PMID:Tracing the accumulation and effects of mercury uptake in the previtellogenic ovary of crucian carp, Carassius auratus gibelio by autometallography and caspase-3 immunohistochemistry. 1908 30

Primary cells are ideal for in vitro toxicity studies since they closely resemble tissue environment. Here, we report a detailed study on the in vitro interactions of 7-20 nm spherical silver nanoparticles (SNP) with primary fibroblasts and primary liver cells isolated from Swiss albino mice. The intended use of silver nanoparticles is in the form of a topical antimicrobial gel formulation for the treatment of burns and wounds. Upon exposure to SNP for 24 h, morphology of primary fibroblasts and primary liver cells remained unaltered up to 25 microg/mL and 100 microg/mL SNP, respectively, although with minor decrease in confluence. IC(50) values for primary fibroblasts and primary liver cells as revealed by XTT assay were 61 microg/mL and 449 microg/mL, respectively. Ultra-thin sections of primary cells exposed to 1/2 IC(50) SNP for 24 h, visualized under Transmission electron microscope showed the presence of dark, electron dense, spherical aggregates inside the mitochondria, and cytoplasm, probably representing the intracellular SNP. When the cells were challenged with approximately 1/2 IC(50) concentration of SNP (i.e. 30 microg/mL and 225 microg/mL for primary fibroblasts and primary liver cells, respectively), enhancement of GSH (approximately 1.2 fold) and depletion of lipid peroxidation (approximately 1.4 fold) were seen in primary fibroblasts which probably protect the cells from functional damage. In case of primary liver cells; increased levels of SOD ( approximately 1.4 fold) and GSH ( approximately 1.1 fold) as compared to unexposed cells were observed. Caspase-3 activity assay indicated that the SNP concentrations required for the onset of apoptosis were found to be much lower (3.12 microg/mL in primary fibroblasts, 12.5 microg/mL in primary liver cells) than the necrotic concentration (100 microg/mL in primary fibroblasts, 500 microg/mL in primary liver cells). These observations were confirmed by CLSM studies by exposure of cells to 1/2 IC(50) SNP (resulting in apoptosis) and 2 x IC(50)) cells (resulting in necrosis). These results clearly suggest that although silver nanoparticles seem to enter the eukaryotic cells, cellular antioxidant mechanisms protect the cells from possible oxidative damage. This property, in conjunction with the finding that primary cells possess much higher SNP tolerance than the concentration in the gel (approximately 20 microg/g), indicates preliminary safety of the formulation and warrants further study for possible human application.
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PMID:Interactions of silver nanoparticles with primary mouse fibroblasts and liver cells. 1926 1

Angiogenesis, the growth of new blood vessels from pre-existing vasculature is of physiological and pathological importance. We have investigated the anti-angiogenic potential of silver nanoparticles, produced by Bacillus licheniformis. Bovine retinal endothelial cells (BRECs) were treated with the different concentrations of silver nanoparticles for 24 h in the presence and absence of vascular endothelial growth factor (VEGF), where 500 nM (IC50) of silver nanoparticle concentration, was able to block the proliferation and migration of BRECs. The cells showed a clear enhancement in caspase-3 activity and formation of DNA ladders, evidence of induction of apoptosis. Here we report for the first time that silver nanoparticles inhibit cell survival via PI3K/Akt dependent pathway in Bovine retinal endothelial cells.
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PMID:Silver nanoparticles inhibit VEGF induced cell proliferation and migration in bovine retinal endothelial cells. 1948 8

Ketamine, a widely used pediatric anesthetic, has been associated with enhanced neuronal toxicity in the developing brain, but mechanisms and neuronal susceptibility to neurotoxic insult leading to neuronal cell death remain poorly defined. One of the main goals of this study was to determine whether there is a duration of ketamine-induced anesthesia below which no significant ketamine-induced neurodegeneration can be detected. Newborn rhesus monkeys (postnatal day 5 or 6) were administered ketamine intravenously for 3, 9 or 24h to maintain a steady anesthetic plane, followed by a 6-h withdrawal period. The 9- and 24-h durations were selected as relatively long and extremely long exposures, respectively, while the 3-h treatment more closely approximates a typical duration of pediatric general anesthesia. Animals were subsequently perfused under anesthesia and brain tissue was processed for analyses using silver and Fluoro-Jade C stains and caspase-3 immunostain. The results indicated that no significant neurotoxic effects occurred if the anesthesia duration was 3h. However, ketamine infusions for either 9 or 24h significantly increased neuronal cell death in layers II and III of the frontal cortex. Although a few caspase-3- and Fluoro-Jade C-positive neuronal profiles were observed in some additional brain areas including the hippocampus, thalamus, striatum and amygdala, no significant differences were detected between ketamine-treated and control monkeys in these areas after 3, 9 or 24h of exposure. These data show that treatment with ketamine up to 3h is without adverse effects as determined by nerve cell death. However, anesthetic durations of 9h or greater are associated with significant brain cell death in the frontal cortex. Thus, the threshold duration below which no neurotoxicity would be expected is somewhere between 3 and 9h.
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PMID:Prolonged exposure to ketamine increases neurodegeneration in the developing monkey brain. 1958 Aug 62

Due to the intensive commercial application of silver nanoparticles (Ag NPs), risk assessment of this nanoparticle is of great importance. Our previous in vitro study demonstrated that Ag NPs caused DNA damage and apoptosis in mouse embryonic stem cells and fibroblasts. However, toxicity of Ag NPs in vivo is largely lacking. This study was undertaken to examine the toxic effects of well-characterized polysaccharide coated 10 nm Ag NPs on heat shock stress, oxidative stress, DNA damage and apoptosis in Drosophila melanogaster. Third instar larvae of D. melanogaster were fed a diet of standard cornmeal media mixed with Ag NPs at the concentrations of 50 and 100 microg/ml for 24 and 48 h. Ag NPs up-regulated the expression of heat shock protein 70 and induced oxidative stress in D. melanogaster. Malondialdehyde level, an end product of lipid peroxidation was significantly higher while antioxidant glutathione content was significantly lower in Ag NPs exposed organisms. Activities of antioxidant enzyme superoxide dismutase and catalase were also significantly higher in the organisms exposed to Ag NPs. Furthermore, Ag NPs up-regulated the cell cycle checkpoint p53 and cell signaling protein p38 that are involved in the DNA damage repair pathway. Moreover, activities of caspase-3 and caspase-9, markers of apoptosis were significantly higher in Ag NPs exposed organisms. The results indicate that Ag NPs in D. melanogaster induce heat shock stress, oxidative stress, DNA damage and apoptosis. This study suggests that the organism is stressed and thus warrants more careful assessment of Ag NPs using in vivo models to determine if chronic exposure presents developmental and reproductive toxicity.
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PMID:Silver nanoparticles induced heat shock protein 70, oxidative stress and apoptosis in Drosophila melanogaster. 1987 32

This study aimed to determine whether sustained stimulation with thyrotropin-releasing hormone (TRH), a peptide with important physiological functions, can possibly affect expression of plasma membrane proteins in HEK293 cells expressing high levels of TRH receptor and G(11)alpha protein. Our previous experiments using silver-stained two-dimensional polyacrylamide gel electrophoretograms did not reveal any significant changes in an overall composition of membrane microdomain proteins after long-term treatment with TRH of these cells (Matousek et al. 2005 Cell Biochem Biophys 42: 21-40). Here we used a purified plasma membrane fraction prepared by Percoll gradient centrifugation and proteins resolved by 2D electrophoresis were stained with SYPRO Ruby gel stain. The high enrichment in plasma membrane proteins of this preparation was confirmed by a multifold increase in the number of TRH receptors and agonist stimulated G-protein activity, compared to postnuclear supernatant. By a combination of these approaches we were able to determine a number of clearly discernible protein changes in the plasma membrane-enriched fraction isolated from cells treated with TRH (1 x 10(-5) M, 16 h): 4 proteins disappeared, the level of 18 proteins decreased and the level of 39 proteins increased. Our concomitant immunochemical determinations also indicated a clear down-regulation of G(q/11)alpha proteins in preparations from hormone-treated cells. In parallel, we observed decrease in caspase 3 and alterations in some other apoptotic marker proteins, which were in line with the presumed antiapoptotic effect of TRH.
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PMID:Protein alterations induced by long-term agonist treatment of HEK293 cells expressing thyrotropin-releasing hormone receptor and G11alpha protein. 1991 73


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