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)

Granulocyte macrophage-colony stimulating factor (GM-CSF) plays an important role in pulmonary homeostasis, with effects on both alveolar macrophages and alveolar epithelial cells. We hypothesized that overexpression of GM-CSF in the lung would protect mice from hyperoxic lung injury by limiting alveolar epithelial cell injury. Wild-type C57BL/6 mice and mutant mice in which GM-CSF was overexpressed in the lung under control of the SP-C promoter (SP-C-GM mice) were placed in >95% oxygen. Within 6 days, 100% of the wild-type mice had died, while 70% of the SP-C-GM mice remained alive after 10 days in hyperoxia. Histological assessment of the lungs at day 4 revealed less disruption of the alveolar wall in SP-C-GM mice compared to wild-type mice. The concentration of albumin in bronchoalveolar lavage fluid after 4 days in hyperoxia was significantly lower in SP-C-GM mice than in wild-type mice, indicating preservation of alveolar epithelial barrier properties in the SP-C-GM mice. Alveolar fluid clearance was preserved in SP-C-GM mice in hyperoxia, but decreased significantly in hyperoxia-exposed wild-type mice. Staining of lung tissue for caspase 3 demonstrated increased apoptosis in alveolar wall cells in wild-type mice in hyperoxia compared to mice in room air. In contrast, SP-C-GM mice exposed to hyperoxia demonstrated only modest increase in alveolar wall apoptosis compared to room air. Systemic treatment with GM-CSF (9 micro g/kg/day) during 4 days of hyperoxic exposure resulted in decreased apoptosis in the lungs compared to placebo. In studies using isolated murine type II alveolar epithelial cells, treatment with GM-CSF greatly reduced apoptosis in response to suspension culture. In conclusion, overexpression of GM-CSF enhances survival of mice in hyperoxia; this effect may be explained by preservation of alveolar epithelial barrier function and fluid clearance, at least in part because of reduction in hyperoxia-induced apoptosis of cells in the alveolar wall.
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PMID:Transgenic overexpression of granulocyte macrophage-colony stimulating factor in the lung prevents hyperoxic lung injury. 1463 11

Given the importance of dendritic cells in the immune response, we investigated the effect of corticosteroids (CS) on the integrity, survival, and function of murine Langerhans cells (LC) in comparison with pimecrolimus, a novel anti-inflammatory drug for the topical treatment of atopic dermatitis. BALB/c mice were treated twice on one day with ethanolic solutions of the compounds. At 24-72 h after the last application, we observed fragmented DNA, caspase-3 activity, and an upregulation of CD95 expression in LC from mice treated with CS but not in LC of pimecrolimus- or vehicle-treated animals. CS-epidermal cell (EC) supernatants but not pimecrolimus-EC supernatants contained significantly lower amounts of soluble factors (GM-CSF, TNF-alpha, IL-1alpha) required for LC survival and maturation than EC supernatants from vehicle-treated mice. With regard to LC maturation, CS but not pimecrolimus inhibited the expression of CD25, CD205, and costimulatory molecules. In line with this, LC from pimecrolimus-treated mice were similar to LC from vehicle-treated mice in their capacity to stimulate antigen-presenting function and migration, whereas LC from CS-treated mice were greatly impaired in these abilities. In summary, our data show for the first time that CS but not pimecrolimus induce apoptosis in LC in situ, implying that the prolonged use of CS could have adverse effects on the skin immune system.
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PMID:Corticosteroids but not pimecrolimus affect viability, maturation and immune function of murine epidermal Langerhans cells. 1508 53

Brown Norway (BN) and BN Katholiek (BN/Ka) rat strains are both susceptible to develop lesions in the internal elastic lamina (IEL) of the aorta. BN/Ka rats are characterized by a single point mutation in the kininogen gene leading to deficiency in high- and low-molecular-weight kininogen. Recently, a suggestive quantitative trait locus for lesions in the IEL of the abdominal aorta was identified in an F2 intercross between Dahl salt-sensitive (SS) and BN rats, implicating kininogen as a positional candidate gene. Therefore, BN and BN/Ka rat strains represent ideal model organisms with which to study the contribution of kininogen to the genetic predisposition to IEL lesion formation and to characterize the early events underlying vascular remodeling. Here we present data demonstrating that genetic kininogen deficiency promotes the formation of aneurysms in the abdominal aorta but not the development of atherosclerosis upon 12-wk treatment with an atherogenic diet. Aneurysm formation was associated with an enhanced elastolysis, increased expression of MMP-2 and MMP-3, downregulation of TIMP-4, and with FasL- and caspase-3-mediated apoptosis. Kininogen-deficient animals also featured changes in plasma cytokines compatible with apoptotic vascular damage, i.e., upregulation of IFN-gamma and downregulation of GM-CSF and IL-1beta. Finally, in response to atherogenic diet, kininogen-deficient animals developed an increase in HDL/total cholesterol index, pronounced fatty liver and heart degeneration, and lipid depositions in aortic media without atherosclerotic plaque formation. These findings suggest that genetic kininogen deficiency renders vascular tissue prone to aneurysmatic but not to atherosclerotic lesions.
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PMID:Genetic kininogen deficiency contributes to aortic aneurysm formation but not to atherosclerosis. 1523 17

Asthma is an inflammatory disease of the lungs and the transcription factor NF-kappa B regulates the production of numerous inflammatory mediators that may have a role in the pathogenesis of asthma. Hence, the signalling pathways leading to NF-kappa B activation are considered prime targets for novel anti-inflammatory therapies. The prevention of NF-kappa B activity in mice, through the knockout of IKK beta or p65, causes fatal liver degeneration in utero making it difficult to determine the full implications of inhibiting NF-kappaB activity in tissues physiologically relevant to human diseases. This study used adenovirus delivery of a dominant inhibitor of NF-kappaB (I kappa B alpha delta N) and dominant-negative IKK alpha (IKK alpha(KM)) and IKK beta (IKK beta(KA)) to investigate the role of the individual IKKs in NF-kappa B activation and inflammatory gene transcription by human pulmonary A549 cells. Overexpression of IKK beta(KA) or I kappa B alpha delta N prevented NF-kappa B-dependent transcription and DNA binding. IKK beta(KA) also prevented I kappa B alpha kinase activity. Similarly, IKK beta(KA) and I kappa B alpha delta N overexpression also inhibited IL-1beta- and TNF alpha-dependent increases in ICAM-1, IL-8 and GM-CSF in addition to IL-1beta-mediated increases in cyclooxygenase-2 expression, whereas IKK alpha(KM) overexpression had little effect on these outputs. IKK beta(KA) also reduced cell viability and induced caspase-3 and PARP cleavage regardless of the stimuli, indicating the induction of apoptosis. This effect seemed to be directly related to IKK beta kinase activity since I kappa B alpha delta N only induced PARP cleavage in TNF alpha-treated cells. These results demonstrate that inhibition of IKK beta and NF-kappa B suppresses inflammatory mediator production and reduces A549 cell viability. Thus, novel therapies that target IKK beta could have potent anti-inflammatory effects and may be beneficial in the treatment of certain cancers.
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PMID:Validation of IKK beta as therapeutic target in airway inflammatory disease by adenoviral-mediated delivery of dominant-negative IKK beta to pulmonary epithelial cells. 1572 90

The purpose of this study was to investigate the radioprotective effect of HGFs (GM-CSF, IL-3 and SCF) in irradiated human peripheral blood mononuclear cells (PBMCs) in vitro, and the survival effect of lethally irradiated C3H mice in vivo. The irradiation of human PBMCs using a (137)Cs irradiator showed a dose-dependent inhibition of cell growth up to a dose of 5 Gy. This cell growth inhibition induced apoptosis, which was associated with the down-regulation of Bcl-2, up-regulation of Bax, depolarization of mitochondrial transmembrane potential (Delta psi m), and caspase-3 and -9 activation. Following gamma-irradiation at 2 Gy, IL-3 (10 ng/ml) alone or combined with SCF (50 ng/ml) reduced the apoptotic portion of human PBMCs by 15 and 20% of the cell population, respectively, showing no activation of caspase-3 compared to the control group. To examine the in vivo effect of gamma-irradiation and cytokines, we investigated the survival rate and recovery of peripheral blood cells in C3H mice. C3H mice subjected to total body irradiation (TBI) at a dose of 7 Gy (lethal dose 83% at 30 days) showed time-dependent decreases in RBC, WBC and platelet counts, with the nadir occurring at 12 to 15 days. However, treatment with recombinant murine (rm) SCF (2 microg/day s.c.), rmIL-3 (2 microg/day s.c.), or rmG-CSF (2.5 microg/day s.c.) 24 h before and after irradiation did not promote hematologic recovery or survival in the lethally irradiated C3H mice. These findings indicate that the combined treatment of IL-3 and SCF prevents the apoptosis induced in PBMCs by gamma-irradiation in vitro, but it does not afford any in vivo radioprotective effect in lethally irradiated C3H mice.
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PMID:Radioprotective effects of various cytokines in peripheral blood mononuclear cells and C3H mice. 1587 Sep 40

Since apoptosis is a major contributor to cell loss in medulloblastoma, either spontaneous or induced by radiation and chemotherapy, the apoptotic rate in resection specimens could have prognostic significance. We analysed the apoptotic rate in 58 medulloblastoma resection specimens using an antibody against cleaved caspase 3, a specific marker of apoptotic cell death, and tested its possible prognostic significance. The apoptotic rate varied considerably among medulloblastomas (0.1-25.9%, median 1.1%). Apoptotic cells were relatively evenly distributed in 39 cases, while in 19 cases, an uneven distribution with foci of an increased number of apoptotic cells and their clustering was observed. Clusters of apoptotic cells were found around necrotic areas, while necrotic cells were caspase 3 negative. The apoptotic rate was higher in medulloblastomas with CSF dissemination, tended to be higher in desmoplastic medulloblastomas, but there was no association with age group and sex. In the univariate analysis of overall survival, the apoptotic rate had no prognostic value. The variation in apoptotic rate among medulloblastomas is very likely predominantly associated with variations in tumour microenvironment, as supported by apoptotic cell clustering and rimming around necrotic areas. The apoptotic rate in medulloblastoma resection specimens does not seem to be of prognostic value.
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PMID:Prognostic significance of apoptosis in medulloblastoma. 1588 92

Mcl-1 is an antiapoptotic member of the Bcl-2 family of proteins that plays a central role in cell survival of neutrophils and other cells. The protein is unusual among family members in that it has a very short half-life of 2-3 h. In this report, we show that sodium salicylate (at 10 mM) greatly enhances the rate at which neutrophils undergo apoptosis and, in parallel, greatly accelerates the turnover rate of Mcl-1, decreasing its half-life to only 90 min. Whereas constitutive and GM-CSF-modified Mcl-1 turnover is regulated by the proteasome, the accelerated sodium salicylate-induced Mcl-1 turnover is mediated largely via caspases. Sodium salicylate resulted in rapid activation of caspase-3, -8, -9, and -10, and salicylate-accelerated Mcl-1 turnover was partly blocked by caspase inhibitors. Sodium salicylate also induced dramatic changes in the activities of members of the MAPK family implicated in Mcl-1 turnover and apoptosis. For example, sodium salicylate blocked GM-CSF-stimulated Erk and Akt activation, but resulted in rapid and sustained activation of p38-MAPK, an event mimicked by okadaic acid that also accelerates Mcl-1 turnover and neutrophil apoptosis. These data thus shed important new insights into the dynamic and highly regulated control of neutrophil apoptosis that is effected by modification in the rate of Mcl-1 turnover.
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PMID:Sodium salicylate promotes neutrophil apoptosis by stimulating caspase-dependent turnover of Mcl-1. 1639 81

Rigorous scientific research has identified multiple interactive mechanisms that parallel and are likely causative of the development of Alzheimer's disease (AD). Causative mechanisms include genomics, the creation of amyloid beta (Abeta), factors inhibiting the Abeta removal process, the transformation of Abeta to its toxic forms (various forms of Abeta aggregation), and lastly the oxidative, inflammatory, and other effects of toxic Abeta. Fibrillar beta-amyloid peptide, a major component of senile plaques in AD brain, is known to induce microglial-mediated neurotoxicity under certain conditions, but some recent studies support the notion that Abeta oligomers are the primary neurotoxins. Abeta-42 oligomers that are soluble and highly neurotoxic, referred to as Abeta-derived diffusible ligands (ADDLs), assemble under conditions that block fibril formation. These oligomers bind to dendrite surfaces in small clusters with ligand-like specificity and are capable of destroying hippocampal neurons at nanomolar concentrations. Evidence is presented that AD is triggered by these soluble, neurotoxic assemblies of Abeta rather than the late stage pathology landmarks of amyloid plaques and tangles. The premise is that AD symptoms stem from aberrant nerve cell signaling and synaptic failure rather than nerve cell death, which nevertheless follows and exacerbates the initial pathologies of AD. The defective clearance of amyloid leads to amyloid angiopathy that in turn perpetuates hypoperfusion that affects formation as well as absorption of CSF thereby altering clearance of amyloid and promoting vascular and parenchymal deposition[1]. Hypoperfusion, the defective clearance of amyloid, and resultant increase in amyloid deposition thus represent a vicious cycle. Chronic vascular hypoperfusion-induced mitochondrial failure results in oxidative damage, which drives caspase 3-mediated Abeta peptide secretion and enhances amyloidogenic APP processing. Intracellular Abeta accumulation in turn promotes a significant oxidative and inflammatory mechanism that generates a vicious cycle of Abeta generation and oxidation, each accelerating the other. Abeta activates astrocytes that add to the oxidative imbalance, upregulate the expression of APP via TGF-beta, and are capable of expressing BACE1. Each of these 3 actions accelerates the larger cycle of cholinergic neuron destruction. As oxidative stress induces lesions of cholinergic nuclei producing a reduction in cholinergic neurotransmission, a subsequent increase in cortical APP involving PKCepsilon leads to accelerated amyloidogenic APP metabolism. The linkage of cholinergic activation and APP metabolism completes an additional feedback loop wherein the damage wrought by Abeta accelerates further Abeta production. A comprehensive vision of the neuropathophysiologic mechanisms that result in AD reveals several vicious cycles within a larger vicious cycle, that is to say, a number of interactive systems that each, once set in motion, amplify their own processes, thus accelerating the development of AD.
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PMID:Vicious cycles within the neuropathophysiologic mechanisms of Alzheimer's disease. 1661 Oct 10

The exact molecular mechanisms leading to delayed apoptosis, a phenomenon frequently observed in eosinophil inflammatory responses, remain largely unknown. Here, we show that cultured eosinophils purified from blood of hypereosinophilic syndrome (HES) patients exhibit delayed spontaneous death and relative resistance towards ceramide- but not CD95-mediated death. The subsequent investigation of members of the inhibitor of apoptosis (IAP) family revealed that HES but not normal eosinophils expressed high levels of cellular IAP-2 (cIAP-2) and survivin. The eosinophil hematopoietins IL-3, IL-5, and GM-CSF increased the expression of cIAP-2 and survivin in normal eosinophils in vitro. In the blood of HES patients, we observed increased concentrations of IL-3 and/or IL-5, suggesting that these cytokines are, at least partially, responsible for the elevated levels of cIAP-2 and survivin in the eosinophils of these patients. Utilizing a cell-free system in which caspase-3 was activated in eosinophil cytosolic extracts by addition of cytochrome c and immunodepletion of cIAP-2 or survivin resulted in accelerated caspase activation. These data suggest that some members of the IAP family including survivin are regulated by survival cytokines and inhibit the caspase cascade in HES eosinophils. The cytokine-dependent mechanism of delayed eosinophil apoptosis described here may also apply to other eosinophilic diseases.
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PMID:cIAP-2 and survivin contribute to cytokine-mediated delayed eosinophil apoptosis. 1676 16

The third-generation bisphosphonate zoledronic acid (ZOL) has recently been shown to be active against human tumour and leukemic cell lines. The purpose of this study was to evaluate the antileukemic potential of ZOL in acute myeloid leukemia (AML). We determined the lethal concentration 50% (LC 50) using the WST-1 assay of ZOL as being 287.9 microg/ml after 24 h and 108.3 microg/ml after 96 h in HL 60 cells and to be 382.4 and 43.2 microg/ml, respectively, in nine samples from patients with AML. The ZOL induced inhibition of proliferative activity of HL 60 cells could not be abrogated by the hematopetic growth factors G-CSF and GM-CSF. ZOL was found to by cytotoxic in HL 60 cells without activation of caspase 3. ZOL was not cross resistant with cytarabine as shown by the linear correlation of LC 50s. Both agents, however, exerted an additive cytotoxicity as revealed by isobologram-analysis and combination index. These data warrant further investigation of ZOL in the treatment of AML.
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PMID:Cytotoxic activity of the third-generation bisphosphonate zoledronic acid in acute myeloid leukemia. 1693 89


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