UNIPROT:P42574 - FACTA Search

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Query: UNIPROT:P42574 (caspase-3)
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Chronic obstructive pulmonary disease (COPD) is characterised by chronic inflammation of the airways and progressive destruction of lung parenchyma, a process that in most cases is initiated by cigarette smoking. Several mechanisms are involved in the development of the disease: influx of inflammatory cells into the lung (leading to chronic inflammation of the airways), imbalance between proteolytic and anti-proteolytic activity (resulting in the destruction of healthy lung tissue) and oxidative stress. Recently, an increasing number of data suggest a fourth important mechanism involved in the development of COPD: apoptosis of structural cells in the lung might possibly be an important upstream event in the pathogenesis of COPD. There is an increase in apoptotic alveolar epithelial and endothelial cells in the lungs of COPD patients. Since this is not counterbalanced by an increase in proliferation of these structural cells, the net result is destruction of lung tissue and the development of emphysema. Data from animal models suggest a role for Vascular Endothelial Growth Factor (VEGF) in the induction of apoptosis of structural cells in the lung. Other mediators of apoptosis, such as caspase-3 and ceramide, could be interesting targets to prevent apoptosis and the development of emphysema. In this review, recent data on the role of apoptosis in COPD from both animal models as well as from studies on human subjects will be discussed. The aim is to provide an up to date summary on the increasing knowledge on the role of apoptosis in COPD and pulmonary emphysema.
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PMID:Role of apoptosis in the pathogenesis of COPD and pulmonary emphysema. 1657 Nov 43

Cigarette smoke extract (CSE) contains abundant oxidants and free radicals. Oxidative stress caused by cigarette smoking results in the destruction of the alveolar cell walls and emphysema. However, there exists discrepancy about how CSE works in the process. In the present study, we observed the effect of CSE on the cell growth of type II alveolar epithelial cell-derived A549 cell line, and provided molecular understanding of this effect. The MTT assay results showed that CSE decreased the cell viability of A549 cells in a dose- and time-dependent manner, and cell cycle was arrested in G(1)/S phase. Furthermore, CSE-induced apoptosis of A549 cells was verified by Hoechst 33258 staining, electron microscopy in morphology, and the appearance of DNA fragmentation and annexin V-FITC/propidium iodide (PI) staining assay at molecular level. It was found that CSE treatment resulted in the upregulation of Fas/APO-1 receptor and activation of caspase-3. CSE also initiated accumulation of intracellular reactive oxygen species, which was detected by laser confocal microscopy. Taken together, CSE could inhibit the cell growth and induce apoptosis of A549 cells through Fas receptor pathway. Oxidative stress caused by CSE may be the radical factor leading to apoptosis as well as cell growth inhibition in alveolar epithelial cells.
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PMID:Cigarette smoke extract inhibits the proliferation of alveolar epithelial cells and induces apoptosis. 1678 9

Administration of the VEGF receptor blocker SU5416 to rats causes alveolar septal cell apoptosis and emphysema; both can be prevented by a superoxide dismutase mimetic. Here we show that SU5416 induces the expression of heme oxygenase-1 in the lung tissue and that administration of antioxidant N-acetyl-l-cysteine protects alveolar septal cells against apoptosis, as demonstrated by caspase-3 lung immunohistochemistry, and against emphysema.
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PMID:N-acetylcysteine treatment protects against VEGF-receptor blockade-related emphysema. 1699 36

alpha-1 Antitrypsin (A1AT) is an abundant circulating serpin with a postulated function in the lung of potently inhibiting neutrophil-derived proteases. Emphysema attributable to A1AT deficiency led to the concept that a protease/anti-protease imbalance mediates cigarette smoke-induced emphysema. We hypothesized that A1AT has other pathobiological relevant functions in addition to elastase inhibition. We demonstrate a direct prosurvival effect of A1AT through inhibition of lung alveolar endothelial cell apoptosis. Primary pulmonary endothelial cells internalized human A1AT, which co-localized with and inhibited staurosporine-induced caspase-3 activation. In cell-free studies, native A1AT, but not conformers lacking an intact reactive center loop, inhibited the interaction of recombinant active caspase-3 with its specific substrate. Furthermore, overexpression of human A1AT via replication-deficient adeno-associated virus markedly attenuated alveolar wall destruction and oxidative stress caused by caspase-3 instillation in a mouse model of apoptosis-dependent emphysema. Our findings suggest that direct inhibition of active caspase-3 by A1AT may represent a novel anti-apoptotic mechanism relevant to disease processes characterized by excessive structural cell apoptosis, oxidative stress, and inflammation, such as pulmonary emphysema.
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PMID:alpha-1 antitrypsin inhibits caspase-3 activity, preventing lung endothelial cell apoptosis. 1700 75

Transient overexpression of genes involved in lung regulation might prevent alveolar developmental disorders (ADDs) in premature neonates. However, adenovirus 5 (Ad5) vectors per se, and not isolated capsid proteins, induce ADDs after tracheal administration to newborn rats. To test the hypothesis that Ad5 capsid components are mainly responsible for ADDs, we evaluated newborn rats' lung development by morphometry after tracheal administration of a panel of Ad5 vectors with mutations in the fiber or penton base. Three distinct patterns of lung response were observed on postnatal day (PD) 21: (i) emphysematous-like lesions, common to Ad5 overexposing RGD motifs; (ii) altered septation, representative of the wild-type capsid Ad5 lesion; (iii) absence of lung toxicity, shown by Ad5 vectors with fibers shortened to seven repeats. None of these patterns correlated with the degree of lung inflammation or gene transduction. In contrast, a more impaired elastogenesis associated with emphysema was preceded by a significantly increased level of activated caspase 3 on PD11. Moreover, the altered septation was associated with a persistent and significant increase in terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL)-positive alveolar septal cells on PD21. Our results underline the deleterious effects of Ad-induced apoptosis, which is not only responsible for limited transgene expression but also involved in lung development disorders.
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PMID:Toxicity of fiber- and penton base-modified adenovirus type 5 vectors on lung development in newborn rats. 1765 5

The de novo pathway of ceramide synthesis has been implicated in the pathogenesis of excessive lung apoptosis and murine emphysema. Intracellular and paracellular-generated ceramides may trigger apoptosis and propagate the death signals to neighboring cells, respectively. In this study we compared the sphingolipid signaling pathways triggered by the paracellular- versus intracellular-generated ceramides as they induce lung endothelial cell apoptosis, a process important in emphysema development. Intermediate-chain length (C(8:0)) extracellular ceramides, used as a surrogate of paracellular ceramides, triggered caspase-3 activation in primary mouse lung endothelial cells, similar to TNF-alpha-generated endogenous ceramides. Inhibitory siRNA against serine palmitoyl transferase subunit 1 but not acid sphingomyelinase inhibited both C(8:0) ceramide- and TNF-alpha (plus cycloheximide)-induced apoptosis, consistent with the requirement for activation of the de novo pathway of sphingolipid synthesis. Tandem mass spectrometry analysis detected increases in both relative and absolute levels of C(16:0) ceramide in response to C(8:0) and TNF-alpha treatments. These results implicate the de novo pathway of ceramide synthesis in the apoptotic effects of both paracellular ceramides and TNF-alpha-stimulated intracellular ceramides in primary lung endothelial cells. The serine palmitoyl synthase-regulated ceramides synthesis may contribute to the amplification of pulmonary vascular injury induced by excessive ceramides.
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PMID:Apoptotic sphingolipid signaling by ceramides in lung endothelial cells. 1819 2

Cigarette smoke, a major risk factor in emphysema, causes cell death by incompletely understood mechanisms. Death-inducing signaling complex (DISC) formation is an initial event in Fas-mediated apoptosis. We demonstrate that cigarette smoke extract (CSE) induces DISC formation in human lung fibroblasts (MRC-5) and promotes DISC trafficking from the Golgi complex to membrane lipid rafts. We demonstrate a novel role of protein kinase C (PKC) in the regulation of DISC formation and trafficking. The PKC isoforms, PKCalpha, zeta, epsilon, and eta, were activated by CSE exposure. Overexpression of wild-type PKCalpha inhibited, while PKCzeta promoted, CSE-induced cell death. Dominant-negative (dn)PKCzeta protected against CSE-induced cell death by suppressing DISC formation and caspase-3 activation, while dnPKCalpha enhanced cell death by promoting these events. DISC formation was augmented by wortmannin, an inhibitor of PI3K. CSE-induced Akt phosphorylation was reduced by dnPKCalpha, but it was increased by dnPKCzeta. Expression of PKCalpha in vivo inhibited DISC formation, caspase-3/8 activation, lung injury, and cell death after prolonged cigarette smoke exposure, whereas expression of PKCzeta promoted caspase-3 activation. In conclusion, CSE-induced DISC formation is differentially regulated by PKCalpha and PKCzeta via the PI3K/Akt pathway. These results suggest that modulation of PKC may have therapeutic potential in the prevention of smoke-related lung injury.
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PMID:Protein kinase C alpha and zeta differentially regulate death-inducing signaling complex formation in cigarette smoke extract-induced apoptosis. 1835 90

Lipopolysaccharide (LPS) is ubiquitous in the environment. Recent epidemiologic data suggest that occupational exposure to inhaled LPS can contribute to the progression of chronic obstructive pulmonary disease. To address the hypothesis that inhaled LPS can cause emphysema-like changes in mouse pulmonary parenchyma, we exposed C57BL/6 mice to aerosolized LPS daily for 4 weeks. By 3 days after the end of the 4-week exposure, LPS-exposed mice developed enlarged airspaces that persisted in the 4-week recovered mice. These architectural alterations in the lung are associated with enhanced type I, III, and IV procollagen mRNA as well as elevated levels of matrix metalloproteinase (MMP)-9 mRNA, all of which have been previously associated with human emphysema. Interestingly, MMP-9-deficient mice were not protected from the development of LPS-induced emphysema. However, we demonstrate that LPS-induced airspace enlargement was associated with apoptosis within the lung parenchyma, as shown by prominent TUNEL staining and elevated cleaved caspase 3 immunoreactivity. Antineutrophil antiserum-treated mice were partially protected from the lung destruction caused by chronic inhalation of LPS. Taken together, these findings demonstrate that inhaled LPS can cause neutrophil-dependent emphysematous changes in lung architecture that are associated with apoptosis and that these changes may be occurring through mechanisms different than those induced by cigarette smoke.
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PMID:Chronic LPS inhalation causes emphysema-like changes in mouse lung that are associated with apoptosis. 1853 52

Chronic inflammation, imbalance of proteolytic and anti-proteolytic activities, oxidative stress, and apoptosis of lung structural cells contribute to the pathogenesis of COPD. Prostacyclin protects cells against apoptosis, has anti-inflammatory properties, partially prevents cigarette smoke extract (CSE)-induced apoptosis of the pulmonary endothelium, and thus may be relevant in the pathogenesis of emphysema. We determined whether a synthetic stable prostacyclin analog, beraprost sodium (BPS), attenuates the development of CSE-induced emphysema and elucidated the molecular mechanisms involved in its effect. Sprague-Dawley rats were treated with BPS and injected with CSE once a week for 3 wk. We measured the DNA damage of cells, the expression of caspase-3, and the activity of matrix metalloproteinase (MMP)-2 and MMP-9. We also analyzed TNFalpha and IL-1beta concentrations and the serum antioxidant activity. BPS prevented the development of CSE-induced emphysema, resulting in significant attenuation in alveolar enlargement and pulmonary parenchymal destruction. BPS inhibited pulmonary apoptosis and induction of MMP-2 and MMP-9 activity. Moreover, the protective effect of BPS was associated with a reduction of the expression of proinflammatory cytokines including TNFalpha and IL-1beta and a normalized biological oxidant activity. BPS introduces all these events, probably by activating cAMP signaling through acting specific prostacyclin receptors. In conclusion, BPS protects against the development of CSE-induced emphysema by attenuating apoptosis, inhibiting proteolytic enzyme activity, reducing inflammatory cytokine levels, and augmenting antioxidant activity. BPS may potentially represent a new therapeutic option in the prevention of emphysema in humans in prospect.
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PMID:Protective effect of beraprost sodium, a stable prostacyclin analog, in the development of cigarette smoke extract-induced emphysema. 1920 16

Emphysema and bronchitis are major components of chronic obstructive pulmonary disease (COPD). Pleomorphic adenoma gene like-2 (PLAGL2), a zinc finger DNA-binding protein, is a transcription factor of the surfactant protein C (SP-C) promoter. Using an inducible transgenic mouse model, PLAGL2 and SP-C were ectopically expressed in lung epithelial cells of terminal bronchiole including the bronchoalveolar duct junction (BADJ), where only few cells express both genes under normal conditions. Ectopic PLAGL2 was also expressed in alveolar type II cells of induced mice. The overexpression of PLAGL2 was associated with the development of air space enlargement in the distal airways of adult mice. Defective alveolar septa and degraded airway fragments were found in the lesions of emphysematous lungs, indicating chronic airway destruction. Female mice were particularly sensitive to the effects of PLAGL2 overexpression with more dramatic emphysematous changes compared with male mice. In addition, analysis of the respiratory system mechanics in the mice indicated that the induction of PLAGL2 resulted in a significant increase in respiratory system compliance. Both TdT-mediated dUTP nick end labeling (TUNEL) and caspase-3 analyses showed that apoptotic activity was increased in epithelial cells within the emphysematous lesions as well as at the BADJ. Our results indicate that increased cell injury and/or death could be caused directly by the upregulation of PLAGL2 downstream gene, bNip3, a preapoptotic molecule that dimerizes with Bcl-2, or indirectly by the aberrant expression of SP-C-induced endoplasmic reticulum stress in epithelial cells. Finally, increased expression of PLAGL2 in alveolar epithelial cells correlated with the development of emphysema in the lung of COPD patients. In summary, our data from both animal and human studies support a novel pathogenic role of PLAGL2 in pulmonary emphysema, a critical aspect of severe COPD.
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PMID:PLAGL2 expression-induced lung epithelium damages at bronchiolar alveolar duct junction in emphysema: bNip3- and SP-C-associated cell death/injury activity. 1957 21

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