UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ubiquitously expressed mu- and m-calpain proteases consist of 80-kDa catalytic subunits encoded by the Capn1 and Capn2 genes, respectively, and a common 28-kDa regulatory subunit encoded by the calpain small 1 (Capns1) gene. The mu- and m-calpain proteases have been implicated in both pro-or anti-apoptotic functions. We have found that Capns1 depletion is coupled to increased sensitivity to increased sensitivity to apoptosis triggered by a number of autophagy-inducing stimuli in mammalian cells. Therefore we investigated the involvement of calpains in autophagy using MEFs derived from Capns1 knockout mice and Capns1 depleted human cells as model systems. We found that autophagy is impaired in Capns1 deficient cells by immunostaining of the endogenous autophagosome marker LC3 and electron microscopy experiments. Accordingly, the enhancement of lysosomal activity and long-lived proteins degradation, normally occurring upon starvation, are also reduced. In Capns1 depleted cells ectopic LC3 accumulates in early endosome-like vesicles that might represent a salvage pathway for protein degradation when autophagy is defective. Calpain represents a promising target for cancer therapy since its activity is tightly linked to tumor progression. Indeed it is elevated during transformation, it is required for autophagy and survival of cancer cells and plays a key role in metastatic cell migration and angiogenesis.
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PMID:The calpain system as a modulator of stress/damage response. 1726 74

Autophagy is the unique, regulated mechanism for the degradation of organelles. This intracellular process acts as a prosurvival pathway during cell starvation or stress and is also involved in cellular response against specific bacterial infections. Vibrio cholerae is a noninvasive intestinal pathogen that has been studied extensively as the causative agent of the human disease cholera. V. cholerae illness is produced primarily through the expression of a potent toxin (cholera toxin) within the human intestine. Besides cholera toxin, this bacterium secretes a hemolytic exotoxin termed V. cholerae cytolysin (VCC) that causes extensive vacuolation in epithelial cells. In this work, we explored the relationship between the vacuolation caused by VCC and the autophagic pathway. Treatment of cells with VCC increased the punctate distribution of LC3, a feature indicative of autophagosome formation. Moreover, VCC-induced vacuoles colocalized with LC3 in several cell lines, including human intestinal Caco-2 cells, indicating the interaction of the large vacuoles with autophagic vesicles. Electron microscopy analysis confirmed that the vacuoles caused by VCC presented hallmarks of autophagosomes. Additionally, biochemical evidence demonstrated the degradative nature of the VCC-generated vacuoles. Interestingly, autophagy inhibition resulted in decreased survival of Caco-2 cells upon VCC intoxication. Also, VCC failed to induce vacuolization in Atg5-/- cells, and the survival response of these cells against the toxin was dramatically impaired. These results demonstrate that autophagy acts as a cellular defense pathway against secreted bacterial toxins.
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PMID:Protective role of autophagy against Vibrio cholerae cytolysin, a pore-forming toxin from V. cholerae. 1740 97

Lysophosphatidic acid (LPA) is a platelet-enriched bioactive lysophospholipid. By binding to its cognitive G protein-coupled receptors, which are encoded by endothelial differentiation genes (edgs), LPA regulates various cellular activities including proliferation, survival, and migration. Currently, little is known about the influences of LPA on autophagy, a pivotal mechanism for cell survival during conditions of starvation. Herein we present data indicating that LPA attenuates starvation-induced autophagy, by monitoring the percentage of LC3-II, an autophagy indicator, in human prostate PC-3 cells. In addition, by using cells stably expressing EGFP-LC3, LPA is shown to inhibit the formation of autophagosomes in serum-starved conditions. Our results suggest that in these conditions, LPA inhibits autophagy, which might facilitate early cancer development.
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PMID:Lysophosphatidic acid inhibits serum deprivation-induced autophagy in human prostate cancer PC-3 cells. 1732 59

Skeletal muscle fibers show a high level of constitutive and starvation-induced macroautophagy. Sporadic Inclusion Body Myositis (sIBM) is the most common acquired skeletal muscle disease in patients above the age of 50 years and is characterized by inflammation and intracellular accumulation of aggregate-prone proteins such as amyloid precursor protein (APP)/beta-amyloid, hyperphosphorylated tau, and presenilin. In a recent study, we found that muscle fibers of sIBM patients show increased frequencies of Atg8/LC3(+) autophagosomes and that intracellular APP/beta-amyloid colocalized with Atg8/LC3 in degenerating fibers. Colocalization of APP/beta-amyloid with LC3(+) autophagosomes was further associated with upregulation of major histocompatibility complex (MHC) class I and class II molecules and T cell infiltration. These findings indicate that APP/beta-amyloid is a substrate for autophagy in skeletal muscle fibers and suggest that degradation of aggregate-prone proteins via macroautophagy can be linked with both immune-mediated and degenerative tissue damage. A better understanding of this pathway in skeletal muscle and in the inflammatory environment of sIBM might provide a rationale for novel therapeutic strategies targeting pathogenic protein aggregation.
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PMID:Macroautophagy as a pathomechanism in sporadic inclusion body myositis. 1746 25

Atg4C/autophagin-3 is a member of a family of cysteine proteinases proposed to be involved in the processing and delipidation of the mammalian orthologues of yeast Atg8, an essential component of an ubiquitin-like modification system required for execution of autophagy. To date, the in vivo role of the different members of this family of proteinases remains unclear. To gain further insights into the functional relevance of Atg4 orthologues, we have generated mutant mice deficient in Atg4C/autophagin-3. These mice are viable and fertile and do not display any obvious abnormalities, indicating that they are able to develop the autophagic response required during the early neonatal period. However, Atg4C-/--starved mice show a decreased autophagic activity in the diaphragm as assessed by immunoblotting studies and by fluorescence microscopic analysis of samples from Atg4C-/- GFP-LC3 transgenic mice. In addition, animals deficient in Atg4C show an increased susceptibility to develop fibrosarcomas induced by chemical carcinogens. Based on these results, we propose that Atg4C is not essential for autophagy development under normal conditions but is required for a proper autophagic response under stressful conditions such as prolonged starvation. We also propose that this enzyme could play an in vivo role in events associated with tumor progression.
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PMID:Tissue-specific autophagy alterations and increased tumorigenesis in mice deficient in Atg4C/autophagin-3. 3080 6

Programmed cell death can be divided into apoptosis and autophagic cell death. We describe the biological activities of TMEM166 (transmembrane protein 166, also known as FLJ13391), which is a novel lysosome and endoplasmic reticulum-associated membrane protein containing a putative TM domain. Overexpression of TMEM166 markedly inhibited colony formation in HeLa cells. Simultaneously, typical morphological characteristics consistent with autophagy were observed by transmission electron microscopy, including extensive autophagic vacuolization and enclosure of cell organelles by double-membrane structures. Further experiments confirmed that the overexpression of TMEM166 increased the punctate distribution of MDC staining and GFP-LC3 in HeLa cells, as well as the LC3-II/LC3-I proportion. On the other hand, TMEM166-transfected HeLa and 293T cells succumbed to cell death with hallmarks of apoptosis including phosphatidylserine externalization, loss of mitochondrial transmembrane potential, caspase activation and chromatin condensation. Kinetic analysis revealed that the appearance of autophagy-related biochemical parameters preceded the nuclear changes typical of apoptosis in TMEM166-transfected HeLa cells. Suppression of TMEM166 expression by small interference RNA inhibited starvation-induced autophagy in HeLa cells. These findings show for the first time that TMEM166 is a novel regulator involved in both autophagy and apoptosis.
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PMID:TMEM166, a novel transmembrane protein, regulates cell autophagy and apoptosis. 1749 4

Autophagy is a vital response to nutrient starvation. Here, we screened a kinase-specific siRNA library using an autophagy assay in human embryonic kidney 293 cells that measures lipidation of the marker protein GFP-LC3 following amino acid starvation. This screen identified ULK1 in addition to other novel candidates that could be confirmed with multiple siRNAs. Knockdown of ULK1, but not the related kinase ULK2, inhibited the autophagic response. Also, ULK1 knockdown inhibited rapamycin-induced autophagy consistent with a role downstream of mTOR. Overexpression of ULK1 inhibited autophagy and this inhibition was independent of its kinase activity. Deletion of the PDZ domain-binding Val-Tyr-Ala motif at the ULK1 C terminus generated a more potent dominant-negative protein. Further deletions revealed that the minimal ULK1 dominant-negative region could be mapped to residues 1-351. Full-length ULK1 localized to cytoplasmic structures, some of which were GFP-LC3-positive, and this localization required the conserved C-terminal domain. In contrast, ULK1-(1-351) was diffuse in the cytoplasm. These experiments reveal at least two domains in ULK1 which likely function via unique sets of effectors to regulate autophagy.
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PMID:siRNA screening of the kinome identifies ULK1 as a multidomain modulator of autophagy. 1759 59

The oxidized low-density lipoprotein (oxLDL)-dependent activation of the lectin-like oxLDL receptor-1 (LOX-1) triggers apoptosis in vascular cells and appears to be involved in atherosclerosis. Autophagy might be an alternate to apoptosis in endothelial cells. The EA.hy926 endothelial cell line has been reported to undergo necrosis under oxLDL stimulation. For this reason, we studied the expression of LOX-1 and its oxLDL-dependent function in EA.hy926 cells under serum starvation. Untreated and oxLDL-treated cells expressed the LOX-1 protein at similar levels 6h after starvation. After 24h without oxLDL and with native LDL (nLDL), statistically significant higher levels were found in LOX-1 than in the oxLDL-treated probes. The oxLDL cultures with low LOX-1 expression displayed stronger features of autophagy than those with nLDL as there were remodelling of actin filaments, disrupture of adherens junctions (immunofluorescence staining), and autophagosomes with the characteristic double membrane at the ultrastructural level. For the advanced oxLDL exposure times (18 and 24 h), autophagic vacuoles/autophagolysosomes were morphologically identified accompanied by a decrease in lysosomes. The autophagosome marker protein MAP LC3-II (Western blotting) was significantly augmented 6 and 18 h after oxLDL treatment compared with cultures treated with nLDL and medium alone. Signs of apoptosis were undetectable in cultures under oxLDL exposure, yet present under staurosporin (apoptosis inducer), i.e. presence of apoptotic bodies and cleaved caspase 3. We conclude that serum starvation upregulates LOX-1 in EA.hy926 cells, whereas the additional oxLDL treatment downregulates the receptor and intensifies autophagy probably by increase in oxidative stress.
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PMID:No upregulation of lectin-like oxidized low-density lipoprotein receptor-1 in serum-deprived EA.hy926 endothelial cells under oxLDL exposure, but increase in autophagy. 1764 51

During Chinese hamster ovary (CHO) cell culture for foreign protein production, cells are subjected to programmed cell death (PCD). A rapid death at the end of batch culture is accelerated by nutrient starvation. In this study, type II PCD, autophagy, as well as type I PCD, apoptosis, was found to take place in two antibody-producing CHO cell lines, Ab1 and Ab2, toward the end of batch culture when glucose and glutamine were limiting. The evidence of autophagy was observed from the accumulation of a common autophagic marker, a 16 kDa form of LC3-II during batch culture. Moreover, a significant percentage of the total cells (80% of Ab1 cells and 86% of Ab2 cells) showed autophagic vacuoles containing cytoplasmic material by transmission electron microscopy. An increased level of PARP cleavage and chromosomal DNA fragmentation supported that starvation-induced apoptosis also occurred simultaneously with autophagy.
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PMID:Nutrient deprivation induces autophagy as well as apoptosis in Chinese hamster ovary cell culture. 1768 Jun 85

Autophagy is a homeostatic process for recycling of proteins and organelles, induced by nutrient deprivation and regulated by oxygen radicals. Whether autophagy is induced after traumatic brain injury (TBI) is not established. We show that TBI in mice results in increased ultrastructural and biochemical evidence of autophagy. Specifically, autophagosomal vacuoles and secondary lysosomes were frequently observed in cell processes and axons in ipsilateral brain regions by electron microscopy, and lipidated microtubule-associated protein light chain 3, a biochemical footprint of autophagy referred to as LC3 II, was increased at 2 and 24 h after TBI versus controls. Since oxygen radicals are believed to be important in the pathogenesis of TBI and are essential for the process of starvation-induced autophagy in vitro, we also sought to determine if treatment with the antioxidant gamma-glutamylcysteinyl ethyl ester (GCEE) reduced autophagy and influenced neurologic outcome after TBI in mice. Treatment with GCEE reduced oxidative stress and partially reduced LC3 II formation in injured brain at 24 h after TBI versus vehicle. Treatment with GCEE also led to partial improvement in behavioral and histologic outcome versus vehicle. Taken together, these data show that autophagy occurs after experimental TBI, and that oxidative stress contributes to overall neuropathology, in part by initiating or influencing autophagy.
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PMID:Autophagy is increased after traumatic brain injury in mice and is partially inhibited by the antioxidant gamma-glutamylcysteinyl ethyl ester. 1778 51

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