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)

Autophagy is involved in cellular clearance of aggregate-prone proteins, thereby having a cytoprotective function. Studies in yeast have shown that the PI 3-kinase Vps34 and its regulatory protein kinase Vps15 are important for autophagy, but the possible involvement of these proteins in autophagy in a multicellular animal has not been addressed genetically. Here, we have created a Drosophila deletion mutant of vps15 and studied its role in autophagy and aggregate clearance. Homozygous Deltavps15 Drosophila died at the early L3 larval stage. Using GFP-Atg8a as an autophagic marker, we employed fluorescence microscopy to demonstrate that fat bodies of wild type Drosophila larvae accumulated autophagic structures upon starvation whereas vps15 fat bodies showed no such response. Likewise, electron microscopy revealed starvation-induced autophagy in gut cells from wild type but not Deltavps15 larvae. Fluorescence microscopy showed that Deltavps15 mutant tissues accumulated profiles that were positive for ubiquitin and Ref(2)P, the Drosophila homolog of the sequestosome marker SQSTM1/p62. Biochemical fractionation and Western blotting showed that these structures were partially detergent insoluble, and immuno-electron microscopy further demonstrated the presence of Ref(2)P positive membrane free protein aggregates. These results provide the first genetic evidence for a function of Vps15 in autophagy in multicellular organisms and suggest that the Vps15-containing PI 3-kinase complex may play an important role in clearance of protein aggregates.
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PMID:The PI 3-kinase regulator Vps15 is required for autophagic clearance of protein aggregates. 1832 40

Earlier, we reported that the transcriptional repressor promyelocytic leukemia zinc-finger protein (PLZF) is sumoylated at position K242, and the sumoylation regulated its biological function. Here, we show that the sumoylation site can be modified by ubiquitin. The stability and nuclear localization of PLZF were regulated by the antagonistic relationship between sumoylation and ubiquitination. We observed the antagonistic effects of ubiquitin and SUMO-1 on PLZF under oxidative stress induced by serum deprivation. Thus, the choice between modification of PLZF by SUMO or ubiquitin was determined by the intracellular level of ROS, which was generated by serum deprivation that inactivated the SUMO-conjugating enzymes Uba2 and Ubc9, and resulted in decrease of sumoylation. The ubiquitination was increased under these conditions. The expression of BID, a known transcriptional target protein of PLZF, was decreased, and the consequent apoptosis was induced by the ROS generated during serum starvation. On the basis of these results, we propose that PLZF post-translational modification is controlled by intracellular ROS, and the biological function of PLZF is regulated by sumoylation and ubiquitination.
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PMID:Redox-mediated modification of PLZF by SUMO-1 and ubiquitin. 1834 65

Autophagy is a major intracellular catabolic pathway that takes part in diverse biological events including response to amino acid starvation, protein and organelle turnover, development, aging, pathogen infection and cell death. However, experimental methods to monitor this process in mammalian cells are limited due to lack of autophagic markers. Recently, MAP1-LC3 (LC3), a mammalian homologue of the ubiquitin-like (UBL) protein Atg8, was shown to selectively incorporate into autophagosome, thus serving as a unique bona fide marker of autophagosomes in mammals. However, current methods to quantify autophagic activity using LC3 are time-consuming, labor-intensive and require much experience for accurate interpretation. Here we took advantage of the Fluorescence Activated Cell Sorter (FACS) to quantify the turnover of GFP-LC3 as an assay to measure autophagic activity in living mammalian cells. We showed that during induction of autophagy by rapamycin, tunicamycin or starvation to amino acids, fluorescence intensity of GFP-LC3 is reduced in a time-dependent manner. This decrease occurred specifically in wild type LC3, but not in mutant LC3(G120A), and was inhibited by autophagic or lysosomal inhibitors, indicating that this signal is specific to selective autophagy-mediated delivery of LC3 into lysosomes. By utilizing this assay, we tested the minimal nutrient requirement for the autophagic process and determined its induction by deprivation of specific single amino acids. We conclude that this approach can be successfully applied to different cell-lines as a reliable and simple method to quantify autophagic activity in living mammalian cells.
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PMID:Utilizing flow cytometry to monitor autophagy in living mammalian cells. 1837 37

Eukaryotic cells use autophagy and the ubiquitin-proteasome system (UPS) as their major protein degradation pathways. Whereas the UPS is required for the rapid degradation of proteins when fast adaptation is needed, autophagy pathways selectively remove protein aggregates and damaged or excess organelles. However, little is known about the targets and mechanisms that provide specificity to this process. Here we show that mature ribosomes are rapidly degraded by autophagy upon nutrient starvation in Saccharomyces cerevisiae. Surprisingly, this degradation not only occurs by a non-selective mechanism, but also involves a novel type of selective autophagy, which we term 'ribophagy'. A genetic screen revealed that selective degradation of ribosomes requires catalytic activity of the Ubp3p/Bre5p ubiquitin protease. Although ubp3Delta and bre5Delta cells strongly accumulate 60S ribosomal particles upon starvation, they are proficient in starvation sensing and in general trafficking and autophagy pathways. Moreover, ubiquitination of several ribosomal subunits and/or ribosome-associated proteins was specifically enriched in ubp3Delta cells, suggesting that the regulation of ribophagy by ubiquitination may be direct. Interestingly, ubp3Delta cells are sensitive to rapamycin and nutrient starvation, implying that selective degradation of ribosomes is functionally important in vivo. Taken together, our results suggest a link between ubiquitination and the regulated degradation of mature ribosomes by autophagy.
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PMID:Mature ribosomes are selectively degraded upon starvation by an autophagy pathway requiring the Ubp3p/Bre5p ubiquitin protease. 1845 28

Atg12 and Atg8/LC3 are two ubiquitin-like proteins involved in autophagosome formation. They show several similar characteristics just like brothers evolved from the same ancestor, however, their functional relationship has been obscure. We recently reported that a super protein complex, the Atg16L complex, which consists of multiple Atg12-Atg5 conjugates and the associating protein Atg16L, has an E3-like role in the LC3 lipidation reaction(1). The activated intermediate, LC3-Atg3 (E2) is recruited to the site where the lipidation takes place by virtue of the Atg16L complex. Thus, these two closely resembling systems are connected also in terms of their functions. This finding will provide further important clues as to the origin of the autophagosome membrane, and how the process is regulated by starvation and PtdIns3P signals.
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PMID:The Ubi brothers reunited. 1839 92

Under various pathophysiological muscle-wasting conditions, such as diabetes and starvation, a family of ubiquitin ligases, including muscle-specific RING-finger protein 1 (MuRF1), are induced to target muscle proteins for degradation via ubiquitination. We have generated transgenic mouse lines over-expressing MuRF1 in a skeletal muscle-specific fashion (MuRF1-TG mice) in an attempt to identify the in vivo targets of MuRF1. MuRF1-TG lines were viable, had normal fertility and normal muscle weights at eight weeks of age. Comparison of quadriceps from MuRF1-TG and wild type mice did not reveal elevated multi-ubiquitination of myosin as observed in human patients with muscle wasting. Instead, MuRF1-TG mice expressed lower levels of pyruvate dehydrogenase (PDH), a mitochondrial key enzyme in charge of glycolysis, and of its regulator PDK2. Furthermore, yeast two-hybrid interaction studies demonstrated the interaction of MuRF1 with PDH, PDK2, PDK4, PKM2 (all participating in glycolysis) and with phosphorylase beta (PYGM) and glycogenin (both regulating glycogen metabolism). Consistent with the idea that MuRF1 may regulate carbohydrate metabolism, MuRF1-TG mice had twofold elevated insulin blood levels and lower hepatic glycogen contents. To further examine MuRF1's role for systemic carbohydrate regulation, we performed glucose tolerance tests (GTT) in wild type and MuRF1-TG mice. During GTT, MuRF1-TG mice developed striking hyperinsulinaemia and hepatic glycogen stores, that were depleted at basal levels, became rapidly replenished. Taken together, our data demonstrate that MuRF1 expression in skeletal muscle re-directs glycogen synthesis to the liver and stimulates pancreatic insulin secretion, thereby providing a regulatory feedback loop that connects skeletal muscle metabolism with the liver and the pancreas during metabolic stress.
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PMID:MuRF1-dependent regulation of systemic carbohydrate metabolism as revealed from transgenic mouse studies. 1846 20

Under nutrient limiting conditions, cytoplasmic components are randomly sequestered into double-membrane vesicles called autophagosomes and delivered to the lysosome/vacuole for degradation and recycling. In the last few years, however, it has been observed that several cytoplasmic components such as organelles, pathogens or specific protein complexes can also be selectively targeted for degradation by autophagy-related pathways (reviewed in ref. 1). We have recently shown that in S. cerevisiae, mature ribosomes are subject to such selective degradation by autophagy under starvation conditions, in a process that we termed 'ribophagy.'(2) By genetic screening, we found that selective degradation of 60S large ribosomal subunits depends on the ubiquitin protease Ubp3 and its cofactor Bre5, implying that ribophagy is regulated by ubiquitin-dependent steps. Interestingly, several ubiquitinated proteins accumulate in ribosome fractions isolated from ubp3Delta cells, suggesting that the regulation of ribophagy by ubiquitin may be direct. Here we present data on a potential role of the ubiquitin ligase Rsp5 as a positive regulator of ribophagy, and discuss the possible involvement of ubiquitin as a signaling molecule in this process.
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PMID:Is the Rsp5 ubiquitin ligase involved in the regulation of ribophagy? 1867 Jan 91

Eicosapentaenoic acid (EPA) has been shown to attenuate muscle atrophy in cancer, starvation and hyperthermia by downregulating the increased expression of the ubiquitin-proteasome proteolytic pathway leading to a reduction in protein degradation. In the current study EPA (0.5 g/kg) administered to septic mice completely attenuated the increased protein degradation in skeletal muscle by preventing the increase in both gene expression and protein concentration of the alpha- and beta-subunits of the 20S proteasome, as well as functional activity of the proteasome, as measured by the 'chymotrypsin-like' enzyme activity. These results suggest that muscle protein catabolism in sepsis is mediated by the same intracellular signalling pathways as found in other catabolic conditions.
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PMID:Downregulation of muscle protein degradation in sepsis by eicosapentaenoic acid (EPA). 1870 14

Phosphorus (P), an essential element for plants, is one of the most limiting nutrients for plant growth. A few transcription factor (TF) genes involved in P-starvation signalling have been characterized for Arabidopsis thaliana and rice. Crop production of common bean (Phaseolus vulgaris L.), the most important legume for human consumption, is often limited by low P in the soil. Despite its agronomic importance, nothing is known about transcriptional regulation in P-deficient bean plants. We functionally characterized the P-deficiency-induced MYB TF TC3604 (Dana Farber Cancer Institute, Common Bean Gene Index v.2.0), ortholog to AtPHR1 (PvPHR1). For its study, we applied RNAi technology in bean composite plants. PvPHR1 is a positive regulator of genes implicated in P transport, remobilization and homeostasis. Although there are no reports on the regulatory roles of microRNAs (miRNA) in bean, we demonstrated that PvmiR399 is an essential component of the PvPHR1 signalling pathway. The analysis of DICER-like1 (PvDCL1) silenced bean composite plants suppressed for accumulation of PvmiR399 and other miRNAs suggested that miR399 is a negative regulator of the ubiquitin E2 conjugase: PvPHO2 expression. Our results set the basis for understanding the signalling for P-starvation responses in common bean and may contribute to crop improvement.
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PMID:Essential role of MYB transcription factor: PvPHR1 and microRNA: PvmiR399 in phosphorus-deficiency signalling in common bean roots. 1877 75

Degradation processes are important for optimal functioning of eukaryotic cells. The two major protein degradation pathways in eukaryotes are the ubiquitin-proteasome pathway and autophagy. This contribution focuses on autophagy. This process is important for survival of cells during nitrogen starvation conditions but also has a house keeping function in removing exhausted, redundant or unwanted cellular components. We present an overview of the molecular mechanism involved in three major autophagy pathways: chaperone mediated autophagy, microautophagy and macroautophagy. Various recent reports indicate that autophagy plays a crucial role in human health and disease. Examples are presented of lysosomal storage diseases and the role of autophagy in cancer, neurodegenerative diseases, defense against pathogens and cell death.
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PMID:Autophagy: principles and significance in health and disease. 1902 77

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