UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

C-Jun expression in the hippocampus of gerbils subjected to 5 min of transient forebrain ischemia was examined with immunohistochemistry and western blotting using two c-Jun antibodies raised against two different amino acid sequences. Both c-Jun antibodies showed increased immunoreactivity at 6 and 12 h postischemia in the stratum pyramidale of CA3 and granule cell layer of the dentate gyrus. No immunostaining was detected in CA1 up to the 7th day. Western blots showed increased c-Jun immunoreactivity at 6 and 12 h. However, the antibody c-Jun (AB-1) detected a single band at about p39 in normal and post-ischemic states, whereas the antibody c-Jun/AP-1 (N) recognized a band at about p39 in normal and post-ischemic gerbils, and a p62 phosphorylated double-band at 6 and 12 h following ischemia. In addition, increased c-Jun N-terminal kinase-1 (JNK-1) expression was observed on western blots at 6 and 12 h postischemia. These results suggest that different c-Jun-related responses, some of which probably indicate post-translational changes of the c-Jun protein, occur in the hippocampus of the gerbil following transient forebrain ischemia.
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PMID:Transient forebrain ischemia in the adult gerbil is associated with a complex c-Jun response. 926 13

The ubiquitin proteasome system (UPS) plays a crucial role in biological processes integral to the development of the cardiovascular system and cardiovascular diseases. The UPS prototypically recognizes specific protein substrates and places polyubiquitin chains on them for subsequent destruction by the proteasome. This system is in place to degrade not only misfolded and damaged proteins, but is essential also in regulating a host of cell signaling pathways involved in proliferation, adaptation to stress, regulation of cell size, and cell death. During the development of the cardiovascular system, the UPS regulates cell signaling by modifying transcription factors, receptors, and structural proteins. Later, in the event of cardiovascular diseases as diverse as atherosclerosis, cardiac hypertrophy, and ischemia/reperfusion injury, ubiquitin ligases and the proteasome are implicated in protecting and exacerbating clinical outcomes. However, when misfolded and damaged proteins are ubiquitinated by the UPS, their destruction by the proteasome is not always possible because of their aggregated confirmations. Recent studies have discovered how these ubiquitinated misfolded proteins can be destroyed by alternative "specific" mechanisms. The cytosolic receptors p62, NBR, and histone deacetylase 6 recognize aggregated ubiquitinated proteins and target them for autophagy in the process of "selective autophagy." Even the ubiquitination of multiple proteins within whole organelles that drive the more general macro-autophagy may be due, in part, to similar ubiquitin-driven mechanisms. In summary, the crosstalk between the UPS and autophagy highlight the pivotal and diverse roles the UPS plays in maintaining protein quality control and regulating cardiovascular development and disease.
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PMID:Sent to destroy: the ubiquitin proteasome system regulates cell signaling and protein quality control in cardiovascular development and disease. 2016 43

Several recent studies have showed that autophagy is involved in ischemic brain damage, but it may also play a pro-survival role in ischemic preconditioning. This study was taken to determine the role of autophagy in an animal model of cerebral ischemic preconditioning (IPC). Focal cerebral IPC was produced in rats by a brief ischemic insult followed by permanent focal ischemia (PFI) 24 h later using the suture occlusion technique. The rats were pretreated with intracerebral ventricle infusion of the autophagy inhibitors 3-methyladenine (3-MA) and bafliomycin A1 (Baf A1) or the autophagy inducer rapamycin to evaluate the contribution of autophagy to IPC-induced neuroprotection. The results from electron microscopic examinations and immunofluorescence showed that both IPC and PFI induced autophagy activation, but the extent and persistence of autophagy activation were varied. IPC treatment significantly reduced infarct volume, brain edema and motor deficits after subsequent PFI, whereas 3-MA and Baf A1 suppressed the neuroprotection induced by IPC. 3-MA pretreatment also significantly attenuated upregulation of LC3-II, beclin 1 and HSP70 and downregulation of p62. To further determine if autophagy induction is responsible for IPC-induced neuroprotection, rats were treated with rapamycin 24 h before the onset of PFI. The results showed that rapamycin reduced infarct volume, brain edema and motor deficits induced by PFI. Rapamycin pretreatment also increased the protein levels of LC3-II and beclin 1. These results demonstrate that autophagy activation during IPC offers a remarkable tolerance to a subsequent fatal ischemic insult, and IPC's neuroprotective effects can be mimicked by autophagy inducers.
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PMID:Autophagy activation is associated with neuroprotection in a rat model of focal cerebral ischemic preconditioning. 2040 Aug 54

Based on growing evidence linking autophagy to preconditioning, we tested the hypothesis that autophagy is necessary for cardioprotection conferred by ischemic preconditioning (IPC). We induced IPC with three cycles of 5 min regional ischemia alternating with 5 min reperfusion and assessed the induction of autophagy in mCherry-LC3 transgenic mice by imaging of fluorescent autophagosomes in cryosections. We found a rapid and significant increase in the number of autophagosomes in the risk zone of the preconditioned hearts. In Langendorff-perfused hearts subjected to an IPC protocol of 3 x 5 min ischemia, we also observed an increase in autophagy within 10 min, as assessed by Western blotting for p62 and cadaverine dye binding. To establish the role of autophagy in IPC cardioprotection, we inhibited autophagy with Tat-ATG5(K130R), a dominant negative mutation of the autophagy protein Atg5. Cardioprotection by IPC was reduced in rat hearts perfused with recombinant Tat-ATG5(K130R). To extend the potential significance of autophagy in cardioprotection, we also assessed three structurally unrelated cardioprotective agents--UTP, diazoxide, and ranolazine--for their ability to induce autophagy in HL-1 cells. We found that all three agents induced autophagy; inhibition of autophagy abolished their protective effect. Taken together, these findings establish autophagy as an end-effector in ischemic and pharmacologic preconditioning.
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PMID:Autophagy induced by ischemic preconditioning is essential for cardioprotection. 2055 77

Damage-associated molecular pattern molecules (DAMPs) are cellularly derived molecules that can initiate and perpetuate immune responses following trauma, ischemia and other types of tissue damage in the absence of pathogenic infection. High mobility group box 1 (HMGB1) is a prototypical DAMP and is associated with the hallmarks of cancer. Recently we found that HMGB1 release after chemotherapy treatment is a critical regulator of autophagy and a potential drug target for therapeutic interventions in leukemia. Overexpression of HMGB1 by gene transfection rendered leukemia cells resistant to cell death; whereas depletion or inhibition of HMGB1 and autophagy by RNA interference or pharmacological inhibitors increased the sensitivity of leukemia cells to chemotherapeutic drugs. HMGB1 release sustains autophagy as assessed by microtubule-associated protein 1 light chain 3 (LC3) lipidation, redistribution of LC3 into cytoplasmic puncta, degradation of p62 and accumulation of autophagosomes and autolysosomes. Moreover, these data suggest a role for HMGB1 in the regulation of autophagy through the PI3KC3-MEKERK: pathway, supporting the notion that HMGB1-induced autophagy promotes tumor resistance to chemotherapy.
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PMID:DAMP-mediated autophagy contributes to drug resistance. 2106 41

Autophagy-dependent mitochondrial turnover in response to cellular stress is necessary for maintaining cellular homeostasis. However, the mechanisms that govern the selective targeting of damaged mitochondria are poorly understood. Parkin, an E3 ubiquitin ligase, has been shown to be essential for the selective clearance of damaged mitochondria. Parkin is expressed in the heart, yet its function has not been investigated in the context of cardioprotection. We previously reported that autophagy is required for cardioprotection by ischemic preconditioning (IPC). In the present study, we used simulated ischemia (sI) in vitro and IPC of hearts to investigate the role of Parkin in mediating cardioprotection ex vivo and in vivo. In HL-1 cells, sI induced Parkin translocation to mitochondria and mitochondrial elimination. IPC induced Parkin translocation to mitochondria in Langendorff-perfused rat hearts and in vivo in mice subjected to regional IPC. Mitochondrial depolarization with an uncoupling agent similarly induced Parkin translocation to mitochondria in cells and Langendorff-perfused rat hearts. Mitochondrial loss was blunted in Atg5-deficient cells, revealing the requirement for autophagy in mitochondrial elimination. Consistent with previous reports indicating a role for p62/SQSTM1 in mitophagy, we found that depletion of p62 attenuated mitophagy and exacerbated cell death in HL-1 cardiomyocytes subjected to sI. While wild type mice showed p62 translocation to mitochondria and an increase in ubiquitination, Parkin knockout mice exhibited attenuated IPC-induced p62 translocation to the mitochondria. Importantly, ablation of Parkin in mice abolished the cardioprotective effects of IPC. These results reveal for the first time the crucial role of Parkin and mitophagy in cardioprotection.
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PMID:Preconditioning involves selective mitophagy mediated by Parkin and p62/SQSTM1. 2168 34

Hypoxia-inducible pro-death protein BNIP3 (BCL-2/adenovirus E1B 19-kDa interacting protein 3), provokes mitochondrial permeabilization causing cardiomyocyte death in ischemia-reperfusion injury. Inhibition of autophagy accelerates BNIP3-induced cell death, by preventing removal of damaged mitochondria. We tested the hypothesis that stimulating autophagy will attenuate BNIP3-induced cardiomyocyte death. Neonatal rat cardiac myocytes (NRCMs) were adenovirally transduced with BNIP3 (or LacZ as control; at multiplicity of infection = 100); and autophagy was stimulated with rapamycin (100 nM). Cell death was assessed at 48 h. BNIP3 expression increased autophagosome abundance 8-fold and caused a 3.6-fold increase in cardiomyocyte death as compared with control. Rapamycin treatment of BNIP3-expressing cells led to further increase in autophagosome number without affecting cell death. BNIP3 expression led to accumulation of autophagosome-bound LC3-II and p62, and an increase in autophagosomes, but not autolysosomes (assessed with dual fluorescent mCherry-GFP-LC3 expression). BNIP3, but not the transmembrane deletion variant, interacted with LC3 and colocalized with mitochondria and lysosomes. However, BNIP3 did not target to lysosomes by subcellular fractionation, provoke lysosome permeabilization or alter lysosome pH. Rather, BNIP3-induced autophagy caused a decline in lysosome numbers with decreased expression of the lysosomal protein LAMP-1, indicating lysosome consumption and consequent autophagosome accumulation. Forced expression of transcription factor EB (TFEB) in BNIP3-expressing cells increased lysosome numbers, decreased autophagosomes and increased autolysosomes, prevented p62 accumulation, removed depolarized mitochondria and attenuated BNIP3-induced death. We conclude that BNIP3 expression induced autophagosome accumulation with lysosome consumption in cardiomyocytes. Forced expression of TFEB, a lysosomal biogenesis factor, restored autophagosome processing and attenuated BNIP3-induced cell death.
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PMID:Enhancing lysosome biogenesis attenuates BNIP3-induced cardiomyocyte death. 2230 6

Recent studies have suggested that autophagy plays a prosurvival role in ischemic preconditioning (IPC). This study was taken to assess the linkage between autophagy and endoplasmic reticulum (ER) stress during the process of IPC. The effects of IPC on ER stress and neuronal injury were determined by exposure of primary cultured murine cortical neurons to 30 min of OGD 24 h prior to a subsequent lethal OGD. The effects of IPC on ER stress and ischemic brain damage were evaluated in rats by a brief ischemic insult followed by permanent focal ischemia (PFI) 24 h later using the suture occlusion technique. The results showed that both IPC and lethal OGD increased the LC3-II expression and decreased p62 protein levels, but the extent of autophagy activation was varied. IPC treatment ameliorated OGD-induced cell damage in cultured cortical neurons, whereas 3-MA (5-20 mM) and bafilomycin A 1 (75-150 nM) suppressed the neuroprotection induced by IPC. 3-MA, at the dose blocking autophagy, significantly inhibited IPC-induced HSP70, HSP60 and GRP78 upregulation; meanwhile, it also aggregated the ER stress and increased activated caspase-12, caspase-3 and CHOP protein levels both in vitro and in vivo models. The ER stress inhibitor Sal (75 pmol) recovered IPC-induced neuroprotection in the presence of 3-MA. Rapamycin 50-200 nM in vitro and 35 pmol in vivo 24 h before the onset of lethal ischemia reduced ER stress and ischemia-induced neuronal damage. These results demonstrated that pre-activation of autophagy by ischemic preconditioning can boost endogenous defense mechanisms to upregulate molecular chaperones, and hence reduce excessive ER stress during fatal ischemia.
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PMID:Autophagy regulates endoplasmic reticulum stress in ischemic preconditioning. 2236 85

Hepatocellular carcinoma (HCC) is the most common primary malignancy found in the liver. Autophagy is the intracellular bulk degradation process for long-lived proteins and dysfunctional organelles. In this study, we report that autophagy plays a role in HCC cell proliferation in response to ischemia-hypoxia (I/H) and reperfusion and discuss its potential therapeutic implications. By establishing a simulated model in cultured HepG2 (p53 wild-type) and Hep3B (p53 null) hepatoma cells in vitro, we found that exposure to I/H induced a significant increase in microtubule-associated protein 1 light chain 3 (LC3) lipidation and subsequent LC3 puncta formation. While the proliferation of HCC cells was stimulated upon acute I/H exposure compared to that of control, inhibition of autophagy by autophagy-related protein 7 interference abolished it. In addition, the steady-state levels of sequestosome 1 (p62) in both HepG2 and Hep3B cells were reduced following I/H exposure, supporting the notion that acute I/H induces autophagy. Intriguingly, the p62 level further decreased during reperfusion following I/H, accompanied by increased LC3 lipidation. The intracellular reactive oxygen species (ROS) accumulated during acute I/H exposure and persisted through reperfusion in both HepG2 and Hep3B cells and the ROS levels increased at a much faster rate during reperfusion than during I/H periods in both cells. Autophagy functions as a promoter for HCC cell survival during acute I/H and reperfusion and this also points to potential therapy for hepatoma by perturbing the acute I/H-reperfusion-autophagy axis.
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PMID:Emerging role of autophagy during ischemia-hypoxia and reperfusion in hepatocellular carcinoma. 2246 51

Humanin (HN) has been identified as an endogenous peptide that inhibited AD-relevant neuronal cell death. HNG, a variant of HN in which the 14th amino acid serine was replaced with glycine, can reduce infarct volume and improve neurological deficits after ischemia/reperfusion injury. In this study, we aimed to examine the neuroprotective effect of HNG on traumatic brain injury (TBI) in mice and explored whether the protective effect was associated with regulating apoptosis and autophagy. Compared to vehicle-treated groups, mice administered HNG intracerebroventricularly (i.c.v.) prior to TBI had decreased cells with plasmalemma permeability in the injured cortex and hippocampus (48 h, P<0.01), reduced brain lesion volume (days 14 and 28, P<0.05), improved motor performance (days 1-4, P<0.05) and ameliorated performance in the Morris water maze test (days 11-13, P<0.05) post TBI. Reduced lesion volume (day 14, P<0.05) was also observed even when HNG was administered intraperitoneally (i.p.) at 1h and 2h post TBI, and minor amelioration in motor and Morris water maze test deficits was also observed. Immunoblotting results showed that HNG pretreatment (i.c.v.) reversed TBI-induced cleavage of cysteinyl aspartate-specific protease-3 and poly ADPribose-polymerase and decline of Bcl-2, suppressed LC3II, Beclin-1 and vacuolar sorting protein 34 activation and maintained p62 levels in the injured cortex and hippocampus post TBI (compared with vehicle). In conclusion, HNG treatment improved morphological and functional outcomes after TBI in mice and the protective effect of HNG against TBI may be associated with down-regulating apoptosis and autophagy.
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PMID:[Gly14]-Humanin reduces histopathology and improves functional outcome after traumatic brain injury in mice. 2317 9

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