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Large animal models of cardiac ischemia-reperfusion injury:Where are we now? 被引量:2
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作者 Attaur Rahman Yuhao Li +6 位作者 To-Kiu Chan Hui Zhao Yaozu Xiang Xing Chang Hao Zhou Dachun Xu Sang-Bing Ong 《Zoological Research》 SCIE CAS CSCD 2023年第3期591-603,共13页
Large animal models of cardiac ischemia-reperfusion are critical for evaluation of the efficacy of cardioprotective interventions prior to clinical translation.Nonetheless,current cardioprotective strategies/intervent... Large animal models of cardiac ischemia-reperfusion are critical for evaluation of the efficacy of cardioprotective interventions prior to clinical translation.Nonetheless,current cardioprotective strategies/interventions formulated in preclinical cardiovascular research are often limited to small animal models,which are not transferable or reproducible in large animal models due to different factors such as:(i)complex and varied features of human ischemic cardiac disease(ICD),which are challenging to mimic in animal models,(ii)significant differences in surgical techniques applied,and(iii)differences in cardiovascular anatomy and physiology between small versus large animals.This article highlights the advantages and disadvantages of different large animal models of preclinical cardiac ischemic reperfusion injury(IRI),as well as the different methods used to induce and assess IRI,and the obstacles faced in using large animals for translational research in the settings of cardiac IR. 展开更多
关键词 Cardiovascular disorder ischemic cardiac disease ischemic-reperfusion injury Large animal model Myocardial infarction Translational gap
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Treatment with β-sitosterol ameliorates the effects of cerebral ischemia/reperfusion injury by suppressing cholesterol overload, endoplasmic reticulum stress, and apoptosis 被引量:4
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作者 Xiuling Tang Tao Yan +8 位作者 Saiying Wang Qingqing Liu Qi Yang Yongqiang Zhang Yujiao Li Yumei Wu Shuibing Liu Yulong Ma Le Yang 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第3期642-649,共8页
β-Sitosterol is a type of phytosterol that occurs naturally in plants.Previous studies have shown that it has anti-oxidant,anti-hyperlipidemic,anti-inflammatory,immunomodulatory,and anti-tumor effects,but it is unkno... β-Sitosterol is a type of phytosterol that occurs naturally in plants.Previous studies have shown that it has anti-oxidant,anti-hyperlipidemic,anti-inflammatory,immunomodulatory,and anti-tumor effects,but it is unknown whetherβ-sitosterol treatment reduces the effects of ischemic stroke.Here we found that,in a mouse model of ischemic stroke induced by middle cerebral artery occlusion,β-sitosterol reduced the volume of cerebral infarction and brain edema,reduced neuronal apoptosis in brain tissue,and alleviated neurological dysfunction;moreover,β-sitosterol increased the activity of oxygen-and glucose-deprived cerebral cortex neurons and reduced apoptosis.Further investigation showed that the neuroprotective effects ofβ-sitosterol may be related to inhibition of endoplasmic reticulum stress caused by intracellular cholesterol accumulation after ischemic stroke.In addition,β-sitosterol showed high affinity for NPC1L1,a key transporter of cholesterol,and antagonized its activity.In conclusion,β-sitosterol may help treat ischemic stroke by inhibiting neuronal intracellular cholesterol overload/endoplasmic reticulum stress/apoptosis signaling pathways. 展开更多
关键词 APOPTOSIS blood-brain barrier Β-SITOSTEROL cerebral ischemia/reperfusion injury cholesterol overload cholesterol transport endoplasmic reticulum stress ischemic stroke molecular docking NPC1L1
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The miR-9-5p/CXCL11 pathway is a key target of hydrogen sulfide-mediated inhibition of neuroinflammation in hypoxic ischemic brain injury 被引量:2
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作者 Yijing Zhao Tong Li +6 位作者 Zige Jiang Chengcheng Gai Shuwen Yu Danqing Xin Tingting Li Dexiang Liu Zhen Wang 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第5期1084-1091,共8页
We previously showed that hydrogen sulfide(H2S)has a neuroprotective effect in the context of hypoxic ischemic brain injury in neonatal mice.However,the precise mechanism underlying the role of H2S in this situation r... We previously showed that hydrogen sulfide(H2S)has a neuroprotective effect in the context of hypoxic ischemic brain injury in neonatal mice.However,the precise mechanism underlying the role of H2S in this situation remains unclear.In this study,we used a neonatal mouse model of hypoxic ischemic brain injury and a lipopolysaccharide-stimulated BV2 cell model and found that treatment with L-cysteine,a H2S precursor,attenuated the cerebral infarction and cerebral atrophy induced by hypoxia and ischemia and increased the expression of miR-9-5p and cystathionineβsynthase(a major H2S synthetase in the brain)in the prefrontal cortex.We also found that an miR-9-5p inhibitor blocked the expression of cystathionineβsynthase in the prefrontal cortex in mice with brain injury caused by hypoxia and ischemia.Furthermore,miR-9-5p overexpression increased cystathionine-β-synthase and H2S expression in the injured prefrontal cortex of mice with hypoxic ischemic brain injury.L-cysteine decreased the expression of CXCL11,an miR-9-5p target gene,in the prefrontal cortex of the mouse model and in lipopolysaccharide-stimulated BV-2 cells and increased the levels of proinflammatory cytokines BNIP3,FSTL1,SOCS2 and SOCS5,while treatment with an miR-9-5p inhibitor reversed these changes.These findings suggest that H2S can reduce neuroinflammation in a neonatal mouse model of hypoxic ischemic brain injury through regulating the miR-9-5p/CXCL11 axis and restoringβ-synthase expression,thereby playing a role in reducing neuroinflammation in hypoxic ischemic brain injury. 展开更多
关键词 chemokine(C-X-C motif)ligand 11 cystathionineβsynthase H2S hypoxic ischemic brain injury inflammation L-CYSTEINE lipopolysaccharide microglia miR-9-5p neuroprotection
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Morphological and functional observations of a novel model of retinal ischemia injury induced by bilateral carotid artery stenosis in mice
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作者 Lian Shu You-Jia Zhang +1 位作者 Xiao-Xiao Chen Xing-Huai Sun 《International Journal of Ophthalmology(English edition)》 SCIE CAS 2024年第12期2192-2202,共11页
AIM:To investigate the features of retinal ischemic injuries in a novel mouse model with bilateral carotid artery stenosis(BCAS).METHODS:BCAS was induced with microcoil implantation in 6-8-week-old C57BL6 mice.Cerebra... AIM:To investigate the features of retinal ischemic injuries in a novel mouse model with bilateral carotid artery stenosis(BCAS).METHODS:BCAS was induced with microcoil implantation in 6-8-week-old C57BL6 mice.Cerebral blood flow was monitored at 2,7,and 28d postoperatively.Retinal morphological changes were evaluated by fundus photography and hematoxylin-eosin staining.Fluorescein fundus angiography(FFA)was performed to detect retinal vascular changes and circulation.The levels of apoptosis,activation of neurogliosis,and expression of hypoxiainducible factor(HIF)-1αin the retina were assessed by Western blotting and immunofluorescence staining,followed by retinal ganglion cell(RGC)density detection.Additionally,electrophysiological examinations including photopic negative response(PhNR)was also performed.RESULTS:The mice demonstrated an initial rapid decrease in cerebral blood flow,followed by a 4-week recovery period after BCAS.The ratio of retinal artery and vein was decreased under fundus photography and FFA.Compared with the sham mice,BCAS mice showed thinner retinal thickness on day 28.Additionally,apoptosis was increased and RGC density was decreased mainly in peripheral retinal region.Neurogliosis was mainly located in the inner retinal layers,with a stable increase in HIF-1αexpression.The dark-adapted electroretinogram showed a notable reduction in the a-,b-,and oscillatory potential(OP)wave amplitudes between days 2 and 7;this gradually recovered over the following 4wk.However,the b-and OPwave amplitudes were still significantly decreased on PhNR examination on day 28.CONCLUSION:BCAS can result in relatively mild retinal ischemia injuries in mice,mainly in the inner layer and peripheral region.Our study provides a novel animal model for investigating retinal ischemic diseases. 展开更多
关键词 bilateral carotid artery stenosis retinal ischemia MICE cerebral hypoperfusion ischemic injury
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Perilipin-2 mediates ferroptosis in oligodendrocyte progenitor cells and myelin injury after ischemic stroke
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作者 Jian Yang Jiang Wu +7 位作者 Xueshun Xie Pengfei Xia Jinxin Lu Jiale Liu Lei Bai Xiang Li Zhengquan Yu Haiying Li 《Neural Regeneration Research》 SCIE CAS 2025年第7期2015-2028,共14页
Differentiation of oligodendrocyte progenitor cells into mature myelin-forming oligodendrocytes contributes to remyelination.Failure of remyelination due to oligodendrocyte progenitor cell death can result in severe n... Differentiation of oligodendrocyte progenitor cells into mature myelin-forming oligodendrocytes contributes to remyelination.Failure of remyelination due to oligodendrocyte progenitor cell death can result in severe nerve damage.Ferroptosis is an iron-dependent form of regulated cell death caused by membrane rupture induced by lipid peroxidation,and plays an important role in the pathological process of ischemic stroke.However,there are few studies on oligodendrocyte progenitor cell ferroptosis.We analyzed transcriptome sequencing data from GEO databases and identified a role of ferroptosis in oligodendrocyte progenitor cell death and myelin injury after cerebral ischemia.Bioinformatics analysis suggested that perilipin-2(PLIN2)was involved in oligodendrocyte progenitor cell ferroptosis.PLIN2 is a lipid storage protein and a marker of hypoxia-sensitive lipid droplet accumulation.For further investigation,we established a mouse model of cerebral ischemia/reperfusion.We found significant myelin damage after cerebral ischemia,as well as oligodendrocyte progenitor cell death and increased lipid peroxidation levels around the infarct area.The ferroptosis inhibitor,ferrostatin-1,rescued oligodendrocyte progenitor cell death and subsequent myelin injury.We also found increased PLIN2 levels in the peri-infarct area that co-localized with oligodendrocyte progenitor cells.Plin2 knockdown rescued demyelination and improved neurological deficits.Our findings suggest that targeting PLIN2 to regulate oligodendrocyte progenitor cell ferroptosis may be a potential therapeutic strategy for rescuing myelin damage after cerebral ischemia. 展开更多
关键词 BIOINFORMATICS bulk RNA sequencing ferroptosis ischemic stroke myelin injury oligodendrocyte progenitor cell perilipin-2 single-cell RNA sequencing
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Effect of Qingre Huayu Decoction on Autophagy and Apoptosis of Neurons in Rats with Ischemic Brain Injury by Regulating Ca^(2+)/CaMKKβ-AMPK-mTOR Pathway
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作者 Qun TONG Xuelan KUANG +2 位作者 Jinfeng ZHOU Jinhua YUAN Xianjing ZENG 《Medicinal Plant》 2024年第5期39-43,共5页
[Objectives]To explore the neuroprotective mechanism of Qingre Huayu Decoction on rats with acute cerebral ischemia injury.[Methods]SD rats were divided into sham operation group,ischemia model group,low,medium and hi... [Objectives]To explore the neuroprotective mechanism of Qingre Huayu Decoction on rats with acute cerebral ischemia injury.[Methods]SD rats were divided into sham operation group,ischemia model group,low,medium and high dose groups of Qingre Huayu De-coction,with 10 rats in each group.Referring to the MCAO operation model,both the sham operation group and the model group were given normal saline by gavage,and the Qingre Huayu Decoction group was given different doses of Qingre Huayu Decoction by gavage.After the op-eration,the rats were scored for neurological deficit,neurons were stained with HE,apoptotic cells were detected with TUNEL,and the levels of autophagy and apoptotic proteins in the Ca^(2+)/CaMKKβ-AMPK-mTORpathway in brain tissue were detected with Western-blot.[Results]Compared with the model group,the neurological function score of Qingre Huayu Decoction Group decreased significantly(P<0.05),the pathological damage of neurons in Qingre Huavu Decoction Group decreased.the proportion of apoptosis-positive cells detected by TUNEL de-creased(P<0.05),and the expression of CaMKKβand AMPK increased,expression of mTOR decreased,expression of Beclin-1 and LC3 increased,and expression of Caspase-3decreased in Qingre Huayu Decoction Group(P<0.05).[Conclusions]Qingre Huayu Decoction may play a neuroprotective role by activating Ca^(2+)/CaMKKβ-AMPK-mTOR pathway and regulating the level of apoptosis and autophagy. 展开更多
关键词 Qingre Huayu Decoction ischemic brain injury Apoptosis Autophagy
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Heme oxygenase system in hepatic ischemia-reperfusion injury 被引量:14
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作者 James A Richards Stephen J Wigmore Luke R Devey 《World Journal of Gastroenterology》 SCIE CAS CSCD 2010年第48期6068-6078,共11页
Hepatic ischemia-reperfusion injury (IRI) limits access to transplantation. Heme oxygenase-1 (HO-1) is a powerful antioxidant enzyme which degrades free heme into biliverdin,free iron and carbon monoxide. HO-1 and its... Hepatic ischemia-reperfusion injury (IRI) limits access to transplantation. Heme oxygenase-1 (HO-1) is a powerful antioxidant enzyme which degrades free heme into biliverdin,free iron and carbon monoxide. HO-1 and its metabolites have the ability to modulate a wide variety of inflammatory disorders including hepatic IRI. Mechanisms of this protective effect include reduction of oxygen free radicals,alteration of macrophage and T cell phenotype. Further work is required to understand the physiological importance of the many actions of HO-1 identified experimentally,and to harness the protective effect of HO-1 for therapeutic potential. 展开更多
关键词 ischemia-reperfusion injury HEME OXYGENASE TRANSPLANTATION ischemIC PRE-CONDITIONING
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Preconditioning and postconditioning reduce hepatic ischemia-reperfusion injury in rats 被引量:16
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作者 Zhang, Wan-Xing Yin, Wen +5 位作者 Zhang, Lei Wang, Lan-Hui Bao, Lei Tuo, Hong-Fang Zhou, Li-Fang Wang, Chun-Cheng 《Hepatobiliary & Pancreatic Diseases International》 SCIE CAS 2009年第6期586-590,共5页
BACKGROUND: Ischemia-reperfusion injury occurs when ischemic tissues or organs suffer from further functional and structural damage when their blood supply recovers. This study aimed to contrast the protective effects... BACKGROUND: Ischemia-reperfusion injury occurs when ischemic tissues or organs suffer from further functional and structural damage when their blood supply recovers. This study aimed to contrast the protective effects of ischemic preconditioning and ischemic postconditioning in hepatic ischemia-reperfusion injury in rats. METHODS: Thirty-two healthy male Wistar rats were randomly divided into four groups: sham-operated (SO), ischemia-reperfusion (IR), ischemic preconditioning (I-pre), and ischemic postconditioning (I-post). Blood samples and hepatic tissue were taken from all groups after the experiments. RESULTS: There were significant differences between the IR, I-pre and I-post groups in alanine aminotransferase and aspartate aminotransferase levels, NF-kappa B p65 expression, apoptosis index and superoxide dismutase activity in hepatic tissue. There were no significant differences between the I-pre and I-post groups. CONCLUSIONS: Ischemic postconditioning and ischemic preconditioning reduce hepatic ischemia-reperfusion injury, but in clinical practice the former is a more appropriate choice. 展开更多
关键词 LIVER ischemia-reperfusion injury ischemic postconditioning ischemic preconditioning NF-kappa B
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Hepatic ischemia-reperfusion injury in liver transplant setting:mechanisms and protective strategies 被引量:17
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作者 Sanketh Rampes Daqing Ma 《The Journal of Biomedical Research》 CAS CSCD 2019年第4期221-234,共14页
Hepatic ischemia-reperfusion injury is a major cause of liver transplant failure,and is of increasing significance due to increased use of expanded criteria livers for transplantation.This review summarizes the mechan... Hepatic ischemia-reperfusion injury is a major cause of liver transplant failure,and is of increasing significance due to increased use of expanded criteria livers for transplantation.This review summarizes the mechanisms and protective strategies for hepatic ischemia-reperfusion injury in the context of liver transplantation.Pharmacological therapies,the use of pre-and post-conditioning and machine perfusion are discussed as protective strategies.The use of machine perfusion offers significant potential in the reconditioning of liver grafts and the prevention of hepatic ischemia-reperfusion injury,and is an exciting and active area of research,which needs more study clinically. 展开更多
关键词 liver TRANSPLANTATION REPERFUSION injury mechanism THERAPEUTICS ischemIC PRECONDITIONING
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Protective effect of ischemic preconditioning on hepatic ischemia-reperfusion injury by advancing the expressive phase of survivin in rats 被引量:2
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作者 Li, Jian-Yi Gu, Xi +3 位作者 Yin, Hong-Zhuan Zhou, Yong Zhang, Wen-Hai Qin, Yi-Min 《Hepatobiliary & Pancreatic Diseases International》 SCIE CAS 2008年第6期615-620,共6页
BACKGROUND: Survivin is a new and important gene in the regulation of apoptosis. It is very important to explore the effect of the expression of survivin protein caused by ischemia-reperfusion (IR) injury. The effect ... BACKGROUND: Survivin is a new and important gene in the regulation of apoptosis. It is very important to explore the effect of the expression of survivin protein caused by ischemia-reperfusion (IR) injury. The effect of IR injury caused by ischemic preconditioning (IP) on the liver in rats and the relation between the protective effect of IP and the expression of survivin are unclear. METHODS: One hundred and fifty male Wistar rats (weighing 190-210 g, aged 6-7 weeks) were divided into three groups at random: ischemic preconditioning (IP), ischemia-reperfusion (IR) and sham-operation (SO). Sample specimens were collected from each group at 6, 12, 24, 48, and 72 hours after reperfusion. Serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were measured by an automatic biochemical analyzer. Malondialdehyde (MDA) in liver tissue was measured. Pathological changes in the liver and immunohistochemical staining for survivin were determined with an optical microscope. RESULTS: The ALT levels in the IP and IR groups after reperfusion at each time were higher than those in the SO group (P<0.05), whereas after reperfusion for 6 and 12 hours, the ALT levels in the IP group were lower than those in the IR group (P<0.05). The AST levels in all IP and IR groups were higher than those in the SO group (P<0.05), whereas after reperfusion for 12, 24, 48 and 72 hours, the AST levels in the IP group were lower than those in the IR group (P<0.05). The MDA concentrations after reperfusion in the IP group were lower than those in the IR group (P<0.05), though the MDA concentrations in the IP and IR groups increased in contrast to those in the SO group after reperfusion at each time (P<0.05). After reperfusion for 12, 24, 48 and 72 hours, the number of survivin-positive cells was larger in the IP and IR groups than in the SO group (P<0.05). After reperfusion for 12, 24, and 48 hours the number of survivin-positive cells in the IP group increased compared with that in the IR group (P<0.05). CONCLUSIONS: IR increases the protein expression of survivin in liver tissue. IP inhibits the accumulation of MDA, advances the expressive phase of survivin protein in hepatic tissue, and improves liver function. 展开更多
关键词 ischemia-reperfusion injury ischemic preconditioning survivin protein
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Hypoxia inducible factor 1α promotes interleukin-1 receptor antagonist expression during hepatic ischemia-reperfusion injury 被引量:1
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作者 Zhao-Yang Wang Yu Liu +7 位作者 Shi-Peng Li Jian-Jun Li Zhen Zhang Xue-Chun Xiao Yang Ou Hang Wang Jin-Zhen Cai Shuang Yang 《World Journal of Gastroenterology》 SCIE CAS 2022年第38期5573-5588,共16页
BACKGROUND Ischemia-reperfusion injury(IRI) is a major risk associated with liver surgery and transplantation,and its pathological mechanism is complex.Interleukin-1 receptor antagonist(IL-1ra) can protect the liver f... BACKGROUND Ischemia-reperfusion injury(IRI) is a major risk associated with liver surgery and transplantation,and its pathological mechanism is complex.Interleukin-1 receptor antagonist(IL-1ra) can protect the liver from IRI.However,the regulatory mechanism of IL-1ra expression is still unclear.AIM To identify the mechanism that could protect the liver in the early stage of IRI.METHODS To screen the key genes in hepatic IRI,we performed RNA sequencing and gene enrichment analysis on liver tissue from mice with hepatic IRI.Subsequently,we verified the expression and effect of IL-1ra in hepatic IRI.We also used promoter mutagenesis and chromatin immunoprecipitation assay to search for the transcriptional regulatory sites of hypoxia-inducible factor(HIF)-1α.Finally,to explore the protective mechanism of ischemic preconditioning(IP),we examined the expression of HIF-1α and IL-1ra after IP.RESULTS We identified IL-1ra as a key regulator in hepatic IRI.The expression of IL-1ra was significantly upregulated after hepatic IRI both in vivo and in vitro.Furthermore,we found that HIF-1αregulated Il-1ra transcription in response to hypoxia.Increased HIF-1α accumulation promoted IL-1ra expression,whereas inhibition of HIF-1α exhibited the opposite effect.We also confirmed a predominant role for hypoxia response element in the regulation of Il1ra transcription by HIF-1αactivation.Of note,we demonstrated that IP protects against hepatic IRI by inducing IL-1ra expression,which is mediated through HIF-1α.CONCLUSION We demonstrated that ischemia or hypoxia leads to increased expression of IL-1ra through HIF-1α.Importantly,IP protects the liver from IRI via the HIF-1α–IL-1ra pathway. 展开更多
关键词 Hepatic ischemia-reperfusion injury Interleukin-1 receptor antagonist Hypoxia inducible factor ischemic preconditioning
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Proteomic study on protective mechanism of ischemic preconditioning to ischemia-reperfusion lung injury
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作者 ZHANG Chun-fang CHEN Zhu-chu +3 位作者 GUO Hai-zhou ZHANG Heng XIAO Zhi-qiang CHEN Sheng-xi 《Journal of Central South University of Technology》 2005年第z1期304-309,共6页
Objective To investigate the change of protein expression of lung tissue of rabbit after ischemic preconditioning(IP)and try to elucidate the potential protective mechanism of IP.Methods 12 domestic rabbits were rando... Objective To investigate the change of protein expression of lung tissue of rabbit after ischemic preconditioning(IP)and try to elucidate the potential protective mechanism of IP.Methods 12 domestic rabbits were randomly divided into group IP and group control(6 rabbits in each group).All the left lungs were afflicted by ische mia-reperfusion injury except that those in group IP were subject to IP prior to ischemic phase.2-DE was employed to separate the total protein of the lung tissue.PDQuest analysis software was used to distinguish the differently expressed protein spot.MALDI-TOF-MS and Mascot database searching were exploited to identify these proteins.Results 1)IP attenuated the ischemia-reperfusion lung injury.2)The proteomic analysis showed 35 target proteins,of which 17 were characterized such as phosphatidylinositol 3-kinase(PI3k)delta catalytic subunit.Conclusions 1)Proteomic is a promising tool to investigate the IP and ischemia-reperfusion lung injury.2)That IP inhibits inflammatory cascades through phosphatidylinositol 3-kinase signal transduction pathway may be one of its protective mechanism. 展开更多
关键词 PROTEOME ischemic preconditioning ischemia-reperfusion injury phosphatidylinositol 3-kinase
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TianmaGouteng yin attenuates ischemic stroke-induced brain injury by inhibiting the AGE/RAGE pathway
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作者 LUOJUN ZHENG LUAN WENG DIWEN SHOU 《BIOCELL》 SCIE 2023年第6期1345-1352,共8页
Background:Ischemic stroke is characterized by permanent or transient obstruction of blood flow,leading to a growing risk factor and health burden.Tianmagouteng yin(TMG)is commonly used in Chinese medicine to treat ce... Background:Ischemic stroke is characterized by permanent or transient obstruction of blood flow,leading to a growing risk factor and health burden.Tianmagouteng yin(TMG)is commonly used in Chinese medicine to treat cerebral ischemia.The aim of this study was to investigate the neuroprotective effects of TMG against ischemic stroke.Methods:Either permanent middle cerebral artery occlusion(pMCAO)or sham operation was performed on anesthetized Wistar male rats(n=36).Results:Results demonstrated that TMG administration reduced the infarction volume and mitigated the neurobehavioral deficits.Hematoxylin and eosin(HE)staining and Prussian blue staining revealed that TMG attenuated tissue disruption and microbleeds in hippocampus tissues.In addition,TMG down-regulated the receptor of advanced glycation end products(RAGE)and p-JAK2.It also inhibited the concentrations of advanced glycation end products(AGEs),ferritin,malondialdehyde(MDA),and reactive oxygen species(ROS).Conclusion:As repetitive clinical trials of neuroprotectants targeting stroke have failed previously,our results suggested that the natural product,TMG,can probably help in the vicious cycles of ischemic stroke pathology. 展开更多
关键词 ischemic stroke Tianmagouteng yin Brain injury NEUROPROTECTION AGE/RAGE pathway pMCAO
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A molecular probe carrying anti-tropomyosin 4 for early diagnosis of cerebral ischemia/reperfusion injury
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作者 Teng-Fei Yu Kun Wang +5 位作者 Lu Yin Wen-Zhe Li Chuan-Ping Li Wei Zhang Jie Tian Wen He 《Neural Regeneration Research》 SCIE CAS CSCD 2023年第6期1321-1324,共4页
In vivo imaging of cerebral ischemia/reperfusion injury remains an important challenge.We injected porous Ag/Au@SiO_(2) bimetallic hollow nanoshells carrying anti-tropomyosin 4 as a molecular probe into mice with cere... In vivo imaging of cerebral ischemia/reperfusion injury remains an important challenge.We injected porous Ag/Au@SiO_(2) bimetallic hollow nanoshells carrying anti-tropomyosin 4 as a molecular probe into mice with cerebral ischemia/reperfusion injury and observed microvascular changes in the brain using photoacoustic imaging with ultrasonography.At each measured time point,the total photoacoustic signal was significantly higher on the affected side than on the healthy side.Twelve hours after reperfusion,cerebral perfusion on the affected side increased,cerebrovascular injury worsened,and anti-tropomyosin 4 expression increased.Twenty-four hours after reperfusion and later,perfusion on the affected side declined slowly and stabilized after 1 week;brain injury was also alleviated.Histopathological and immunohistochemical examinations confirmed the brain injury tissue changes.The nanoshell molecular probe carrying anti-tropomyosin 4 has potential for use in early diagnosis of cerebral ischemia/reperfusion injury and evaluating its progression. 展开更多
关键词 cerebral ischemia/reperfusion injury diagnosis dynamic monitoring ischemic stroke middle cerebral artery occlusion molecular probe NANOSHELLS photoacoustic imaging tropomyosin 4 ULTRASOUND
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Effects of Remifentanil Pretreatment on Inflammatory Response in Rats with Acute Cerebral Ischemia Injury
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作者 Jingfeng ZHOU Xianjing ZENG +2 位作者 Shu LIU Jinghua YUAN Fan XIAO 《Medicinal Plant》 2023年第6期56-59,共4页
[Objectives]This study was conducted to investigate the effects of remifentanil pretreatment on inflammatory factors in rats with acute cerebral ischemia.[Methods]Sixty SD rats were randomly divided into the normal co... [Objectives]This study was conducted to investigate the effects of remifentanil pretreatment on inflammatory factors in rats with acute cerebral ischemia.[Methods]Sixty SD rats were randomly divided into the normal control group,sham operation group,ischemic brain injury group,and remifentanil pretreatment group.Except the normal control group,each group was divided into three subgroups(six in each group)according to the sampling time points of 6,12 and 24 h after execution.After modeling,the rats were scored for neurological deficit,and observed for pathological changes of neurons in the brain tissue by HE staining and the brain infarct volume by TTC staining,and the expression levels of TNF-α,IL-6 and IL-8 were detected by RT-PCR.[Results]HE staining:No significant changes were observed in the pathological morphology of the brain tissue in the blank group and sham operation group;and the neuronal structure of rats in the acute cerebral ischemia group was obviously damaged,and the neuronal damage in the remifentanil pretreatment group was less than that in the acute cerebral ischemia group at each time point.TTC staining:The gray brain infarct area in the remifentanil pretreatment group was significantly smaller than that in the cerebral ischemia group(P<0.05).RT-PCR detection results:The expression levels of TNF-α,IL-6 and IL-8 in the blank group and sham surgery group did not show significant changes at different times(P>0.05);and compared with the cerebral ischemia group,the expression levels of TNF-α,IL-6,and IL-8 in the remifentanil pretreatment group were significantly reduced at all time points(P<0.05).[Conclusions]Remifentanil pretreatment could protect the brain by reducing the expression of inflammatory factors after cerebral ischemia injury. 展开更多
关键词 REMIFENTANIL Acute ischemic brain injury Tumor necrosis factor INTERLEUKIN-6 INTERLEUKIN-8
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Mitophagy in acute central nervous system injuries:regulatory mechanisms and therapeutic potentials
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作者 Siyi Xu Junqiu Jia +2 位作者 Rui Mao Xiang Cao Yun Xu 《Neural Regeneration Research》 SCIE CAS 2025年第9期2437-2453,共17页
Acute central nervous system injuries,including ischemic stro ke,intracerebral hemorrhage,subarachnoid hemorrhage,traumatic brain injury,and spinal co rd injury,are a major global health challenge.Identifying optimal ... Acute central nervous system injuries,including ischemic stro ke,intracerebral hemorrhage,subarachnoid hemorrhage,traumatic brain injury,and spinal co rd injury,are a major global health challenge.Identifying optimal therapies and improving the long-term neurological functions of patients with acute central nervous system injuries are urgent priorities.Mitochondria are susceptible to damage after acute central nervous system injury,and this leads to the release of toxic levels of reactive oxygen species,which induce cell death.Mitophagy,a selective form of autophagy,is crucial in eliminating redundant or damaged mitochondria during these events.Recent evidence has highlighted the significant role of mitophagy in acute central nervous system injuries.In this review,we provide a comprehensive overview of the process,classification,and related mechanisms of mitophagy.We also highlight the recent developments in research into the role of mitophagy in various acute central nervous system injuries and drug therapies that regulate mitophagy.In the final section of this review,we emphasize the potential for treating these disorders by focusing on mitophagy and suggest future research paths in this area. 展开更多
关键词 autophagy intracerebral hemorrhage ischemic stroke mitochondria mitochondrial biogenesis mitochondrial quality control MITOPHAGY spinal cord injury subarachnoid hemorrhage traumatic brain injury
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T cell interactions with microglia in immune-inflammatory processes of ischemic stroke
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作者 Yuxiao Zheng Zilin Ren +8 位作者 Ying Liu Juntang Yan Congai Chen Yanhui He Yuyu Shi Fafeng Cheng Qingguo Wang Changxiang Li Xueqian Wang 《Neural Regeneration Research》 SCIE CAS 2025年第5期1277-1292,共16页
The primary mechanism of secondary injury after cerebral ischemia may be the brain inflammation that emerges after an ischemic stroke,which promotes neuronal death and inhibits nerve tissue regeneration.As the first i... The primary mechanism of secondary injury after cerebral ischemia may be the brain inflammation that emerges after an ischemic stroke,which promotes neuronal death and inhibits nerve tissue regeneration.As the first immune cells to be activated after an ischemic stroke,microglia play an important immunomodulatory role in the progression of the condition.After an ischemic stroke,peripheral blood immune cells(mainly T cells)are recruited to the central nervous system by chemokines secreted by immune cells in the brain,where they interact with central nervous system cells(mainly microglia)to trigger a secondary neuroimmune response.This review summarizes the interactions between T cells and microglia in the immune-inflammatory processes of ischemic stroke.We found that,during ischemic stroke,T cells and microglia demonstrate a more pronounced synergistic effect.Th1,Th17,and M1 microglia can co-secrete proinflammatory factors,such as interferon-γ,tumor necrosis factor-α,and interleukin-1β,to promote neuroinflammation and exacerbate brain injury.Th2,Treg,and M2 microglia jointly secrete anti-inflammatory factors,such as interleukin-4,interleukin-10,and transforming growth factor-β,to inhibit the progression of neuroinflammation,as well as growth factors such as brain-derived neurotrophic factor to promote nerve regeneration and repair brain injury.Immune interactions between microglia and T cells influence the direction of the subsequent neuroinflammation,which in turn determines the prognosis of ischemic stroke patients.Clinical trials have been conducted on the ways to modulate the interactions between T cells and microglia toward anti-inflammatory communication using the immunosuppressant fingolimod or overdosing with Treg cells to promote neural tissue repair and reduce the damage caused by ischemic stroke.However,such studies have been relatively infrequent,and clinical experience is still insufficient.In summary,in ischemic stroke,T cell subsets and activated microglia act synergistically to regulate inflammatory progression,mainly by secreting inflammatory factors.In the future,a key research direction for ischemic stroke treatment could be rooted in the enhancement of anti-inflammatory factor secretion by promoting the generation of Th2 and Treg cells,along with the activation of M2-type microglia.These approaches may alleviate neuroinflammation and facilitate the repair of neural tissues. 展开更多
关键词 BRAIN IMMUNE INFLAMMATION interaction ischemic stroke mechanism MICROGLIA NEURON secondary injury T cells
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Cell polarization in ischemic stroke: molecular mechanisms and advances
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作者 Yuanwei Li Xiaoxiao Xu +5 位作者 Xuan Wu Jiarui Li Shiling Chen Danyang Chen Gaigai Li Zhouping Tang 《Neural Regeneration Research》 SCIE CAS 2025年第3期632-645,共14页
Ischemic stroke is a cerebrovascular disease associated with high mortality and disability rates. Since the inflammation and immune response play a central role in driving ischemic damage, it becomes essential to modu... Ischemic stroke is a cerebrovascular disease associated with high mortality and disability rates. Since the inflammation and immune response play a central role in driving ischemic damage, it becomes essential to modulate excessive inflammatory reactions to promote cell survival and facilitate tissue repair around the injury site. Various cell types are involved in the inflammatory response, including microglia, astrocytes, and neutrophils, each exhibiting distinct phenotypic profiles upon stimulation. They display either proinflammatory or anti-inflammatory states, a phenomenon known as ‘cell polarization.’ There are two cell polarization therapy strategies. The first involves inducing cells into a neuroprotective phenotype in vitro, then reintroducing them autologously. The second approach utilizes small molecular substances to directly affect cells in vivo. In this review, we elucidate the polarization dynamics of the three reactive cell populations(microglia, astrocytes, and neutrophils) in the context of ischemic stroke, and provide a comprehensive summary of the molecular mechanisms involved in their phenotypic switching. By unraveling the complexity of cell polarization, we hope to offer insights for future research on neuroinflammation and novel therapeutic strategies for ischemic stroke. 展开更多
关键词 astrocyte polarization immune regulation inflammation ischemic injury microglia polarization neutrophil polarization signaling pathways STROKE
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Reduction of epinephrine in the lumbar spinal cord following repetitive blast-induced traumatic brain injury in rats
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作者 Shigeharu Tsuda Mustafa Golam +3 位作者 Jiamei Hou Kevin K.W.Wang Floyd J.Thompson Prodip Bose 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第7期1548-1552,共5页
Traumatic brain inju ry-induced unfavorable outcomes in human patients have independently been associated with dysregulated levels of monoamines,especially epinephrine,although few preclinical studies have examined th... Traumatic brain inju ry-induced unfavorable outcomes in human patients have independently been associated with dysregulated levels of monoamines,especially epinephrine,although few preclinical studies have examined the epinephrine level in the central nervous system after traumatic brain injury.Epinephrine has been shown to regulate the activities of spinal motoneurons as well as increase the heart rate,blood pressure,and blood flow to the hindlimb muscles.Therefore,the purpose of the present study was to determine the impact of repeated blast-induced traumatic brain injury on the epinephrine levels in seve ral function-s pecific central nervous system regions in rats.Following three repeated blast injuries at 3-day intervals,the hippocampus,motor cortex,locus coeruleus,vestibular nuclei,and lumbar spinal cord were harvested at post-injury day eight and processed for epinephrine assays using a high-sensitive electrochemical detector cou pled with high-performance liquid chromatography.Our results showed that the epinephrine levels were significantly decreased in the lumbar spinal cord tissues of blast-induced traumatic brain injury animals compared to the levels detected in age-and sex-matched sham controls.In other function-specific central nervous system regions,although the epinephrine levels were slightly altered following blast-induced tra u matic brain injury,they were not statistically significant.These results suggest that blast injury-induced significant downregulation of epinephrine in the lumbar spinal cord could negatively impact the motor and cardiovascular function.This is the first repo rt to show altered epinephrine levels in the spinal cord following repetitive mild blast-induced traumatic brain injury. 展开更多
关键词 balance blood flow cardiovascular system central nervous system EPINEPHRINE ischemic damage lumbar spinal cord muscle tone repeated blast SPASTICITY traumatic brain injury
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Overexpression of low-density lipoprotein receptor prevents neurotoxic polarization of astrocytes via inhibiting NLRP3 inflammasome activation in experimental ischemic stroke
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作者 Shuai Feng Juanji Li +6 位作者 Tingting Liu Shiqi Huang Xiangliang Chen Shen Liu Junshan Zhou Hongdong Zhao Ye Hong 《Neural Regeneration Research》 SCIE CAS 2025年第2期491-502,共12页
Neurotoxic astrocytes are a promising therapeutic target for the attenuation of cerebral ischemia/reperfusion injury.Low-density lipoprotein receptor,a classic cholesterol regulatory receptor,has been found to inhibit... Neurotoxic astrocytes are a promising therapeutic target for the attenuation of cerebral ischemia/reperfusion injury.Low-density lipoprotein receptor,a classic cholesterol regulatory receptor,has been found to inhibit NLR family pyrin domain containing protein 3(NLRP3)inflammasome activation in neurons following ischemic stroke and to suppress the activation of microglia and astrocytes in individuals with Alzheimer’s disease.However,little is known about the effects of low-density lipoprotein receptor on astrocytic activation in ischemic stroke.To address this issue in the present study,we examined the mechanisms by which low-density lipoprotein receptor regulates astrocytic polarization in ischemic stroke models.First,we examined low-density lipoprotein receptor expression in astrocytes via immunofluorescence staining and western blotting analysis.We observed significant downregulation of low-density lipoprotein receptor following middle cerebral artery occlusion reperfusion and oxygen-glucose deprivation/reoxygenation.Second,we induced the astrocyte-specific overexpression of low-density lipoprotein receptor using astrocyte-specific adeno-associated virus.Low-density lipoprotein receptor overexpression in astrocytes improved neurological outcomes in middle cerebral artery occlusion mice and reversed neurotoxic astrocytes to create a neuroprotective phenotype.Finally,we found that the overexpression of low-density lipoprotein receptor inhibited NLRP3 inflammasome activation in oxygen-glucose deprivation/reoxygenation injured astrocytes and that the addition of nigericin,an NLRP3 agonist,restored the neurotoxic astrocyte phenotype.These findings suggest that low-density lipoprotein receptor could inhibit the NLRP3-meidiated neurotoxic polarization of astrocytes and that increasing low-density lipoprotein receptor in astrocytes might represent a novel strategy for treating cerebral ischemic stroke. 展开更多
关键词 inflammation ischemia/reperfusion injury ischemic stroke low-density lipoprotein receptor neuroprotective astrocytes neurotoxic astrocytes NLRP3 inflammasome POLARIZATION
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