After spinal cord injury(SCI),astrocytes gradually migrate to and surround the lesion,depositing chondroitin sulfate proteoglycan-rich extracellular matrix and forming astrocytic scar,which limits the spread of inflam...After spinal cord injury(SCI),astrocytes gradually migrate to and surround the lesion,depositing chondroitin sulfate proteoglycan-rich extracellular matrix and forming astrocytic scar,which limits the spread of inflammation but hinders axon regeneration.Meanwhile,microglia gradually accumulate at the lesion border to form microglial scar and can polarize to generate a pro-inflammatory M1 phenotype or an anti-inflammatory M2 phenotype.However,the effect of microglia polarization on astrocytes is unclear.Here,we found that both microglia(CX3 CR1^(+))and astrocytes(GFAP^(+))gathered at the lesion border at 14 days post-injury(dpi).The microglia accumulated along the inner border of and in direct contact with the astrocytes.M1-type microglia(i NOS^(+)CX3 CR1^(+))were primarily observed at 3 and 7 dpi,while M2-type microglia(Arg1^(+)CX3 CR1^(+))were present at larger numbers at 7 and 14 dpi.Transforming growth factor-β1(TGFβ1)was highly expressed in M1 microglia in vitro,consistent with strong expression of TGFβ1 by microglia in vivo at 3 and 7 dpi,when they primarily exhibited an M1 phenotype.Furthermore,conditioned media from M1-type microglia induced astrocytes to secrete chondroitin sulfate proteoglycan in vitro.This effect was eliminated by knocking down sex-determining region Y-box 9(SOX9)in astrocytes and could not be reversed by treatment with TGFβ1.Taken together,our results suggest that microglia undergo M1 polarization and express high levels of TGFβ1 at 3 and 7 dpi,and that M1-type microglia induce astrocytes to deposit chondroitin sulfate proteoglycan via the TGFβ1/SOX9 pathway.The study was approved by the Institutional Animal Care and Use Committee of Anhui Medical University,China(approval No.LLSC20160052)on March 1,2016.展开更多
Postoperative cognitive dysfunction is a seve re complication of the central nervous system that occurs after anesthesia and surgery,and has received attention for its high incidence and effect on the quality of life ...Postoperative cognitive dysfunction is a seve re complication of the central nervous system that occurs after anesthesia and surgery,and has received attention for its high incidence and effect on the quality of life of patients.To date,there are no viable treatment options for postoperative cognitive dysfunction.The identification of postoperative cognitive dysfunction hub genes could provide new research directions and therapeutic targets for future research.To identify the signaling mechanisms contributing to postoperative cognitive dysfunction,we first conducted Gene Ontology and Kyoto Encyclopedia of Genes and Genomes pathway enrichment analyses of the Gene Expression Omnibus GSE95426 dataset,which consists of mRNAs and long non-coding RNAs differentially expressed in mouse hippocampus3 days after tibial fracture.The dataset was enriched in genes associated with the biological process"regulation of immune cells,"of which Chill was identified as a hub gene.Therefore,we investigated the contribution of chitinase-3-like protein 1 protein expression changes to postoperative cognitive dysfunction in the mouse model of tibial fractu re surgery.Mice were intraperitoneally injected with vehicle or recombinant chitinase-3-like protein 124 hours post-surgery,and the injection groups were compared with untreated control mice for learning and memory capacities using the Y-maze and fear conditioning tests.In addition,protein expression levels of proinflammatory factors(interleukin-1βand inducible nitric oxide synthase),M2-type macrophage markers(CD206 and arginase-1),and cognition-related proteins(brain-derived neurotropic factor and phosphorylated NMDA receptor subunit NR2B)were measured in hippocampus by western blotting.Treatment with recombinant chitinase-3-like protein 1 prevented surgery-induced cognitive impairment,downregulated interleukin-1βand nducible nitric oxide synthase expression,and upregulated CD206,arginase-1,pNR2B,and brain-derived neurotropic factor expression compared with vehicle treatment.Intraperitoneal administration of the specific ERK inhibitor PD98059 diminished the effects of recombinant chitinase-3-like protein 1.Collectively,our findings suggest that recombinant chitinase-3-like protein 1 ameliorates surgery-induced cognitive decline by attenuating neuroinflammation via M2 microglial polarization in the hippocampus.Therefore,recombinant chitinase-3-like protein1 may have therapeutic potential fo r postoperative cognitive dysfunction.展开更多
Microglia are present throughout the central nervous system and are vital in neural repair,nutrition,phagocytosis,immunological regulation,and maintaining neuronal function.In a healthy spinal cord,microglia are accou...Microglia are present throughout the central nervous system and are vital in neural repair,nutrition,phagocytosis,immunological regulation,and maintaining neuronal function.In a healthy spinal cord,microglia are accountable for immune surveillance,however,when a spinal cord injury occurs,the microenvironment drastically changes,leading to glial scars and failed axonal regeneration.In this context,microglia vary their gene and protein expression during activation,and proliferation in reaction to the injury,influencing injury responses both favorably and unfavorably.A dynamic and multifaceted injury response is mediated by microglia,which interact directly with neurons,astrocytes,oligodendrocytes,and neural stem/progenitor cells.Despite a clear understanding of their essential nature and origin,the mechanisms of action and new functions of microglia in spinal cord injury require extensive research.This review summarizes current studies on microglial genesis,physiological function,and pathological state,highlights their crucial roles in spinal cord injury,and proposes microglia as a therapeutic target.展开更多
Microglial cells are important resident innate immune components in the central nervous system that are often activated during neuroinflammation.Activated microglia can display one of two phenotypes,M1 or M2,which eac...Microglial cells are important resident innate immune components in the central nervous system that are often activated during neuroinflammation.Activated microglia can display one of two phenotypes,M1 or M2,which each play distinct roles in neuroinflammation.Rutin,a dietary flavonoid,exhibits protective effects against neuroinflammation.However,whether rutin is able to influence the M1/M2 polarization of microglia remains unclear.In this study,in vitro BV-2 cell models of neuroinflammation were established using 100 ng/mL lipopolysaccharide to investigate the effects of 1-hour rutin pretreatment on microglial polarization.The results revealed that rutin pretreatment reduced the expression of the proinflammatory cytokines tumor necrosis factor-α,interleukin-1β,and interleukin-6 and increased the secretion of interleukin-10.Rutin pretreatment also downregulated the expression of the M1 microglial markers CD86 and inducible nitric oxide synthase and upregulated the expression of the M2 microglial markers arginase 1 and CD206.Rutin pretreatment inhibited the expression of Toll-like receptor 4 and myeloid differentiation factor 88 and blocked the phosphorylation of I kappa B kinase and nuclear factor-kappa B.These results showed that rutin pretreatment may promote the phenotypic switch of microglia M1 to M2 by inhibiting the Toll-like receptor 4/nuclear factor-kappa B signaling pathway to alleviate lipopolysaccharide-induced neuroinflammation.展开更多
Poly(ADP-ribose)polymerase family member 14(PARP14),which is an intracellular mono(ADP-ribosyl)transferase,has been reported to promote post-stroke functional recovery,but its role in spinal cord injury(SCI)remains un...Poly(ADP-ribose)polymerase family member 14(PARP14),which is an intracellular mono(ADP-ribosyl)transferase,has been reported to promote post-stroke functional recovery,but its role in spinal cord injury(SCI)remains unclear.To investigate this,a T10 spinal cord contusion model was established in C57BL/6 mice,and immediately after the injury PARP14 shRNA-carrying lentivirus was injected 1 mm from the injury site to silence PARP14 expression.We found that PARP14 was up-regulated in the injured spinal cord and that lentivirus-mediated downregulation of PARP14 aggravated functional impairment after injury,accompanied by obvious neuronal apoptosis,severe neuroinflammation,and slight bone loss.Furthermore,PARP14 levels were elevated in microglia after SCI,PARP14 knockdown activated microglia in the spinal cord and promoted a shift from M2-polarized microglia(anti-inflammatory phenotype)to M1-polarized microglia(pro-inflammatory phenotype)that may have been mediated by the signal transducers and activators of transcription(STAT)1/6 pathway.Next,microglia M1 and M2 polarization were induced in vitro using lipopolysaccharide/interferon-γand interleukin-4,respectively.The results showed that PARP14 knockdown promoted microglia M1 polarization,accompanied by activation of the STAT1 pathway.In addition,PARP14 overexpression made microglia more prone to M2 polarization and further activated the STAT6 pathway.In conclusion,these findings suggest that PARP14 may improve functional recovery after SCI by regulating the phenotypic transformation of microglia via the STAT1/6 pathway.展开更多
Lycium barbarum(LB)is a traditional Chinese medicine that has been demonstrated to exhibit a wide variety of biological functions,such as antioxidation,neuroprotection,and immune modulation.One of the main mechanisms ...Lycium barbarum(LB)is a traditional Chinese medicine that has been demonstrated to exhibit a wide variety of biological functions,such as antioxidation,neuroprotection,and immune modulation.One of the main mechanisms of Alzheimer’s disease is that microglia activated by amyloid beta(Aβ)transform from the resting state to an M1 state and release pro-inflammatory cytokines to the surrounding environment.In the present study,immortalized microglial cells were pretreated with L.barbarum extract for 1 hour and then treated with oligomeric Aβfor 23 hours.The results showed that LB extract significantly increased the survival of oligomeric Aβ-induced microglial cells,downregulated the expression of M1 pro-inflammatory markers(inducible nitric oxide synthase,tumor necrosis factorα,interleukin-6,and interleukin-1β),and upregulated the expression of M2 anti-inflammatory markers(arginase-1,chitinase-like protein 3,and interleukin-4).LB extract also inhibited the oligomeric Aβ-induced secretion of tumor necrosis factorα,interleukin-6,and interleukin-1βin microglial cells.The results of in vitro cytological experiments suggest that,in microglial cells,LB extract can inhibit oligomeric Aβ-induced M1 polarization and concomitant inflammatory reactions,and promote M2 polarization.展开更多
TMEM16F is involved in many physiological processes such as blood coagulation,cell membrane fusion and bone mineralization.Activation of TMEM16F has been studied in various central nervous system diseases.High TMEM16F...TMEM16F is involved in many physiological processes such as blood coagulation,cell membrane fusion and bone mineralization.Activation of TMEM16F has been studied in various central nervous system diseases.High TMEM16F level has been also found to participate in microglial phagocytosis and transformation.Microglia-mediated neuroinflammation is a key factor in promoting the progression of Alzheimer’s disease.However,few studies have examined the effects of TMEM16F on neuroinflammation in Alzheimer’s disease.In this study,we established TMEM16F-knockdown AD model in vitro and in vivo to investigate the underlying regulatory mechanism about TMEM16F-mediated neuroinflammation in AD.We performed a Morris water maze test to evaluate the spatial memory ability of animals and detected markers for the microglia M1/M2 phenotype and NLRP3 inflammasome.Our results showed that TMEM16F was elevated in 9-month-old APP/PS1 mice.After TMEM16F knockdown in mice,spatial memory ability was improved,microglia polarization to the M2 phenotype was promoted,NLRP3 inflammasome activation was inhibited,cell apoptosis and Aβplaque deposition in brain tissue were reduced,and brain injury was alleviated.We used amyloid-beta(Aβ_(25-35))to stimulate human microglia to construct microglia models of Alzheimer’s disease.The levels of TMEM16F,inducible nitric oxide synthase(iNOS),proinflammatory cytokines and NLRP3 inflammasome-associated biomarkers were higher in Aβ_(25-35) treated group compared with that in the control group.TMEM16F knockdown enhanced the expression of the M2 phenotype biomarkers Arg1 and Socs3,reduced the release of proinflammatory factors interleukin-1,interleukin-6 and tumor necrosis factor-α,and inhibited NLRP3 inflammasome activation through reducing downstream proinflammatory factors interleukin-1βand interleukin-18.This inhibitory effect of TMEM16F knockdown on M1 microglia was partially reversed by the NLRP3 agonist Nigericin.Our findings suggest that TMEM16F participates in neuroinflammation in Alzheimer’s disease through participating in polarization of microglia and activation of the NLRP3 inflammasome.These results indicate that TMEM16F inhibition may be a potential therapeutic approach for Alzheimer’s disease treatment.展开更多
Interleukin-4 plays an important protective role in Alzheimer’s disease by regulating microglial phenotype,phagocytosis of amyloid-β,and secretion of anti-inflammatory and neurotrophic cytokines.Recently,increasing ...Interleukin-4 plays an important protective role in Alzheimer’s disease by regulating microglial phenotype,phagocytosis of amyloid-β,and secretion of anti-inflammatory and neurotrophic cytokines.Recently,increasing evidence has suggested that autophagy regulates innate immunity by affecting M1/M2 polarization of microglia/macrophages.However,the role of interleukin-4 in microglial autophagy is unknown.In view of this,BV2 microglia were treated with 0,10,20 or 50 ng/mL interleukin-4 for 24,48,or 72 hours.Subsequently,light chain 3-II and p62 protein expression levels were detected by western blot assay.BV2 microglia were incubated with interleukin-4(20 ng/mL,experimental group),3-methyladenine(500μM,autophagy inhibitor,negative control group),rapamycin(100 nM,autophagy inductor,positive control group),3-methyladenine+interleukin-4(rescue group),or without treatment for 24 hours,and then exposed to amyloid-β(1μM,model group)or vehicle control(control)for 24 hours.LC3-II and p62 protein expression levels were again detected by western blot assay.In addition,expression levels of multiple markers of M1 and M2 phenotype were assessed by real-time fluorescence quantitative polymerase chain reaction,while intracellular and supernatant amyloid-βprotein levels were measured by enzyme-linked immunosorbent assay.Our results showed that interleukin-4 induced microglial autophagic flux,most significantly at 20 ng/mL for 48 hours.Interleukin-4 pretreated microglia inhibited blockade of amyloid-β-induced autophagic flux,and promoted amyloid-βuptake and degradation partly through autophagic flux,but inhibited switching of amyloid-β-induced M1 phenotype independent on autophagic flux.These results indicate that interleukin-4 pretreated microglia increases uptake and degradation of amyloid-βin a process partly mediated by autophagy,which may play a protective role against Alzheimer’s disease.展开更多
Aim Following cerebral isehemia, microglia respond to the injury acting as the first defense of central nervous system. Activated microglia play a dual role in the ischemie injury depending on the phenotype of micro-...Aim Following cerebral isehemia, microglia respond to the injury acting as the first defense of central nervous system. Activated microglia play a dual role in the ischemie injury depending on the phenotype of micro- gila, including deleterious M1 phenotype and neuroprotective M2 phenotype. However, microglia show transient M2 phenotype followed by a transition to M1 phenotype aggravating the ischemic injury. Many signal pathways par- ticipate in the modulation of microglial polarization , presenting potential therapeutic targets for selectively inducing the polarization of M2 microglia. In this review, we discuss M2 microglia phenotype mediated neuroprotective role and the signaling cascades controlling microglial phenotype after ischemic stroke.展开更多
Inflammation plays a crucial role in the regeneration of fish and avian retinas.However,how inflammation regulates Müller glia(MG)reprogramming remains unclear.Here,we used single-cell RNA sequencing to investiga...Inflammation plays a crucial role in the regeneration of fish and avian retinas.However,how inflammation regulates Müller glia(MG)reprogramming remains unclear.Here,we used single-cell RNA sequencing to investigate the cell heterogeneity and interactions of MG and immune cells in the regenerating zebrafish retina.We first showed that two types of quiescent MG(resting MG1 and MG2)reside in the uninjured retina.Following retinal injury,resting MG1 transitioned into an activated state expressing known reprogramming genes,while resting MG2 gave rise to rod progenitors.We further showed that retinal microglia can be categorized into three subtypes(microglia-1,microglia-2,and proliferative)and pseudotime analysis demonstrated dynamic changes in microglial status following retinal injury.Analysis of cell–cell interactions indicated extensive crosstalk between immune cells and MG,with many interactions shared among different immune cell types.Finally,we showed that inflammation activated Jak1–Stat3 signaling in MG,promoting their transition from a resting to an activated state.Our study reveals the cell heterogeneity and crosstalk of immune cells and MG in zebrafish retinal repair,and may provide valuable insights into future mammalian retina regeneration.展开更多
Germinal matrix hemorrhage is one of the leading causes of morbidity,mortality,and acquired infantile hydrocephalus in preterm infants in the United States,with little progress made in its clinical management.Blood cl...Germinal matrix hemorrhage is one of the leading causes of morbidity,mortality,and acquired infantile hydrocephalus in preterm infants in the United States,with little progress made in its clinical management.Blood clots have been shown to elicit secondary brain injury after germinal matrix hemorrhage,by disrupting normal cerebrospinal fluid circulation and absorption after germinal matrix hemorrhage causing post-hemorrhagic hydrocephalus development.Current evidence suggests that rapid hematoma resolution is necessary to improve neurological outcomes after hemorrhagic stroke.Various articles have demonstrated the beneficial effects of stimulating the polarization of microglia cells into the M2 phenotype,as it has been suggested that they play an essential role in the rapid phagocytosis of the blood clot after hemorrhagic models of stroke.N-formyl peptide receptor 2(FPR2),a G-protein-coupled receptor,has been shown to be neuroprotective after stroke.FPR2 activation has been associated with the upregulation of phagocytic macrophage clearance,yet its mechanism has not been fully explored.Recent literature suggests that FPR2 may play a role in the stimulation of scavenger receptor CD36.Scavenger receptor CD36 plays a vital role in microglia phagocytic blood clot clearance after germinal matrix hemorrhage.FPR2 has been shown to phosphorylate extracellular-signal-regulated kinase 1/2(ERK1/2),which then promotes the transcription of the dual-specificity protein phosphatase 1(DUSP1)gene.In this review,we present an intrinsic outline of the main components involved in FPR2 stimulation and hematoma resolution after germinal matrix hemorrhage.展开更多
Neuroinflammation and the NACHT,LRR,and PYD domains-containing protein 3 inflammasome play crucial roles in secondary tissue damage following an initial insult in patients with traumatic brain injury(TBI).Maraviroc,a ...Neuroinflammation and the NACHT,LRR,and PYD domains-containing protein 3 inflammasome play crucial roles in secondary tissue damage following an initial insult in patients with traumatic brain injury(TBI).Maraviroc,a C-C chemokine receptor type 5 antagonist,has been viewed as a new therapeutic strategy for many neuroinflammatory diseases.We studied the effect of maraviroc on TBI-induced neuroinflammation.A moderate-TBI mouse model was subjected to a controlled cortical impact device.Maraviroc or vehicle was injected intraperitoneally 1 hour after TBI and then once per day for 3 consecutive days.Western blot,immunohistochemistry,and TUNEL(terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling)analyses were performed to evaluate the molecular mechanisms of maraviroc at 3 days post-TBI.Our results suggest that maraviroc administration reduced NACHT,LRR,and PYD domains-containing protein 3 inflammasome activation,modulated microglial polarization from M1 to M2,decreased neutrophil and macrophage infiltration,and inhibited the release of inflammatory factors after TBI.Moreover,maraviroc treatment decreased the activation of neurotoxic reactive astrocytes,which,in turn,exacerbated neuronal cell death.Additionally,we confirmed the neuroprotective effect of maraviroc using the modified neurological severity score,rotarod test,Morris water maze test,and lesion volume measurements.In summary,our findings indicate that maraviroc might be a desirable pharmacotherapeutic strategy for TBI,and C-C chemokine receptor type 5 might be a promising pharmacotherapeutic target to improve recovery after TBI.展开更多
Retinal injury after blunt ocular trauma may directly affect prognosis and lead to vision loss.To investigate the pathological changes and molecular mechanisms involved in retinal injury after blunt ocular trauma,we e...Retinal injury after blunt ocular trauma may directly affect prognosis and lead to vision loss.To investigate the pathological changes and molecular mechanisms involved in retinal injury after blunt ocular trauma,we established a weight drop injury model of blunt ocular trauma in male Beagle dogs.Hematoxylin-eosin staining,immunofluorescence staining,western blotting,and TUNEL assays were performed to investigate retinal injury within 14 days after blunt ocular trauma.Compared with the control group,the thicknesses of the inner and outer nuclear layers,as well as the number of retinal ganglion cells,gradually decreased within 14 days after injury.The number of bipolar cells in the inner nuclear layer began to decrease 1 day after injury,while the numbers of cholinergic and amacrine cells in the inner nuclear layer did not decrease until 7 days after injury.Moreover,retinal cell necroptosis increased with time after injury;it progressed from the ganglion cell layer to the outer nuclear layer.Visual electrophysiological findings indicated that visual impairment began on the first day after injury and worsened over time.Additionally,blunt ocular trauma induced nerve regeneration and Müller glial hyperplasia;it also resulted in the recruitment of microglia to the retina and polarization of those microglia to the M1 phenotype.These findings suggest that necroptosis plays an important role in exacerbating retinal injury after blunt ocular trauma via gliosis and neuroinflammation.Such a role has important implications for the development of therapeutic strategies.展开更多
Ischemic stroke is an acute and serious cerebral vascular disease,which greatly affects people’s health and brings huge economic burden to society.Microglia,as important innate immune components in central nervous sy...Ischemic stroke is an acute and serious cerebral vascular disease,which greatly affects people’s health and brings huge economic burden to society.Microglia,as important innate immune components in central nervous system(CNS),are double-edged swords in the battle of nerve injury,considering their polarization between pro-inflammatory M1 or anti-inflammatory M2 phenotypes.High mobility group box 1(HMGB1)is one of the potent pro-inflammatory mediators that promotes the M1 polarization of microglia.18β-glycyrrhetinic acid(GA)is an effective intracellular inhibitor of HMGB1,but of poor water solubility and dose-dependent toxicity.To overcome the shortcomings of GA delivery and to improve the efficacy of cerebral ischemia therapy,herein,we designed reactive oxygen species(ROS)responsive polymer-drug conjugate nanoparticles(DGA)to manipulate microglia polarization by suppressing the translocation of nuclear HMGB1.DGA presented excellent therapeutic efficacy in stroke mice,as evidenced by the reduction of infarct volume,recovery of motor function,suppressed of M1 microglia activation and enhanced M2 activation,and induction of neurogenesis.Altogether,our work demonstrates a close association between HMGB1 and microglia polarization,suggesting potential strategies for coping with inflammatory microglia-related diseases.展开更多
We investigate deviation matrix for discrete-time GI/M/1-type Markov chains in terms of the matrix-analytic method, and revisit the link between deviation matrix and the asymptotic variance. Parallel results are obtai...We investigate deviation matrix for discrete-time GI/M/1-type Markov chains in terms of the matrix-analytic method, and revisit the link between deviation matrix and the asymptotic variance. Parallel results are obtained for continuous-time GI/M/1-type Markov chains based on the technique of uniformization. We conclude with A. B. Clarke's tandem queue as an illustrative example, and compute the asymptotic variance for the queue length for this model.展开更多
基金supported by the National Natural Science Foundation of China,Nos.81801220(to MGZ),81671204(to JHJ)Key Research and Development Projects of Anhui Province of China,No.202004j07020042(to JHJ)。
文摘After spinal cord injury(SCI),astrocytes gradually migrate to and surround the lesion,depositing chondroitin sulfate proteoglycan-rich extracellular matrix and forming astrocytic scar,which limits the spread of inflammation but hinders axon regeneration.Meanwhile,microglia gradually accumulate at the lesion border to form microglial scar and can polarize to generate a pro-inflammatory M1 phenotype or an anti-inflammatory M2 phenotype.However,the effect of microglia polarization on astrocytes is unclear.Here,we found that both microglia(CX3 CR1^(+))and astrocytes(GFAP^(+))gathered at the lesion border at 14 days post-injury(dpi).The microglia accumulated along the inner border of and in direct contact with the astrocytes.M1-type microglia(i NOS^(+)CX3 CR1^(+))were primarily observed at 3 and 7 dpi,while M2-type microglia(Arg1^(+)CX3 CR1^(+))were present at larger numbers at 7 and 14 dpi.Transforming growth factor-β1(TGFβ1)was highly expressed in M1 microglia in vitro,consistent with strong expression of TGFβ1 by microglia in vivo at 3 and 7 dpi,when they primarily exhibited an M1 phenotype.Furthermore,conditioned media from M1-type microglia induced astrocytes to secrete chondroitin sulfate proteoglycan in vitro.This effect was eliminated by knocking down sex-determining region Y-box 9(SOX9)in astrocytes and could not be reversed by treatment with TGFβ1.Taken together,our results suggest that microglia undergo M1 polarization and express high levels of TGFβ1 at 3 and 7 dpi,and that M1-type microglia induce astrocytes to deposit chondroitin sulfate proteoglycan via the TGFβ1/SOX9 pathway.The study was approved by the Institutional Animal Care and Use Committee of Anhui Medical University,China(approval No.LLSC20160052)on March 1,2016.
基金supported by the National Natural Science Foundation of China,Nos.81730033,82171193(to XG)the Key Talent Project for Strengthening Health during the 13^(th)Five-Year Plan Period,No.ZDRCA2016069(to XG)+1 种基金the National Key R&D Program of China,No.2018YFC2001901(to XG)Jiangsu Provincial Medical Key Discipline,No.ZDXK202232(to XG)。
文摘Postoperative cognitive dysfunction is a seve re complication of the central nervous system that occurs after anesthesia and surgery,and has received attention for its high incidence and effect on the quality of life of patients.To date,there are no viable treatment options for postoperative cognitive dysfunction.The identification of postoperative cognitive dysfunction hub genes could provide new research directions and therapeutic targets for future research.To identify the signaling mechanisms contributing to postoperative cognitive dysfunction,we first conducted Gene Ontology and Kyoto Encyclopedia of Genes and Genomes pathway enrichment analyses of the Gene Expression Omnibus GSE95426 dataset,which consists of mRNAs and long non-coding RNAs differentially expressed in mouse hippocampus3 days after tibial fracture.The dataset was enriched in genes associated with the biological process"regulation of immune cells,"of which Chill was identified as a hub gene.Therefore,we investigated the contribution of chitinase-3-like protein 1 protein expression changes to postoperative cognitive dysfunction in the mouse model of tibial fractu re surgery.Mice were intraperitoneally injected with vehicle or recombinant chitinase-3-like protein 124 hours post-surgery,and the injection groups were compared with untreated control mice for learning and memory capacities using the Y-maze and fear conditioning tests.In addition,protein expression levels of proinflammatory factors(interleukin-1βand inducible nitric oxide synthase),M2-type macrophage markers(CD206 and arginase-1),and cognition-related proteins(brain-derived neurotropic factor and phosphorylated NMDA receptor subunit NR2B)were measured in hippocampus by western blotting.Treatment with recombinant chitinase-3-like protein 1 prevented surgery-induced cognitive impairment,downregulated interleukin-1βand nducible nitric oxide synthase expression,and upregulated CD206,arginase-1,pNR2B,and brain-derived neurotropic factor expression compared with vehicle treatment.Intraperitoneal administration of the specific ERK inhibitor PD98059 diminished the effects of recombinant chitinase-3-like protein 1.Collectively,our findings suggest that recombinant chitinase-3-like protein 1 ameliorates surgery-induced cognitive decline by attenuating neuroinflammation via M2 microglial polarization in the hippocampus.Therefore,recombinant chitinase-3-like protein1 may have therapeutic potential fo r postoperative cognitive dysfunction.
文摘Microglia are present throughout the central nervous system and are vital in neural repair,nutrition,phagocytosis,immunological regulation,and maintaining neuronal function.In a healthy spinal cord,microglia are accountable for immune surveillance,however,when a spinal cord injury occurs,the microenvironment drastically changes,leading to glial scars and failed axonal regeneration.In this context,microglia vary their gene and protein expression during activation,and proliferation in reaction to the injury,influencing injury responses both favorably and unfavorably.A dynamic and multifaceted injury response is mediated by microglia,which interact directly with neurons,astrocytes,oligodendrocytes,and neural stem/progenitor cells.Despite a clear understanding of their essential nature and origin,the mechanisms of action and new functions of microglia in spinal cord injury require extensive research.This review summarizes current studies on microglial genesis,physiological function,and pathological state,highlights their crucial roles in spinal cord injury,and proposes microglia as a therapeutic target.
基金This study was supported by the Natural Science and Technology Foundation of Zunyi City,China,No.201915(to GPL)Doctor Startup Foundation of Zunyi Medical University,Nos.[2017]5733-045(to GPL),[2017]5733-044(to YYH)Natural Science and Technology Foundation of Guizhou Province,China,No.[2020]1Y292(to YYH).
文摘Microglial cells are important resident innate immune components in the central nervous system that are often activated during neuroinflammation.Activated microglia can display one of two phenotypes,M1 or M2,which each play distinct roles in neuroinflammation.Rutin,a dietary flavonoid,exhibits protective effects against neuroinflammation.However,whether rutin is able to influence the M1/M2 polarization of microglia remains unclear.In this study,in vitro BV-2 cell models of neuroinflammation were established using 100 ng/mL lipopolysaccharide to investigate the effects of 1-hour rutin pretreatment on microglial polarization.The results revealed that rutin pretreatment reduced the expression of the proinflammatory cytokines tumor necrosis factor-α,interleukin-1β,and interleukin-6 and increased the secretion of interleukin-10.Rutin pretreatment also downregulated the expression of the M1 microglial markers CD86 and inducible nitric oxide synthase and upregulated the expression of the M2 microglial markers arginase 1 and CD206.Rutin pretreatment inhibited the expression of Toll-like receptor 4 and myeloid differentiation factor 88 and blocked the phosphorylation of I kappa B kinase and nuclear factor-kappa B.These results showed that rutin pretreatment may promote the phenotypic switch of microglia M1 to M2 by inhibiting the Toll-like receptor 4/nuclear factor-kappa B signaling pathway to alleviate lipopolysaccharide-induced neuroinflammation.
基金supported by the Shenyang Science and Technology Project,No.20-205-4-092(to AHX)。
文摘Poly(ADP-ribose)polymerase family member 14(PARP14),which is an intracellular mono(ADP-ribosyl)transferase,has been reported to promote post-stroke functional recovery,but its role in spinal cord injury(SCI)remains unclear.To investigate this,a T10 spinal cord contusion model was established in C57BL/6 mice,and immediately after the injury PARP14 shRNA-carrying lentivirus was injected 1 mm from the injury site to silence PARP14 expression.We found that PARP14 was up-regulated in the injured spinal cord and that lentivirus-mediated downregulation of PARP14 aggravated functional impairment after injury,accompanied by obvious neuronal apoptosis,severe neuroinflammation,and slight bone loss.Furthermore,PARP14 levels were elevated in microglia after SCI,PARP14 knockdown activated microglia in the spinal cord and promoted a shift from M2-polarized microglia(anti-inflammatory phenotype)to M1-polarized microglia(pro-inflammatory phenotype)that may have been mediated by the signal transducers and activators of transcription(STAT)1/6 pathway.Next,microglia M1 and M2 polarization were induced in vitro using lipopolysaccharide/interferon-γand interleukin-4,respectively.The results showed that PARP14 knockdown promoted microglia M1 polarization,accompanied by activation of the STAT1 pathway.In addition,PARP14 overexpression made microglia more prone to M2 polarization and further activated the STAT6 pathway.In conclusion,these findings suggest that PARP14 may improve functional recovery after SCI by regulating the phenotypic transformation of microglia via the STAT1/6 pathway.
基金supported by Midstream Research Program for UniversitiesHong Kong Special Administrative Region,China,No.MRP-092-17X。
文摘Lycium barbarum(LB)is a traditional Chinese medicine that has been demonstrated to exhibit a wide variety of biological functions,such as antioxidation,neuroprotection,and immune modulation.One of the main mechanisms of Alzheimer’s disease is that microglia activated by amyloid beta(Aβ)transform from the resting state to an M1 state and release pro-inflammatory cytokines to the surrounding environment.In the present study,immortalized microglial cells were pretreated with L.barbarum extract for 1 hour and then treated with oligomeric Aβfor 23 hours.The results showed that LB extract significantly increased the survival of oligomeric Aβ-induced microglial cells,downregulated the expression of M1 pro-inflammatory markers(inducible nitric oxide synthase,tumor necrosis factorα,interleukin-6,and interleukin-1β),and upregulated the expression of M2 anti-inflammatory markers(arginase-1,chitinase-like protein 3,and interleukin-4).LB extract also inhibited the oligomeric Aβ-induced secretion of tumor necrosis factorα,interleukin-6,and interleukin-1βin microglial cells.The results of in vitro cytological experiments suggest that,in microglial cells,LB extract can inhibit oligomeric Aβ-induced M1 polarization and concomitant inflammatory reactions,and promote M2 polarization.
基金supported by the National Natural Science Foundation of China,No.82072941(to QHX)Liaoning Province Key R&D Program Guidance Project,No.2020JH2/10300044Science and Technology Plan Project of Shenyang,No.20-205-4-050(both to XHS)。
文摘TMEM16F is involved in many physiological processes such as blood coagulation,cell membrane fusion and bone mineralization.Activation of TMEM16F has been studied in various central nervous system diseases.High TMEM16F level has been also found to participate in microglial phagocytosis and transformation.Microglia-mediated neuroinflammation is a key factor in promoting the progression of Alzheimer’s disease.However,few studies have examined the effects of TMEM16F on neuroinflammation in Alzheimer’s disease.In this study,we established TMEM16F-knockdown AD model in vitro and in vivo to investigate the underlying regulatory mechanism about TMEM16F-mediated neuroinflammation in AD.We performed a Morris water maze test to evaluate the spatial memory ability of animals and detected markers for the microglia M1/M2 phenotype and NLRP3 inflammasome.Our results showed that TMEM16F was elevated in 9-month-old APP/PS1 mice.After TMEM16F knockdown in mice,spatial memory ability was improved,microglia polarization to the M2 phenotype was promoted,NLRP3 inflammasome activation was inhibited,cell apoptosis and Aβplaque deposition in brain tissue were reduced,and brain injury was alleviated.We used amyloid-beta(Aβ_(25-35))to stimulate human microglia to construct microglia models of Alzheimer’s disease.The levels of TMEM16F,inducible nitric oxide synthase(iNOS),proinflammatory cytokines and NLRP3 inflammasome-associated biomarkers were higher in Aβ_(25-35) treated group compared with that in the control group.TMEM16F knockdown enhanced the expression of the M2 phenotype biomarkers Arg1 and Socs3,reduced the release of proinflammatory factors interleukin-1,interleukin-6 and tumor necrosis factor-α,and inhibited NLRP3 inflammasome activation through reducing downstream proinflammatory factors interleukin-1βand interleukin-18.This inhibitory effect of TMEM16F knockdown on M1 microglia was partially reversed by the NLRP3 agonist Nigericin.Our findings suggest that TMEM16F participates in neuroinflammation in Alzheimer’s disease through participating in polarization of microglia and activation of the NLRP3 inflammasome.These results indicate that TMEM16F inhibition may be a potential therapeutic approach for Alzheimer’s disease treatment.
基金supported by the Natural Science Foundation of Liaoning Province of China,No.20170541036(to HYL)
文摘Interleukin-4 plays an important protective role in Alzheimer’s disease by regulating microglial phenotype,phagocytosis of amyloid-β,and secretion of anti-inflammatory and neurotrophic cytokines.Recently,increasing evidence has suggested that autophagy regulates innate immunity by affecting M1/M2 polarization of microglia/macrophages.However,the role of interleukin-4 in microglial autophagy is unknown.In view of this,BV2 microglia were treated with 0,10,20 or 50 ng/mL interleukin-4 for 24,48,or 72 hours.Subsequently,light chain 3-II and p62 protein expression levels were detected by western blot assay.BV2 microglia were incubated with interleukin-4(20 ng/mL,experimental group),3-methyladenine(500μM,autophagy inhibitor,negative control group),rapamycin(100 nM,autophagy inductor,positive control group),3-methyladenine+interleukin-4(rescue group),or without treatment for 24 hours,and then exposed to amyloid-β(1μM,model group)or vehicle control(control)for 24 hours.LC3-II and p62 protein expression levels were again detected by western blot assay.In addition,expression levels of multiple markers of M1 and M2 phenotype were assessed by real-time fluorescence quantitative polymerase chain reaction,while intracellular and supernatant amyloid-βprotein levels were measured by enzyme-linked immunosorbent assay.Our results showed that interleukin-4 induced microglial autophagic flux,most significantly at 20 ng/mL for 48 hours.Interleukin-4 pretreated microglia inhibited blockade of amyloid-β-induced autophagic flux,and promoted amyloid-βuptake and degradation partly through autophagic flux,but inhibited switching of amyloid-β-induced M1 phenotype independent on autophagic flux.These results indicate that interleukin-4 pretreated microglia increases uptake and degradation of amyloid-βin a process partly mediated by autophagy,which may play a protective role against Alzheimer’s disease.
文摘Aim Following cerebral isehemia, microglia respond to the injury acting as the first defense of central nervous system. Activated microglia play a dual role in the ischemie injury depending on the phenotype of micro- gila, including deleterious M1 phenotype and neuroprotective M2 phenotype. However, microglia show transient M2 phenotype followed by a transition to M1 phenotype aggravating the ischemic injury. Many signal pathways par- ticipate in the modulation of microglial polarization , presenting potential therapeutic targets for selectively inducing the polarization of M2 microglia. In this review, we discuss M2 microglia phenotype mediated neuroprotective role and the signaling cascades controlling microglial phenotype after ischemic stroke.
基金supported by the National Natural Science Foundation of China,Nos.81970820(to HX),31771644(to JL),31930068(to JL),82371176(to JL),81801331(to LC)National Key Research and Development Project of China.Nos.2017YFA0104100(to JL),2017YFA0701304(to HX)+1 种基金Shanghai Yangzhi Rehabilitation Hospital(Shanghai Sunshine Rehabilitation Center)Talent Introduction Plan,No.KYPT202204(to LC)the Fundamental Research Funds for the Central Universities,No.22120230292(to JL)。
文摘Inflammation plays a crucial role in the regeneration of fish and avian retinas.However,how inflammation regulates Müller glia(MG)reprogramming remains unclear.Here,we used single-cell RNA sequencing to investigate the cell heterogeneity and interactions of MG and immune cells in the regenerating zebrafish retina.We first showed that two types of quiescent MG(resting MG1 and MG2)reside in the uninjured retina.Following retinal injury,resting MG1 transitioned into an activated state expressing known reprogramming genes,while resting MG2 gave rise to rod progenitors.We further showed that retinal microglia can be categorized into three subtypes(microglia-1,microglia-2,and proliferative)and pseudotime analysis demonstrated dynamic changes in microglial status following retinal injury.Analysis of cell–cell interactions indicated extensive crosstalk between immune cells and MG,with many interactions shared among different immune cell types.Finally,we showed that inflammation activated Jak1–Stat3 signaling in MG,promoting their transition from a resting to an activated state.Our study reveals the cell heterogeneity and crosstalk of immune cells and MG in zebrafish retinal repair,and may provide valuable insights into future mammalian retina regeneration.
基金supported in part by the National Institutes of Health grant 5R01NS117364-02(to JT)。
文摘Germinal matrix hemorrhage is one of the leading causes of morbidity,mortality,and acquired infantile hydrocephalus in preterm infants in the United States,with little progress made in its clinical management.Blood clots have been shown to elicit secondary brain injury after germinal matrix hemorrhage,by disrupting normal cerebrospinal fluid circulation and absorption after germinal matrix hemorrhage causing post-hemorrhagic hydrocephalus development.Current evidence suggests that rapid hematoma resolution is necessary to improve neurological outcomes after hemorrhagic stroke.Various articles have demonstrated the beneficial effects of stimulating the polarization of microglia cells into the M2 phenotype,as it has been suggested that they play an essential role in the rapid phagocytosis of the blood clot after hemorrhagic models of stroke.N-formyl peptide receptor 2(FPR2),a G-protein-coupled receptor,has been shown to be neuroprotective after stroke.FPR2 activation has been associated with the upregulation of phagocytic macrophage clearance,yet its mechanism has not been fully explored.Recent literature suggests that FPR2 may play a role in the stimulation of scavenger receptor CD36.Scavenger receptor CD36 plays a vital role in microglia phagocytic blood clot clearance after germinal matrix hemorrhage.FPR2 has been shown to phosphorylate extracellular-signal-regulated kinase 1/2(ERK1/2),which then promotes the transcription of the dual-specificity protein phosphatase 1(DUSP1)gene.In this review,we present an intrinsic outline of the main components involved in FPR2 stimulation and hematoma resolution after germinal matrix hemorrhage.
基金supported by grants from the National Natural Science Foundation of China, Nos. 81930031 (to JNZ), 81720108015 (to JNZ), 81901525 (to SZ), 82101440 (to DDS), 81801234 (to YZ) and 82071389 (to GLY)the Natural Science Foundation of Tianjin, Nos. 20JCQNJC01270 (to JWW), 20JCQNJC00460 (to GLY), 18JCQNJC81000 (to HTR)+4 种基金Scientific Research Project of Tianjin Education Commission (Natural Science), No. 2018KJ052 (to ZWZ)Tianjin Health and Health Committee Science and Technology Project, No. QN20015 (to JWW)the Science & Technology Development Fund of Tianjin Education Commission for Higher Education, No. 2016YD02 (to YW)Tianjin Key Science and Technology Projects of Innovative Drugs and Medical Devices, No. 19ZXYXSY00070 (to YW)the Clinical Research Fundation of Tianjin Medical University, No. 2018kylc002 (to YW)
文摘Neuroinflammation and the NACHT,LRR,and PYD domains-containing protein 3 inflammasome play crucial roles in secondary tissue damage following an initial insult in patients with traumatic brain injury(TBI).Maraviroc,a C-C chemokine receptor type 5 antagonist,has been viewed as a new therapeutic strategy for many neuroinflammatory diseases.We studied the effect of maraviroc on TBI-induced neuroinflammation.A moderate-TBI mouse model was subjected to a controlled cortical impact device.Maraviroc or vehicle was injected intraperitoneally 1 hour after TBI and then once per day for 3 consecutive days.Western blot,immunohistochemistry,and TUNEL(terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling)analyses were performed to evaluate the molecular mechanisms of maraviroc at 3 days post-TBI.Our results suggest that maraviroc administration reduced NACHT,LRR,and PYD domains-containing protein 3 inflammasome activation,modulated microglial polarization from M1 to M2,decreased neutrophil and macrophage infiltration,and inhibited the release of inflammatory factors after TBI.Moreover,maraviroc treatment decreased the activation of neurotoxic reactive astrocytes,which,in turn,exacerbated neuronal cell death.Additionally,we confirmed the neuroprotective effect of maraviroc using the modified neurological severity score,rotarod test,Morris water maze test,and lesion volume measurements.In summary,our findings indicate that maraviroc might be a desirable pharmacotherapeutic strategy for TBI,and C-C chemokine receptor type 5 might be a promising pharmacotherapeutic target to improve recovery after TBI.
基金supported by the National Natural Science Foundation of China,No.81600738the Youth Development Project of Air Force Medical University,No.21QNPY072(both to FF)。
文摘Retinal injury after blunt ocular trauma may directly affect prognosis and lead to vision loss.To investigate the pathological changes and molecular mechanisms involved in retinal injury after blunt ocular trauma,we established a weight drop injury model of blunt ocular trauma in male Beagle dogs.Hematoxylin-eosin staining,immunofluorescence staining,western blotting,and TUNEL assays were performed to investigate retinal injury within 14 days after blunt ocular trauma.Compared with the control group,the thicknesses of the inner and outer nuclear layers,as well as the number of retinal ganglion cells,gradually decreased within 14 days after injury.The number of bipolar cells in the inner nuclear layer began to decrease 1 day after injury,while the numbers of cholinergic and amacrine cells in the inner nuclear layer did not decrease until 7 days after injury.Moreover,retinal cell necroptosis increased with time after injury;it progressed from the ganglion cell layer to the outer nuclear layer.Visual electrophysiological findings indicated that visual impairment began on the first day after injury and worsened over time.Additionally,blunt ocular trauma induced nerve regeneration and Müller glial hyperplasia;it also resulted in the recruitment of microglia to the retina and polarization of those microglia to the M1 phenotype.These findings suggest that necroptosis plays an important role in exacerbating retinal injury after blunt ocular trauma via gliosis and neuroinflammation.Such a role has important implications for the development of therapeutic strategies.
基金support of the National Natural Science Foundation of China(No.22161132027,51822306)Key Research and Development Program of Zhejiang Province(No.2020C03042)the Starry Night Science Fund of Zhejiang University Shanghai Institute for Advanced Study(SN-ZJU-SIAS-006).
文摘Ischemic stroke is an acute and serious cerebral vascular disease,which greatly affects people’s health and brings huge economic burden to society.Microglia,as important innate immune components in central nervous system(CNS),are double-edged swords in the battle of nerve injury,considering their polarization between pro-inflammatory M1 or anti-inflammatory M2 phenotypes.High mobility group box 1(HMGB1)is one of the potent pro-inflammatory mediators that promotes the M1 polarization of microglia.18β-glycyrrhetinic acid(GA)is an effective intracellular inhibitor of HMGB1,but of poor water solubility and dose-dependent toxicity.To overcome the shortcomings of GA delivery and to improve the efficacy of cerebral ischemia therapy,herein,we designed reactive oxygen species(ROS)responsive polymer-drug conjugate nanoparticles(DGA)to manipulate microglia polarization by suppressing the translocation of nuclear HMGB1.DGA presented excellent therapeutic efficacy in stroke mice,as evidenced by the reduction of infarct volume,recovery of motor function,suppressed of M1 microglia activation and enhanced M2 activation,and induction of neurogenesis.Altogether,our work demonstrates a close association between HMGB1 and microglia polarization,suggesting potential strategies for coping with inflammatory microglia-related diseases.
基金Acknowledgements This work was supported in part by the National Natural Science Foundation of China (Grant No. 11211120]44) and the Fundamental Research Funds for the Central Universities (Grant 2010QYZD001).
文摘We investigate deviation matrix for discrete-time GI/M/1-type Markov chains in terms of the matrix-analytic method, and revisit the link between deviation matrix and the asymptotic variance. Parallel results are obtained for continuous-time GI/M/1-type Markov chains based on the technique of uniformization. We conclude with A. B. Clarke's tandem queue as an illustrative example, and compute the asymptotic variance for the queue length for this model.
