Macrophages in the brain barrier system include microglia in the brain parenchyma,border-associated macrophages at the brain’s borders,and recruited macrophages.They are responsible for neural development,maintenance...Macrophages in the brain barrier system include microglia in the brain parenchyma,border-associated macrophages at the brain’s borders,and recruited macrophages.They are responsible for neural development,maintenance of homeostasis,and orchestrating immune responses.With the rapid exploitation and development of new technologies,there is a deeper understanding of macrophages in the brain barrier system.Here we review the origin,development,important molecules,and functions of macrophages,mainly focusing on microglia and border-associated macrophages.We also highlight some advances in single-cell sequencing and significant cell markers.We anticipate that more advanced methods will emerge to study resident and recruited macrophages in the future,opening new horizons for neuroimmunology and related peripheral immune fields.展开更多
Border-associated macrophages are located at the interface between the brain and the periphery, including the perivascular spaces, choroid plexus, and meninges. Until recently, the functions of border-associated macro...Border-associated macrophages are located at the interface between the brain and the periphery, including the perivascular spaces, choroid plexus, and meninges. Until recently, the functions of border-associated macrophages have been poorly understood and largely overlooked. However, a recent study reported that border-associated macrophages participate in stroke-induced inflammation, although many details and the underlying mechanisms remain unclear. In this study, we performed a comprehensive single-cell analysis of mouse border-associated macrophages using sequencing data obtained from the Gene Expression Omnibus(GEO) database(GSE174574 and GSE225948). Differentially expressed genes were identified, and enrichment analysis was performed to identify the transcription profile of border-associated macrophages. CellChat analysis was conducted to determine the cell communication network of border-associated macrophages. Transcription factors were predicted using the ‘pySCENIC' tool. We found that, in response to hypoxia, borderassociated macrophages underwent dynamic transcriptional changes and participated in the regulation of inflammatory-related pathways. Notably, the tumor necrosis factor pathway was activated by border-associated macrophages following ischemic stroke. The pySCENIC analysis indicated that the activity of signal transducer and activator of transcription 3(Stat3) was obviously upregulated in stroke, suggesting that Stat3 inhibition may be a promising strategy for treating border-associated macrophages-induced neuroinflammation. Finally, we constructed an animal model to investigate the effects of border-associated macrophages depletion following a stroke. Treatment with liposomes containing clodronate significantly reduced infarct volume in the animals and improved neurological scores compared with untreated animals. Taken together, our results demonstrate comprehensive changes in border-associated macrophages following a stroke, providing a theoretical basis for targeting border-associated macrophages-induced neuroinflammation in stroke treatment.展开更多
Diabetes mellitus is an escalating global health issue,with 463 million adults affected in 2019.Without intervention,this number is projected to increase to 578 million by 2030 and 700 million by 2045[1].Diabetic woun...Diabetes mellitus is an escalating global health issue,with 463 million adults affected in 2019.Without intervention,this number is projected to increase to 578 million by 2030 and 700 million by 2045[1].Diabetic wound,a significant complication,is characterized by delayed healing,high disability rates,and elevated mortality[2].The challenges of wound healing in diabetic patients,compounded by their high morbidity and mortality rates,have drawn growing attention in biomedical research.展开更多
Circadian sensitivity significantly influences the severity of noise-induced hearing loss(NIHL),but the underlying mechanisms remain unclear.Here,we applied single-cell RNA sequencing to 97,043 cochlear cells,identify...Circadian sensitivity significantly influences the severity of noise-induced hearing loss(NIHL),but the underlying mechanisms remain unclear.Here,we applied single-cell RNA sequencing to 97,043 cochlear cells,identifying macrophages as the primary immune responders to acoustic trauma,with a notable increase in their proportion in the cochlea.Immunofluorescence confirmed significant recruitment and activation of cochlear macrophages following noise exposure,while in vivo macrophage depletion resulted in the recovery of hearing.Furthermore,analyses of differentially-expressed genes and pathways revealed pronounced activation of NLRP3 inflammasome signaling in macrophages during night-time noise exposure.Measurements of elevated IL-1βand IL-18 expression in cochlear macrophages by multiplex immunohistochemistry correlated with heightened inflammation in the night-time exposure group.These findings were further confirmed by the administration of the selective NLRP3 inhibitor CY-09,which mitigated inflammasome activation,preserved synaptic integrity,and protect against hearing loss.In conclusion,our findings underscore the role of macrophage-driven NLRP3 inflammasome activation in mediating circadian variations in cochlear damage,offering a potential therapeutic target for mitigating NIHL.展开更多
Background:Hepatocellular carcinoma(HCC)is an aggressive and lethal malignancy.Metabolic reprogramming dynamically remodels the tumor microenvironment(TME)and drives HCC progression.This study investigated the mechani...Background:Hepatocellular carcinoma(HCC)is an aggressive and lethal malignancy.Metabolic reprogramming dynamically remodels the tumor microenvironment(TME)and drives HCC progression.This study investigated the mechanism through which metabolic reprogramming remodels the TME in HCC.Methods:HCC patient transcriptome data were subjected to bioinformatics analysis to identify differentially expressed genes and immune infiltration status.Immunohistochemical analysis was performed to determine the correlation between succinate dehydrogenase complex subunit A(SDHA)expression and M2 macrophage infiltration.SDHA-knockdown or SDHA-overexpressing HCC cells were used for in vitro experiments,including co-culturing,flow cytometry,and enzyme-linked immunosorbent assay.Western blotting assay,functional assays,and subcutaneous tumor model mice were used to elucidate the molecular mechanisms underlying succinate-mediated HCC cell-macrophage interactions in the TME.Results:Higher infiltration of M2 macrophages correlated with worse prognosis in HCC patients.SDHA was downregulated in HCC tumor tissues and showed a negative correlation with M2 macrophage infiltration.SDHA knockdown promoted M2 macrophage polarization,whereas SDHA overexpression reversed this effect.Mechanistically,SDHA deficiency in HCC cells induced succinate accumulation,which promoted M2 macrophage polarization by activating the G protein-coupled receptor 91(GPR91)/signal transducer and activator of transcription 3(STAT3)pathway.Concurrently,succinate stimulation enhanced mitochondrial oxidative phosphorylation in M2 macrophages,thereby promoting HCC progression.Serum succinate levels were elevated in HCC patients.The receiver operating characteristic curve analysis indicated that serum succinate is a promising diagnostic marker for HCC(area under the curve=0.815).Conclusion:SDHA deficiency leads to succinate accumulation,which promotes M2 macrophage polarization through the GPR91/STAT3 pathway,thereby facilitating HCC progression.Based on these findings,serum succinate could be a promising diagnostic biomarker for HCC.展开更多
Microglia are the resident macrophages of the central nervous system.They act as the first line of defense against pathogens and play essential roles in neuroinflammation and tissue repair after brain insult or in neu...Microglia are the resident macrophages of the central nervous system.They act as the first line of defense against pathogens and play essential roles in neuroinflammation and tissue repair after brain insult or in neurodegenerative and demyelinating diseases(Borst et al.,2021).Together with infiltrating monocyte-derived macrophages,microglia also play a critical role for brain tumor development,since immunosuppressive interactions between tumor cells and tumor-associated microglia and macrophages(TAM)are linked to malignant progression.This mechanism is of particular relevance in glioblastoma(GB),the deadliest form of brain cancer with a median overall survival of less than 15 months(Khan et al.,2023).Therefore,targeting microglia and macrophage activation is a promising strategy for therapeutic interference in brain disease.展开更多
Colitis-associated colorectal cancer(CAC)is a major contributor to cancer-related mortality worldwide.Titanium dioxide(TiO_(2),E171),a widely used food additive,has been insufficiently studied regarding its effects on...Colitis-associated colorectal cancer(CAC)is a major contributor to cancer-related mortality worldwide.Titanium dioxide(TiO_(2),E171),a widely used food additive,has been insufficiently studied regarding its effects on macrophages within colon tumors during CAC development.In this study,CAC mouse models were used to investigate the biological impact of dietary E171 on macrophages in vivo,while lipopolysaccharide(LPS)-stimulated RAW264.7 macrophage cell lines were employed to elucidate the underlying mechanisms in vitro.We found that dietary E171 intake accelerated CAC development,exacerbated inflammatory responses and oxidative stress,and upregulated CAC-associated genes,including S100a8,S100a9,Lcn2,S100a11,Cxcl2,and interleukin-1α(Il-1α).E171 also increased the expression of S100A8,S100A9,NOD-like receptor family pyrin domain-containing 3(NLRP3),and gasdermin-D Nterminal(GSDMD-N)in macrophages within colon tumors.In inflammatory macrophages,E171 exposure enhanced cell viability,increased reactive oxygen species(ROS)levels,and elevated the expression and secretion of S100A8 and S100A9,consistent with in vivo histological observations.Furthermore,E171-induced secretion of S100A8 and S100A9 in macrophages was suppressed by specific inhibitors,including N-acetylcysteine(NAC,ROS inhibitor),MCC950(NLRP3 inhibitor),Z-YVAD-FMK(caspase 1 inhibitor),disulfiram(GSDMD inhibitor),and transfection of NLRP3 small interfering ribonucleic acid(siRNA).These results indicate that dietary E171 promotes CAC development by activating macrophages,with S100A8 and S100A9 serving as key mediators,and the NLRP3/caspase 1/GSDMD pathway acting as a critical mechanism.展开更多
Tendon-related diseases(TRDs)are increasingly common in the current aging society and impose a significant burden on patients.Despite therapeutic advances,the pathophysiology of TRDs remains poorly understood,hinderin...Tendon-related diseases(TRDs)are increasingly common in the current aging society and impose a significant burden on patients.Despite therapeutic advances,the pathophysiology of TRDs remains poorly understood,hindering effective clinical management.The macrophages are highly plastic immune cells involved in the maintenance of in vivo homeostasis and the injury-healing process.Their dual role in TRDs has been widely investigated,either promoting tenogenic and chondrogenic differentiation or amplifying inflammatory response,underscoring their therapeutic potential for TRDs treatment.Therefore,the review aims to summarize the roles of macrophages in the healing of TRDs,characterized by limited regenerative capacity,and examine strategies for the modulation of macrophage phenotypes to accelerate the regeneration process.Finally,we review applications involving macrophage modulation within the context of tissue engineering of TRDs,providing novel insights for the design of biomaterials-based targeted delivery systems.展开更多
Macrophages derived from the human THP-1 cell line have been widely used as substitutes for primary macrophages in various macrophage-related studies.However,difficulties still exist in establishing THP-I macrophage m...Macrophages derived from the human THP-1 cell line have been widely used as substitutes for primary macrophages in various macrophage-related studies.However,difficulties still exist in establishing THP-I macrophage models.This research presents techniques for generating different phenotypes of activated macrophages derived from THP-1 cells by introducing specific stimuli and provides some potential markers to confirm each type of activated macrophage.It is hoped to provide novel and useful methods for scientific research and to help researchers explore this field more intuitively and effectively.展开更多
Background:The aim was to explore the effect of macrophage polarization and macrophage-to-myofibroblast transition(MMT)in silicosis.Methods:Male Wistar rats were divided into a control group and a silicosis group deve...Background:The aim was to explore the effect of macrophage polarization and macrophage-to-myofibroblast transition(MMT)in silicosis.Methods:Male Wistar rats were divided into a control group and a silicosis group developed using a HOPE MED 8050 dynamic automatic dusting system.Murine mac-rophage MH-S cells were randomly divided into a control group and an SiO_(2) group.The pathological changes in lung tissue were observed using hematoxylin and eosin(HE)and Van Gieson(VG)staining.The distribution and location of macrophage marker(F4/80),M1 macrophage marker(iNOS),M2 macrophage marker(CD206),and myofibroblast marker(α-smooth muscle actin[α-SMA])were detected using immu-nohistochemical and immunofluorescent staining.The expression changes in iNOS,Arg,α-SMA,vimentin,and type I collagen(Col I)were measured using Western blot.Results:The results of HE and VG staining showed obvious silicon nodule formation and the distribution of thick collagen fibers in the lung tissue of the silicosis group.Macrophage marker F4/80 increased gradually from 8 to 32 weeks after exposure to silica.Immunohistochemical and immunofluorescent staining results revealed that there were more iNOS-positive cells and some CD206-positive cells in the lung tissue of the silicosis group at 8 weeks.More CD206-positive cells were found in the silicon nodules of the lung tissues in the silicosis group at 32 weeks.Western blot analysis showed that the expressions of Inducible nitric oxide synthase and Arg protein in the lung tissues of the silicosis group were upregulated compared with those of the con-trol group.The results of immunofluorescence staining showed the co-expression of F4/80,α-SMA,and Col I,and CD206 andα-SMA were co-expressed in the lung tissue of the silicosis group.The extracted rat alveolar lavage fluid revealed F4/80+α-SMA+,CD206+α-SMA+,and F4/80+α-SMA+Col I+cells using immunofluorescence staining.Similar results were also found in MH-S cells induced by SiO_(2).Conclusions:The development of silicosis is accompanied by macrophage polarization and MMT.展开更多
BACKGROUND Macrophages play a crucial role in the tumor microenvironment,displaying remarkable plasticity that allows them to either suppress or promote tumor progression.Their polarization into M1 or M2 phenotypes co...BACKGROUND Macrophages play a crucial role in the tumor microenvironment,displaying remarkable plasticity that allows them to either suppress or promote tumor progression.Their polarization into M1 or M2 phenotypes could have significant prognostic implications,and manipulating this polarization may offer a novel approach to controlling colorectal neoplasms.AIM To evaluate the infiltration rates of M1 and M2 macrophages in colorectal neoplasia,specifically comparing cases with and without metalloproteinase mutations.Additionally,it sought to explore potential prognostic factors as-sociated with the disease.展开更多
BACKGROUND Macrophages are central to the orchestration of immune responses,inflammatory processes,and the pathogenesis of diabetic complications.The dynamic polarization of macrophages into M1 and M2 phenotypes criti...BACKGROUND Macrophages are central to the orchestration of immune responses,inflammatory processes,and the pathogenesis of diabetic complications.The dynamic polarization of macrophages into M1 and M2 phenotypes critically modulates inflammation and contributes to the progression of diabetic nephropathy.Sodiumglucose cotransporter 2 inhibitors such as dapagliflozin,which are acclaimed for their efficacy in diabetes management,may influence macrophage polarization,thereby ameliorating diabetic nephropathy.This investigation delves into these mechanistic pathways,aiming to elucidate novel therapeutic strategies for diabetes.AIM To investigate the inhibitory effect of dapagliflozin on macrophage M1 polarization and apoptosis and to explore its mechanism of action.METHODS We established a murine model of type 2 diabetes mellitus and harvested peritoneal macrophages following treatment with dapagliflozin.Concurrently,the human monocyte cell line cells were used for in vitro studies.Macrophage viability was assessed in a cell counting kit 8 assay,whereas apoptosis was evaluated by Annexin V/propidium iodide staining.Protein expression was examined through western blotting,and the expression levels of macrophage M1 surface immunosorbent assay,and quantitative real-time polymerase chain reaction analyses.RESULTS Dapagliflozin attenuated M1 macrophage polarization and mitigated apoptosis in the abdominal macrophages of diabetic mice,evidenced by the downregulation of proapoptotic genes(Caspase 3),inflammatory cytokines[interleukin(IL)-6,tumor necrosis factor-α,and IL-1β],and M1 surface markers(inducible nitric oxide synthase,and cluster of differentiation 86),as well as the upregulation of the antiapoptotic gene BCL2.Moreover,dapagliflozin suppressed the expression of proteins associated with the phosphoinositide 3-kinase(PI3K)/protein kinase B(AKT)signaling pathway(PI3K,AKT,phosphorylated protein kinase B).These observations were corroborated in vitro,where we found that the modulatory effects of dapagliflozin were abrogated by 740Y-P,an activator of the PI3K/AKT signaling pathway.CONCLUSION Dapagliflozin attenuates the polarization of macrophages toward the M1 phenotype,thereby mitigating inflammation and promoting macrophage apoptosis.These effects are likely mediated through the inhibition of the PI3K/AKT signaling pathway.展开更多
Background Sustained lipolysis exacerbates subclinical ketosis(SCK)in dairy cows and is associated with inflammation and adipose tissue macrophage(ATM)infiltration.While ATM involvement in adipose homeostasis and infl...Background Sustained lipolysis exacerbates subclinical ketosis(SCK)in dairy cows and is associated with inflammation and adipose tissue macrophage(ATM)infiltration.While ATM involvement in adipose homeostasis and inflammation in early lactation is recognized,a comprehensive exploration of ATM polarization phenotypes in SCK cows is lacking.This study aimed to characterize ATM polarization and its link to lipolysis and inflammation in SCK cows.Results Subcutaneous adipose tissue samples were obtained from dairy cows to analyze protein expression and gene profiles.Compared with healthy cows,SCK cows had higher serum BHBA and NEFA,smaller adipocytes,and increased expression of lipolytic enzymes(LIPE,ATGL),indicating enhanced lipolysis.Decreased levels of FASN,PPARγ,p-SMAD3,and TGFβsuggested impaired adipogenesis.Inflammatory markers(TNF-α,IFN-γ,TLR4,Caspase1)and NFκB signaling activity were elevated.ATM infiltration was supported by increased CD9,CD68,TREM2,and CXCL1 expression.Protein abundance of M1 polarization markers(iNOS,CD86 and CCL2)in ATMs were associated with greater levels of NOS2,IL1B,CD86 and CCL2 mRNA expression in SCK cows;fluorescence intensity of NOS2 and CD86 also was elevated,alongside a higher proportion of CD68+/CD86+immunopositive cells within adipose tissue.ELISA further quantified increased concentrations of IL-1β and CCL2.Conversely,the abundance of ATM M2 polarization markers,including CD206,IL-10,KLF4,and Arg1,at both the protein and mRNA levels demonstrated a decline.Meanwhile,the proportion of CD68+/CD206+immune response cells was relatively low in SCK cows.Conclusions Overall,the present study indicated an augmented macrophage presence within adipose tissue during subclinical ketosis,with a predominance of pro-inflammatory macrophages(M1 ATM).This observation suggested a vicious cycle wherein macrophage infiltration and pro-inflammatory polarization coincide with enhanced lipolysis and an amplified inflammatory cascade.展开更多
Liver cancer,and in particular hepatocellular carcinoma(HCC)is a disease of rising prevalence and incidence.To date,definitive treatment options include either surgical excision or ablation of the affected area.With i...Liver cancer,and in particular hepatocellular carcinoma(HCC)is a disease of rising prevalence and incidence.To date,definitive treatment options include either surgical excision or ablation of the affected area.With increasing research on several pathways that could be involved in the progression of HCC,new elements within these pathways emerge as potential targets for novel therapies.The WNT/β-catenin pathway favors the presence of M2 tumor-associated macrophages which in turn promote tumor growth and metastasis.The inhibition of this pathway is considered a good candidate for such targeted therapeutic interventions.Interestingly,as Huang et al show in their recently published article,Calculus bovis which is used in traditional Chinese medicine can exert an inhibitory effect on theβ-catenin pathway and become a potential candidate for targeted pharmacotherapy against liver cancer.展开更多
BACKGROUND Mesenchymal stem cells,found in various tissues,possess significant healing and immunomodulatory properties,influencing macrophage polarization,which is essential for wound repair.However,chronic wounds pre...BACKGROUND Mesenchymal stem cells,found in various tissues,possess significant healing and immunomodulatory properties,influencing macrophage polarization,which is essential for wound repair.However,chronic wounds present significant therapeutic challenges,requiring novel strategies to improve healing outcomes.AIM To investigate the potential of fetal dermal mesenchymal stem cells(FDMSCs)in enhancing wound healing through modulation of macrophage polarization,specifically by promoting the M2 phenotype to address inflammatory responses in chronic wounds.METHODS FDMSCs were isolated from BalB/C mice and co-cultured with RAW264.7 macrophages to assess their effects on macrophage polarization.Flow cytometry,quantitative reverse transcriptase polymerase chain reaction,and histological analyses were employed to evaluate shifts in macrophage phenotype and wound healing in a mouse model.Statistical analysis was performed using GraphPad Prism.RESULTS FDMSCs induced macrophage polarization from the M1 to M2 phenotype,as demonstrated by a reduction in proinflammatory markers(inducible nitric oxide synthase,interleukin-6)and an increase in anti-inflammatory markers[mannose receptor(CD206),arginase-1]in co-cultured RAW264.7 macrophages.These shifts were confirmed by flow cytometry.In an acute skin wound model,FDMSC-treated mice exhibited faster wound healing,enhanced collagen deposition,and improved vascular regeneration compared to controls.Significantly higher expression of arginase-1 further indicated an enriched M2 macrophage environment.CONCLUSION FDMSCs effectively modulate macrophage polarization from M1 to M2,reduce inflammation,and enhance tissue repair,demonstrating their potential as an immunomodulatory strategy in wound healing.These findings highlight the promising therapeutic application of FDMSCs in managing chronic wounds.展开更多
Background : To study the relationships among emodin, synovial fibroblasts (FLSs), and macrophages (STMs) to provide guidance for the use of emodin in rheumatoid arthritis (RA) treatment. Methods : RA clinical samples...Background : To study the relationships among emodin, synovial fibroblasts (FLSs), and macrophages (STMs) to provide guidance for the use of emodin in rheumatoid arthritis (RA) treatment. Methods : RA clinical samples from patients with different pathological processes were collected, and the correlations between the subsets of FLSs and STMs and pathological processes were analyzed via flow cytometry. In vitro experimental methods such as enzyme linked immunosorbent assay (ELISA), Western blotting, Transwell assays, CCK- 8 assays and cell coculture were used to assess cell proliferation, migration and secretion of inflammatory factors. A collagen- induced arthritis mouse model was constructed to investigate the therapeutic potential of emodin in RA by flow cytometry, micro- CT and staining. Results : Unique subsets of FLSs and STMs, namely, FAPα ^(+)THY1 − FLSs, FAPα ^(+)THY1 ^(+)FLSs, and MerTK ^(pos) TREM2 ^(high) STMs, were identified in synovial tissues from RA patients. The number of MerTK ^(pos) TREM2 ^(high) STMs was negatively correlated with the degree of damage in RA, while the number of FAPα ^(+)THY1 − FLSs was positively correlated with damage. On the one hand, emodin promoted the aggregation of MerTKposTREM2high STMs. Moreover, MerTK pos TREM2 high STM- mediated secretion of exosomes was promoted, which can inhibit the secretion of pro- inflammatory factors by FAPα ^(+)THY1 ^(+)FLSs and promote the secretion of anti- inflammatory factors by FAPα ^(+)THY1 ^(+)FLSs, thereby inhibiting FAPα ^(+)THY1 − FLS proliferation and migration, improving the local immune microenvironment, and inhibiting RA damage. Conclusion : Emodin was shown to regulate the aggregation of STM subsets and exosome secretion, affecting the secretion, proliferation and migration of inflammatory factors in FLS subsets, and ultimately achieving good therapeutic efficacy in RA patients, suggesting that it has important clinical value.展开更多
BACKGROUND Periodontitis,when exacerbated by diabetes,is characterized by increased M1 macrophage polarization and decreased M2 polarization.O-linkedβ-N-acetylglucosamine(O-GlcNAcylation),catalyzed by O-GlcNAc transf...BACKGROUND Periodontitis,when exacerbated by diabetes,is characterized by increased M1 macrophage polarization and decreased M2 polarization.O-linkedβ-N-acetylglucosamine(O-GlcNAcylation),catalyzed by O-GlcNAc transferase(OGT),promotes inflammatory responses in diabetic periodontitis(DP).Additionally,p38 mitogen-activated protein kinase regulates macrophage polarization.However,the interplay between OGT,macrophage polarization,and p38 signaling in the progression of DP remains unexplored.AIM To investigate the effect of OGT on macrophage polarization in DP and its role in mediating O-GlcNAcylation of p38.METHODS For in vivo experiments,mice were divided into four groups:Control,DP model,model+short hairpin(sh)RNAnegative control,and model+sh-OGT.Diabetes was induced by streptozotocin,followed by ligation and lipopolysaccharide(LPS)administration to induce periodontitis.The impact of OGT was assessed by injecting sh-OGT lentivirus.Maxillary bone destruction was evaluated using micro-computed tomography analysis and tartrateresistant acid phosphatase staining,while macrophage polarization was determined through quantitative real-time polymerase chain reaction(qPCR)and immunohistochemistry.For in vitro experiments,RAW264.7 cells were treated with LPS and high glucose(HG)(25 mmol/L D-glucose)to establish a cell model of DP.OGT was inhibited by OGT inhibitor(OSMI4)treatment and knocked down by sh-OGT transfection.M1/M2 polarization was analyzed using qPCR,immunofluorescence,and flow cytometry.Levels of O-GlcNAcylation were measured using immunoprecipitation and western blotting.RESULTS Our results demonstrated that M1 macrophage polarization led to maxillary bone loss in DP mice,associated with elevated O-GlcNAcylation and OGT levels.Knockdown of OGT promoted the shift from M1 to M2 macrophage polarization in both mouse periodontal tissues and LPS+HG-induced RAW264.7 cells.Furthermore,LPS+HG enhanced the O-GlcNAcylation of p38 in RAW264.7 cells.OGT interacted with p38 to promote its O-GlcNAcylation at residues A28,T241,and T347,as well as its phosphorylation at residue Y221.CONCLUSION Inhibition of OGT-mediated p38 O-GlcNAcylation deactivates the p38 pathway by suppressing its self-phosphorylation,thereby promoting M1 to M2 macrophage polarization and mitigating DP.These findings suggested that modulating macrophage polarization through regulation of O-GlcNAcylation may represent a novel therapeutic strategy for treating DP.展开更多
Macrophages undergo dynamic transitions between M1 and M2 states,exerting profound influences on both inflammatory and regenerative processes.The biocompatible and wound-healing properties of decellularized amniotic m...Macrophages undergo dynamic transitions between M1 and M2 states,exerting profound influences on both inflammatory and regenerative processes.The biocompatible and wound-healing properties of decellularized amniotic membrane(d AM)make it a subject of exploration for its potential impact on the anti-inflammatory response of macrophages.Experimental findings unequivocally demonstrate that d AM promotes anti-inflammatory M2 polarization of macrophage,with its cytokine-rich content posited as a potential mediator.The application of RNA sequencing unveils differential gene expression,implicating the hypoxia inducible factor-1α(HIF-1α)signaling pathway in this intricate interplay.Subsequent investigation further demonstrates that d AM facilitates anti-inflammatory M2 polarization of macrophage through the upregulation of epidermal growth factor(EGF),which,in turn,activates the phosphatidylinositol 3-kinase(PI3K)/protein kinase B(AKT)pathway and stabilizes HIF-1α.This cascade results in a noteworthy augmentation of anti-inflammatory gene expression.This study significantly contributes to advancing our comprehension of d AM's immunomodulatory role in tissue repair,thereby suggesting promising therapeutic potential.展开更多
Itaconate,a macrophage-specific anti-inflammatory metabolite,has recently emerged as a critical regulator in rheumatoid arthritis pathogenesis.We found that itaconate is a TNF-αresponsive metabolite significantly ele...Itaconate,a macrophage-specific anti-inflammatory metabolite,has recently emerged as a critical regulator in rheumatoid arthritis pathogenesis.We found that itaconate is a TNF-αresponsive metabolite significantly elevated in the serum and synovial fluid of rheumatoid arthritis patients and we demonstrated that itaconate is primarily produced by inflammatory macrophages rather than osteoclasts or osteoblasts.In TNF-transgenic and Irg1−/−hybrid mice,a more severe bone destruction phenotype was observed.展开更多
Corticotomy is a clinical procedure to accelerate orthodontic tooth movement characterized by the regional acceleratory phenomenon(RAP).Despite its therapeutic effects,the surgical risk and unclear mechanism hamper th...Corticotomy is a clinical procedure to accelerate orthodontic tooth movement characterized by the regional acceleratory phenomenon(RAP).Despite its therapeutic effects,the surgical risk and unclear mechanism hamper the clinical application.Numerous evidences support macrophages as the key immune cells during bone remodeling.Our study discovered that the monocyte-derived macrophages primarily exhibited a pro-inflammatory phenotype that dominated bone remodeling in corticotomy by CX3CR1CreERT2;R26GFP lineage tracing system.Fluorescence staining,flow cytometry analysis,and western blot determined the significantly enhanced expression of binding immunoglobulin protein(BiP)and emphasized the activation of sensor activating transcription factor 6(ATF6)in macrophages.Then,we verified that macrophage specific ATF6 deletion(ATF6f/f;CX3CR1CreERT2 mice)decreased the proportion of pro-inflammatory macrophages and therefore blocked the acceleration effect of corticotomy.In contrast,macrophage ATF6 overexpression exaggerated the acceleration of orthodontic tooth movement.In vitro experiments also proved that higher proportion of pro-inflammatory macrophages was positively correlated with higher expression of ATF6.At the mechanism level,RNA-seq and CUT&Tag analysis demonstrated that ATF6 modulated the macrophage-orchestrated inflammation through interacting with Tnfαpromotor and augmenting its transcription.Additionally,molecular docking simulation and dual-luciferase reporter system indicated the possible binding sites outside of the traditional endoplasmic reticulum-stress response element(ERSE).Taken together,ATF6 may aggravate orthodontic bone remodeling by promoting Tnfαtranscription in macrophages,suggesting that ATF6 may represent a promising therapeutic target for non-invasive accelerated orthodontics.展开更多
基金supported by Ministry of Science and Technology China Brain Initiative Grant,No.2022ZD0204702(to ZY)the National Natural Science Foundation of China,No.82371357(to LC)+2 种基金Foundation for Military Medicine,No.16QNP085(to ZY)Navy Medical University Basic Medical College“Yi Zhang”Basic Medical Talent Development and Support Program,Nos.JCYZRC-D-022(to TC)and JCYZRC-D-024(to HD)Science and Technology Innovation Special Fund of Shanghai Baoshan District,No.2023-E-05(to YW).
文摘Macrophages in the brain barrier system include microglia in the brain parenchyma,border-associated macrophages at the brain’s borders,and recruited macrophages.They are responsible for neural development,maintenance of homeostasis,and orchestrating immune responses.With the rapid exploitation and development of new technologies,there is a deeper understanding of macrophages in the brain barrier system.Here we review the origin,development,important molecules,and functions of macrophages,mainly focusing on microglia and border-associated macrophages.We also highlight some advances in single-cell sequencing and significant cell markers.We anticipate that more advanced methods will emerge to study resident and recruited macrophages in the future,opening new horizons for neuroimmunology and related peripheral immune fields.
基金supported by Qingdao Key Medical and Health Discipline ProjectThe Intramural Research Program of the Affiliated Hospital of Qingdao University,No. 4910Qingdao West Coast New Area Science and Technology Project,No. 2020-55 (all to SW)。
文摘Border-associated macrophages are located at the interface between the brain and the periphery, including the perivascular spaces, choroid plexus, and meninges. Until recently, the functions of border-associated macrophages have been poorly understood and largely overlooked. However, a recent study reported that border-associated macrophages participate in stroke-induced inflammation, although many details and the underlying mechanisms remain unclear. In this study, we performed a comprehensive single-cell analysis of mouse border-associated macrophages using sequencing data obtained from the Gene Expression Omnibus(GEO) database(GSE174574 and GSE225948). Differentially expressed genes were identified, and enrichment analysis was performed to identify the transcription profile of border-associated macrophages. CellChat analysis was conducted to determine the cell communication network of border-associated macrophages. Transcription factors were predicted using the ‘pySCENIC' tool. We found that, in response to hypoxia, borderassociated macrophages underwent dynamic transcriptional changes and participated in the regulation of inflammatory-related pathways. Notably, the tumor necrosis factor pathway was activated by border-associated macrophages following ischemic stroke. The pySCENIC analysis indicated that the activity of signal transducer and activator of transcription 3(Stat3) was obviously upregulated in stroke, suggesting that Stat3 inhibition may be a promising strategy for treating border-associated macrophages-induced neuroinflammation. Finally, we constructed an animal model to investigate the effects of border-associated macrophages depletion following a stroke. Treatment with liposomes containing clodronate significantly reduced infarct volume in the animals and improved neurological scores compared with untreated animals. Taken together, our results demonstrate comprehensive changes in border-associated macrophages following a stroke, providing a theoretical basis for targeting border-associated macrophages-induced neuroinflammation in stroke treatment.
基金supported by a grant from General Scientific Research Project of Zhejiang Provincial Department of Education(No.Y202455614).
文摘Diabetes mellitus is an escalating global health issue,with 463 million adults affected in 2019.Without intervention,this number is projected to increase to 578 million by 2030 and 700 million by 2045[1].Diabetic wound,a significant complication,is characterized by delayed healing,high disability rates,and elevated mortality[2].The challenges of wound healing in diabetic patients,compounded by their high morbidity and mortality rates,have drawn growing attention in biomedical research.
基金supported by the Scientific and Innovative Action Plan of Shanghai(CN)(22Y11902000)the National Natural Science Foundation of China(82371144 and 82201273)+2 种基金the Cross-Disciplinary Research Fund of Shanghai Ninth People's Hospital,Shanghai Jiao Tong University School of Medicine(JYJC202231)the Shanghai Key Laboratory of Translational Medicine on Ear and Nose Diseases(14DZ2260300)We extend our gratitude to Prof.Hao Wu and the Shanghai Key Laboratory of Translational Medicine on Ear and Nose Diseases for providing essential resources and laboratory facilities,and to Prof.Lei Song and Prof.Zhiyong Liu for valuable insights and guidance.
文摘Circadian sensitivity significantly influences the severity of noise-induced hearing loss(NIHL),but the underlying mechanisms remain unclear.Here,we applied single-cell RNA sequencing to 97,043 cochlear cells,identifying macrophages as the primary immune responders to acoustic trauma,with a notable increase in their proportion in the cochlea.Immunofluorescence confirmed significant recruitment and activation of cochlear macrophages following noise exposure,while in vivo macrophage depletion resulted in the recovery of hearing.Furthermore,analyses of differentially-expressed genes and pathways revealed pronounced activation of NLRP3 inflammasome signaling in macrophages during night-time noise exposure.Measurements of elevated IL-1βand IL-18 expression in cochlear macrophages by multiplex immunohistochemistry correlated with heightened inflammation in the night-time exposure group.These findings were further confirmed by the administration of the selective NLRP3 inhibitor CY-09,which mitigated inflammasome activation,preserved synaptic integrity,and protect against hearing loss.In conclusion,our findings underscore the role of macrophage-driven NLRP3 inflammasome activation in mediating circadian variations in cochlear damage,offering a potential therapeutic target for mitigating NIHL.
基金supported by the Central Government-Guided Local Science and Technology Development Fund Project(Science and Technology Innovation Base Project)(Grant No.236Z7749G)Hebei Provincial Precision Medicine Innovation and Development Joint Fund Incubation Project(Grant No.H2025206547)Hebei Provincial Basic Research Special Youth Science Fund Project(Grant No.H2025206274).
文摘Background:Hepatocellular carcinoma(HCC)is an aggressive and lethal malignancy.Metabolic reprogramming dynamically remodels the tumor microenvironment(TME)and drives HCC progression.This study investigated the mechanism through which metabolic reprogramming remodels the TME in HCC.Methods:HCC patient transcriptome data were subjected to bioinformatics analysis to identify differentially expressed genes and immune infiltration status.Immunohistochemical analysis was performed to determine the correlation between succinate dehydrogenase complex subunit A(SDHA)expression and M2 macrophage infiltration.SDHA-knockdown or SDHA-overexpressing HCC cells were used for in vitro experiments,including co-culturing,flow cytometry,and enzyme-linked immunosorbent assay.Western blotting assay,functional assays,and subcutaneous tumor model mice were used to elucidate the molecular mechanisms underlying succinate-mediated HCC cell-macrophage interactions in the TME.Results:Higher infiltration of M2 macrophages correlated with worse prognosis in HCC patients.SDHA was downregulated in HCC tumor tissues and showed a negative correlation with M2 macrophage infiltration.SDHA knockdown promoted M2 macrophage polarization,whereas SDHA overexpression reversed this effect.Mechanistically,SDHA deficiency in HCC cells induced succinate accumulation,which promoted M2 macrophage polarization by activating the G protein-coupled receptor 91(GPR91)/signal transducer and activator of transcription 3(STAT3)pathway.Concurrently,succinate stimulation enhanced mitochondrial oxidative phosphorylation in M2 macrophages,thereby promoting HCC progression.Serum succinate levels were elevated in HCC patients.The receiver operating characteristic curve analysis indicated that serum succinate is a promising diagnostic marker for HCC(area under the curve=0.815).Conclusion:SDHA deficiency leads to succinate accumulation,which promotes M2 macrophage polarization through the GPR91/STAT3 pathway,thereby facilitating HCC progression.Based on these findings,serum succinate could be a promising diagnostic biomarker for HCC.
基金Deutsche Forschungsgemeinschaft(DFG,German Research Foundation),project numbers 324633948 and 409784463(DFG grants Hi 678/9-3 and Hi 678/10-2,FOR2953)to HHBundesministerium für Bildung und Forschung-BMBF,project number 16LW0463K to HT.
文摘Microglia are the resident macrophages of the central nervous system.They act as the first line of defense against pathogens and play essential roles in neuroinflammation and tissue repair after brain insult or in neurodegenerative and demyelinating diseases(Borst et al.,2021).Together with infiltrating monocyte-derived macrophages,microglia also play a critical role for brain tumor development,since immunosuppressive interactions between tumor cells and tumor-associated microglia and macrophages(TAM)are linked to malignant progression.This mechanism is of particular relevance in glioblastoma(GB),the deadliest form of brain cancer with a median overall survival of less than 15 months(Khan et al.,2023).Therefore,targeting microglia and macrophage activation is a promising strategy for therapeutic interference in brain disease.
基金supported by the National Natural Science Foundation of China(Nos.81974441 and 82203619)the Science and Technology Planning Project of Shenzhen Municipality(Nos.JCYJ20190814105619048 and JCYJ20220530154202005)。
文摘Colitis-associated colorectal cancer(CAC)is a major contributor to cancer-related mortality worldwide.Titanium dioxide(TiO_(2),E171),a widely used food additive,has been insufficiently studied regarding its effects on macrophages within colon tumors during CAC development.In this study,CAC mouse models were used to investigate the biological impact of dietary E171 on macrophages in vivo,while lipopolysaccharide(LPS)-stimulated RAW264.7 macrophage cell lines were employed to elucidate the underlying mechanisms in vitro.We found that dietary E171 intake accelerated CAC development,exacerbated inflammatory responses and oxidative stress,and upregulated CAC-associated genes,including S100a8,S100a9,Lcn2,S100a11,Cxcl2,and interleukin-1α(Il-1α).E171 also increased the expression of S100A8,S100A9,NOD-like receptor family pyrin domain-containing 3(NLRP3),and gasdermin-D Nterminal(GSDMD-N)in macrophages within colon tumors.In inflammatory macrophages,E171 exposure enhanced cell viability,increased reactive oxygen species(ROS)levels,and elevated the expression and secretion of S100A8 and S100A9,consistent with in vivo histological observations.Furthermore,E171-induced secretion of S100A8 and S100A9 in macrophages was suppressed by specific inhibitors,including N-acetylcysteine(NAC,ROS inhibitor),MCC950(NLRP3 inhibitor),Z-YVAD-FMK(caspase 1 inhibitor),disulfiram(GSDMD inhibitor),and transfection of NLRP3 small interfering ribonucleic acid(siRNA).These results indicate that dietary E171 promotes CAC development by activating macrophages,with S100A8 and S100A9 serving as key mediators,and the NLRP3/caspase 1/GSDMD pathway acting as a critical mechanism.
基金supported by the Guangxi Natural Science Foundation(AD21220065 to JX)the National Natural Science Foundation of China(82102632 and 82160412 to JX)the Guangdong Basic and Applied Basic Research Foundation(2023A1515220072 to ZHD)。
文摘Tendon-related diseases(TRDs)are increasingly common in the current aging society and impose a significant burden on patients.Despite therapeutic advances,the pathophysiology of TRDs remains poorly understood,hindering effective clinical management.The macrophages are highly plastic immune cells involved in the maintenance of in vivo homeostasis and the injury-healing process.Their dual role in TRDs has been widely investigated,either promoting tenogenic and chondrogenic differentiation or amplifying inflammatory response,underscoring their therapeutic potential for TRDs treatment.Therefore,the review aims to summarize the roles of macrophages in the healing of TRDs,characterized by limited regenerative capacity,and examine strategies for the modulation of macrophage phenotypes to accelerate the regeneration process.Finally,we review applications involving macrophage modulation within the context of tissue engineering of TRDs,providing novel insights for the design of biomaterials-based targeted delivery systems.
基金supported by the Shaanxi University of Chinese Medicine-National Natural Science Foundation Cultivation Project(No.2023GP16)the Shaanxi Key Laboratory of Research on TCM Physical Constitution and Diseases Prevention and Treatment(No.KF202311)the Graduate Student Innovative Practical Ability Improvement Project(No.CXSJ202302),China.
文摘Macrophages derived from the human THP-1 cell line have been widely used as substitutes for primary macrophages in various macrophage-related studies.However,difficulties still exist in establishing THP-I macrophage models.This research presents techniques for generating different phenotypes of activated macrophages derived from THP-1 cells by introducing specific stimuli and provides some potential markers to confirm each type of activated macrophage.It is hoped to provide novel and useful methods for scientific research and to help researchers explore this field more intuitively and effectively.
基金The National Natural Science Foundation of China(no.82204006)the Science and Technology of Project of Hebei Education Department(QN2022009)+1 种基金the Provincial Graduate Student Innovation Funding Project of Hebei Province(CXZZBS2022104)the National Natural Science Foundation of Hebei Province(H2020209292).
文摘Background:The aim was to explore the effect of macrophage polarization and macrophage-to-myofibroblast transition(MMT)in silicosis.Methods:Male Wistar rats were divided into a control group and a silicosis group developed using a HOPE MED 8050 dynamic automatic dusting system.Murine mac-rophage MH-S cells were randomly divided into a control group and an SiO_(2) group.The pathological changes in lung tissue were observed using hematoxylin and eosin(HE)and Van Gieson(VG)staining.The distribution and location of macrophage marker(F4/80),M1 macrophage marker(iNOS),M2 macrophage marker(CD206),and myofibroblast marker(α-smooth muscle actin[α-SMA])were detected using immu-nohistochemical and immunofluorescent staining.The expression changes in iNOS,Arg,α-SMA,vimentin,and type I collagen(Col I)were measured using Western blot.Results:The results of HE and VG staining showed obvious silicon nodule formation and the distribution of thick collagen fibers in the lung tissue of the silicosis group.Macrophage marker F4/80 increased gradually from 8 to 32 weeks after exposure to silica.Immunohistochemical and immunofluorescent staining results revealed that there were more iNOS-positive cells and some CD206-positive cells in the lung tissue of the silicosis group at 8 weeks.More CD206-positive cells were found in the silicon nodules of the lung tissues in the silicosis group at 32 weeks.Western blot analysis showed that the expressions of Inducible nitric oxide synthase and Arg protein in the lung tissues of the silicosis group were upregulated compared with those of the con-trol group.The results of immunofluorescence staining showed the co-expression of F4/80,α-SMA,and Col I,and CD206 andα-SMA were co-expressed in the lung tissue of the silicosis group.The extracted rat alveolar lavage fluid revealed F4/80+α-SMA+,CD206+α-SMA+,and F4/80+α-SMA+Col I+cells using immunofluorescence staining.Similar results were also found in MH-S cells induced by SiO_(2).Conclusions:The development of silicosis is accompanied by macrophage polarization and MMT.
文摘BACKGROUND Macrophages play a crucial role in the tumor microenvironment,displaying remarkable plasticity that allows them to either suppress or promote tumor progression.Their polarization into M1 or M2 phenotypes could have significant prognostic implications,and manipulating this polarization may offer a novel approach to controlling colorectal neoplasms.AIM To evaluate the infiltration rates of M1 and M2 macrophages in colorectal neoplasia,specifically comparing cases with and without metalloproteinase mutations.Additionally,it sought to explore potential prognostic factors as-sociated with the disease.
基金Natural Science Foundation of Anhui Province,No.2208085MH216Major Natural Science and Technology Project of Bengbu Medical College,No.2020byfy004Scientific Research Program of Anhui Provincial Health Commission,No.AHWJ2023BAc10028.
文摘BACKGROUND Macrophages are central to the orchestration of immune responses,inflammatory processes,and the pathogenesis of diabetic complications.The dynamic polarization of macrophages into M1 and M2 phenotypes critically modulates inflammation and contributes to the progression of diabetic nephropathy.Sodiumglucose cotransporter 2 inhibitors such as dapagliflozin,which are acclaimed for their efficacy in diabetes management,may influence macrophage polarization,thereby ameliorating diabetic nephropathy.This investigation delves into these mechanistic pathways,aiming to elucidate novel therapeutic strategies for diabetes.AIM To investigate the inhibitory effect of dapagliflozin on macrophage M1 polarization and apoptosis and to explore its mechanism of action.METHODS We established a murine model of type 2 diabetes mellitus and harvested peritoneal macrophages following treatment with dapagliflozin.Concurrently,the human monocyte cell line cells were used for in vitro studies.Macrophage viability was assessed in a cell counting kit 8 assay,whereas apoptosis was evaluated by Annexin V/propidium iodide staining.Protein expression was examined through western blotting,and the expression levels of macrophage M1 surface immunosorbent assay,and quantitative real-time polymerase chain reaction analyses.RESULTS Dapagliflozin attenuated M1 macrophage polarization and mitigated apoptosis in the abdominal macrophages of diabetic mice,evidenced by the downregulation of proapoptotic genes(Caspase 3),inflammatory cytokines[interleukin(IL)-6,tumor necrosis factor-α,and IL-1β],and M1 surface markers(inducible nitric oxide synthase,and cluster of differentiation 86),as well as the upregulation of the antiapoptotic gene BCL2.Moreover,dapagliflozin suppressed the expression of proteins associated with the phosphoinositide 3-kinase(PI3K)/protein kinase B(AKT)signaling pathway(PI3K,AKT,phosphorylated protein kinase B).These observations were corroborated in vitro,where we found that the modulatory effects of dapagliflozin were abrogated by 740Y-P,an activator of the PI3K/AKT signaling pathway.CONCLUSION Dapagliflozin attenuates the polarization of macrophages toward the M1 phenotype,thereby mitigating inflammation and promoting macrophage apoptosis.These effects are likely mediated through the inhibition of the PI3K/AKT signaling pathway.
基金supported by grants from National Natural Science Foundation of China(32125038)National Key Research and Development Program of China(grant number 2023YFD1801100 and 2023YFD1800804)+1 种基金the Key Research and Development Program of the Xinjiang Uygur Autonomous Region(No.2024B02016)the 2115 Talent Development Program of China Agricultural University.
文摘Background Sustained lipolysis exacerbates subclinical ketosis(SCK)in dairy cows and is associated with inflammation and adipose tissue macrophage(ATM)infiltration.While ATM involvement in adipose homeostasis and inflammation in early lactation is recognized,a comprehensive exploration of ATM polarization phenotypes in SCK cows is lacking.This study aimed to characterize ATM polarization and its link to lipolysis and inflammation in SCK cows.Results Subcutaneous adipose tissue samples were obtained from dairy cows to analyze protein expression and gene profiles.Compared with healthy cows,SCK cows had higher serum BHBA and NEFA,smaller adipocytes,and increased expression of lipolytic enzymes(LIPE,ATGL),indicating enhanced lipolysis.Decreased levels of FASN,PPARγ,p-SMAD3,and TGFβsuggested impaired adipogenesis.Inflammatory markers(TNF-α,IFN-γ,TLR4,Caspase1)and NFκB signaling activity were elevated.ATM infiltration was supported by increased CD9,CD68,TREM2,and CXCL1 expression.Protein abundance of M1 polarization markers(iNOS,CD86 and CCL2)in ATMs were associated with greater levels of NOS2,IL1B,CD86 and CCL2 mRNA expression in SCK cows;fluorescence intensity of NOS2 and CD86 also was elevated,alongside a higher proportion of CD68+/CD86+immunopositive cells within adipose tissue.ELISA further quantified increased concentrations of IL-1β and CCL2.Conversely,the abundance of ATM M2 polarization markers,including CD206,IL-10,KLF4,and Arg1,at both the protein and mRNA levels demonstrated a decline.Meanwhile,the proportion of CD68+/CD206+immune response cells was relatively low in SCK cows.Conclusions Overall,the present study indicated an augmented macrophage presence within adipose tissue during subclinical ketosis,with a predominance of pro-inflammatory macrophages(M1 ATM).This observation suggested a vicious cycle wherein macrophage infiltration and pro-inflammatory polarization coincide with enhanced lipolysis and an amplified inflammatory cascade.
文摘Liver cancer,and in particular hepatocellular carcinoma(HCC)is a disease of rising prevalence and incidence.To date,definitive treatment options include either surgical excision or ablation of the affected area.With increasing research on several pathways that could be involved in the progression of HCC,new elements within these pathways emerge as potential targets for novel therapies.The WNT/β-catenin pathway favors the presence of M2 tumor-associated macrophages which in turn promote tumor growth and metastasis.The inhibition of this pathway is considered a good candidate for such targeted therapeutic interventions.Interestingly,as Huang et al show in their recently published article,Calculus bovis which is used in traditional Chinese medicine can exert an inhibitory effect on theβ-catenin pathway and become a potential candidate for targeted pharmacotherapy against liver cancer.
基金National Natural Science Foundation of China,No.81873934and Jinan Science and Technology Planning Project,No.202225065.
文摘BACKGROUND Mesenchymal stem cells,found in various tissues,possess significant healing and immunomodulatory properties,influencing macrophage polarization,which is essential for wound repair.However,chronic wounds present significant therapeutic challenges,requiring novel strategies to improve healing outcomes.AIM To investigate the potential of fetal dermal mesenchymal stem cells(FDMSCs)in enhancing wound healing through modulation of macrophage polarization,specifically by promoting the M2 phenotype to address inflammatory responses in chronic wounds.METHODS FDMSCs were isolated from BalB/C mice and co-cultured with RAW264.7 macrophages to assess their effects on macrophage polarization.Flow cytometry,quantitative reverse transcriptase polymerase chain reaction,and histological analyses were employed to evaluate shifts in macrophage phenotype and wound healing in a mouse model.Statistical analysis was performed using GraphPad Prism.RESULTS FDMSCs induced macrophage polarization from the M1 to M2 phenotype,as demonstrated by a reduction in proinflammatory markers(inducible nitric oxide synthase,interleukin-6)and an increase in anti-inflammatory markers[mannose receptor(CD206),arginase-1]in co-cultured RAW264.7 macrophages.These shifts were confirmed by flow cytometry.In an acute skin wound model,FDMSC-treated mice exhibited faster wound healing,enhanced collagen deposition,and improved vascular regeneration compared to controls.Significantly higher expression of arginase-1 further indicated an enriched M2 macrophage environment.CONCLUSION FDMSCs effectively modulate macrophage polarization from M1 to M2,reduce inflammation,and enhance tissue repair,demonstrating their potential as an immunomodulatory strategy in wound healing.These findings highlight the promising therapeutic application of FDMSCs in managing chronic wounds.
文摘Background : To study the relationships among emodin, synovial fibroblasts (FLSs), and macrophages (STMs) to provide guidance for the use of emodin in rheumatoid arthritis (RA) treatment. Methods : RA clinical samples from patients with different pathological processes were collected, and the correlations between the subsets of FLSs and STMs and pathological processes were analyzed via flow cytometry. In vitro experimental methods such as enzyme linked immunosorbent assay (ELISA), Western blotting, Transwell assays, CCK- 8 assays and cell coculture were used to assess cell proliferation, migration and secretion of inflammatory factors. A collagen- induced arthritis mouse model was constructed to investigate the therapeutic potential of emodin in RA by flow cytometry, micro- CT and staining. Results : Unique subsets of FLSs and STMs, namely, FAPα ^(+)THY1 − FLSs, FAPα ^(+)THY1 ^(+)FLSs, and MerTK ^(pos) TREM2 ^(high) STMs, were identified in synovial tissues from RA patients. The number of MerTK ^(pos) TREM2 ^(high) STMs was negatively correlated with the degree of damage in RA, while the number of FAPα ^(+)THY1 − FLSs was positively correlated with damage. On the one hand, emodin promoted the aggregation of MerTKposTREM2high STMs. Moreover, MerTK pos TREM2 high STM- mediated secretion of exosomes was promoted, which can inhibit the secretion of pro- inflammatory factors by FAPα ^(+)THY1 ^(+)FLSs and promote the secretion of anti- inflammatory factors by FAPα ^(+)THY1 ^(+)FLSs, thereby inhibiting FAPα ^(+)THY1 − FLS proliferation and migration, improving the local immune microenvironment, and inhibiting RA damage. Conclusion : Emodin was shown to regulate the aggregation of STM subsets and exosome secretion, affecting the secretion, proliferation and migration of inflammatory factors in FLS subsets, and ultimately achieving good therapeutic efficacy in RA patients, suggesting that it has important clinical value.
基金Supported by the National Natural Science Foundation of China,No.81973684Natural Science Foundation of Sichuan Province,No.2023NSFSC1760Youth Talent Fund of Sichuan Academy of Medical Sciences and Sichuan Provincial People’s Hospital,No.2021QN09。
文摘BACKGROUND Periodontitis,when exacerbated by diabetes,is characterized by increased M1 macrophage polarization and decreased M2 polarization.O-linkedβ-N-acetylglucosamine(O-GlcNAcylation),catalyzed by O-GlcNAc transferase(OGT),promotes inflammatory responses in diabetic periodontitis(DP).Additionally,p38 mitogen-activated protein kinase regulates macrophage polarization.However,the interplay between OGT,macrophage polarization,and p38 signaling in the progression of DP remains unexplored.AIM To investigate the effect of OGT on macrophage polarization in DP and its role in mediating O-GlcNAcylation of p38.METHODS For in vivo experiments,mice were divided into four groups:Control,DP model,model+short hairpin(sh)RNAnegative control,and model+sh-OGT.Diabetes was induced by streptozotocin,followed by ligation and lipopolysaccharide(LPS)administration to induce periodontitis.The impact of OGT was assessed by injecting sh-OGT lentivirus.Maxillary bone destruction was evaluated using micro-computed tomography analysis and tartrateresistant acid phosphatase staining,while macrophage polarization was determined through quantitative real-time polymerase chain reaction(qPCR)and immunohistochemistry.For in vitro experiments,RAW264.7 cells were treated with LPS and high glucose(HG)(25 mmol/L D-glucose)to establish a cell model of DP.OGT was inhibited by OGT inhibitor(OSMI4)treatment and knocked down by sh-OGT transfection.M1/M2 polarization was analyzed using qPCR,immunofluorescence,and flow cytometry.Levels of O-GlcNAcylation were measured using immunoprecipitation and western blotting.RESULTS Our results demonstrated that M1 macrophage polarization led to maxillary bone loss in DP mice,associated with elevated O-GlcNAcylation and OGT levels.Knockdown of OGT promoted the shift from M1 to M2 macrophage polarization in both mouse periodontal tissues and LPS+HG-induced RAW264.7 cells.Furthermore,LPS+HG enhanced the O-GlcNAcylation of p38 in RAW264.7 cells.OGT interacted with p38 to promote its O-GlcNAcylation at residues A28,T241,and T347,as well as its phosphorylation at residue Y221.CONCLUSION Inhibition of OGT-mediated p38 O-GlcNAcylation deactivates the p38 pathway by suppressing its self-phosphorylation,thereby promoting M1 to M2 macrophage polarization and mitigating DP.These findings suggested that modulating macrophage polarization through regulation of O-GlcNAcylation may represent a novel therapeutic strategy for treating DP.
基金supported by the National Natural Science Foundation of China(No.82302772)Guizhou Basic Research Project(No.ZK[2023]General 201)partially supported by Wuhan Kangchuang Biotechnology Co.,Ltd。
文摘Macrophages undergo dynamic transitions between M1 and M2 states,exerting profound influences on both inflammatory and regenerative processes.The biocompatible and wound-healing properties of decellularized amniotic membrane(d AM)make it a subject of exploration for its potential impact on the anti-inflammatory response of macrophages.Experimental findings unequivocally demonstrate that d AM promotes anti-inflammatory M2 polarization of macrophage,with its cytokine-rich content posited as a potential mediator.The application of RNA sequencing unveils differential gene expression,implicating the hypoxia inducible factor-1α(HIF-1α)signaling pathway in this intricate interplay.Subsequent investigation further demonstrates that d AM facilitates anti-inflammatory M2 polarization of macrophage through the upregulation of epidermal growth factor(EGF),which,in turn,activates the phosphatidylinositol 3-kinase(PI3K)/protein kinase B(AKT)pathway and stabilizes HIF-1α.This cascade results in a noteworthy augmentation of anti-inflammatory gene expression.This study significantly contributes to advancing our comprehension of d AM's immunomodulatory role in tissue repair,thereby suggesting promising therapeutic potential.
基金supported by the National Natural Science Foundation of China(NSFC)(No.82130073,No.82372430,No.31871431,No.31821002,No.32101011,No.22177073)Shanghai Frontiers Science Center of Degeneration and Regeneration in Skeletal System+3 种基金Shanghai Science and Technology Committee(No.23ZR1437600,No.24410710600,No.24141901302)Shenzhen Medical Research Fund(No.B2302005)The Open Project Funding of Shanghai Key Laboratory of Orthopedics(No.KFKT202201)Biomaterials and Regenerative Medicine Institute Cooperative,Research Project,Shanghai Jiao Tong University School of Medicine(No.2022LHA01).
文摘Itaconate,a macrophage-specific anti-inflammatory metabolite,has recently emerged as a critical regulator in rheumatoid arthritis pathogenesis.We found that itaconate is a TNF-αresponsive metabolite significantly elevated in the serum and synovial fluid of rheumatoid arthritis patients and we demonstrated that itaconate is primarily produced by inflammatory macrophages rather than osteoclasts or osteoblasts.In TNF-transgenic and Irg1−/−hybrid mice,a more severe bone destruction phenotype was observed.
基金supported by the National Natural Science Foundation of China(82071143,82371000,82270361)Key Research and Development Program of Jiangsu Province(BE2022795)+2 种基金the Postgraduate Research&Practice Innovation Program of Jiangsu Province(KYCX22_1801)the Jiangsu Province Capability Improvement Project through the Science,Technology and Education-Jiangsu Provincial Research Hospital Cultivation Unit(YJXYYJSDW4)Jiangsu Provincial Medical Innovation Center(CXZX202227).
文摘Corticotomy is a clinical procedure to accelerate orthodontic tooth movement characterized by the regional acceleratory phenomenon(RAP).Despite its therapeutic effects,the surgical risk and unclear mechanism hamper the clinical application.Numerous evidences support macrophages as the key immune cells during bone remodeling.Our study discovered that the monocyte-derived macrophages primarily exhibited a pro-inflammatory phenotype that dominated bone remodeling in corticotomy by CX3CR1CreERT2;R26GFP lineage tracing system.Fluorescence staining,flow cytometry analysis,and western blot determined the significantly enhanced expression of binding immunoglobulin protein(BiP)and emphasized the activation of sensor activating transcription factor 6(ATF6)in macrophages.Then,we verified that macrophage specific ATF6 deletion(ATF6f/f;CX3CR1CreERT2 mice)decreased the proportion of pro-inflammatory macrophages and therefore blocked the acceleration effect of corticotomy.In contrast,macrophage ATF6 overexpression exaggerated the acceleration of orthodontic tooth movement.In vitro experiments also proved that higher proportion of pro-inflammatory macrophages was positively correlated with higher expression of ATF6.At the mechanism level,RNA-seq and CUT&Tag analysis demonstrated that ATF6 modulated the macrophage-orchestrated inflammation through interacting with Tnfαpromotor and augmenting its transcription.Additionally,molecular docking simulation and dual-luciferase reporter system indicated the possible binding sites outside of the traditional endoplasmic reticulum-stress response element(ERSE).Taken together,ATF6 may aggravate orthodontic bone remodeling by promoting Tnfαtranscription in macrophages,suggesting that ATF6 may represent a promising therapeutic target for non-invasive accelerated orthodontics.
