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The outer membrane composed predominantly of lipopolysaccharide (LPS) is an essential biological barrier for most Gram-negative (G-) bacteria. Lipopolysaccharide transport protein (Lpt) complex LptDE is responsible for the critical final stage of LPS transport and outer membrane assembly. The structure and function of LptDE are highly conserved in most G- bacteria but absent in mammalian cells, and thus LptDE complex is regarded as an attractive antibacterial target. In recent 10 years, the deciphering of the three-dimensional structure of LptDE protein facilities the drug discovery based on such "non-enzyme" proteins. Murepavadin, a peptidomimetic compound, was reported to be the first compound able to target LptD, enlightening a new class of antibacterial molecules with novel mechanisms of action. This article is devoted to summarize the molecular characteristics, structure-function of LptDE protein complex and review the development of murepavadin and related peptidomimetic compounds, in order to provide references for relevant researches.
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ObjectiveTo evaluate some properties of scutellarin-phospholipid complex nanoemulsion(SCU-PC-NE), such as release, cell uptake and tissue distribution, and to investigate its effect on ameliorating lipopolysaccharide(LPS)-induced vascular endothelial injury. MethodSCU-PC-NE was prepared by weighting SCU-PC, ethyl oleate, Kolliphor HS15, 1,2-propylene glycol(50, 400, 514.3, 85.7 mg), respectively. And the appearance of SCU-PC-NE was observed by transmission electron microscope, the average paticle size and Zeta potential were measured by nanopotential particle size analyzer. The cumulative release of SCU-PC-NE in vitro was measured by dynamic dialysis, thiazolyl blue(MTT) colorimetric assay was used to investigate the effect of SCU-PC-NE on the viability of human umbilical vein endothelial cells(HUVECs), the inverted fluorescence microscope and flow cytometry were used to investigate cell uptake of HUVECs by SCU-PC-NE in vitro using coumarin 6 as a fluorescent probe, the tissue distribution of DiR/SCU-PC-NE labeled by near infrared fluorescent dyes was obeserved by small animal in vivo imaging system. The inflammation injury model was established by co-incubation with LPS(1 mg·L-1) and HUVECs, the effect of SCU-PC-NE on the levels of interleukin(IL)-1β and IL-6 were determined by enzyme-linked immunosorbent assay(ELISA), 18 Kunming male mice were randomly divided into blank group, model group, blank preparation group(equivalent to high dose group), SCU group and SCU-PC-NE low and high dose groups(5, 10 mg·kg-1), 3 mice in each group, and the drug administration groups were administered once in the tail vein at the corresponding dose every 48 h, equal volume of normal saline was given to the blank group and the model group, and the drug was administered for 4 consecutive times. Except for the blank group, the endothelial inflammatory injury was induced by intraperitoneal injection of LPS(10 mg·kg-1) at 12 h before the last administration in each group. Hematoxylin-eosin(HE) staining was used to investigate the effect of SCU-PC-NE on the histopathological changes in the thoracic aorta of mice. ResultThe appearance of SCU-PC-NE displayed pale yellow milky light, mostly spherical with rounded appearance and relatively uniform particle size distribution, with the average particle size of 35.31 nm, Zeta potential of 7.23 mV, and the encapsulation efficiency of 75.24%. The cumulative release in vitro showed that SCU-PC-NE exhibited sustained release properties compared with SCU. The cell viability of SCU-PC-NE was >90% at a concentration range of 1.05-8.4 mg·L-1. The results of cellular uptake experiments showed that the cellular uptake ability of SCU-PC-NE was significantly enhanced when compared with the SCU group(P<0.01). Compared with normal mice, the results of tissue distribution showed that the fluorescence intensity of DiR/SCU-PC-NE was significantly enhanced in the spleen, kidney, brain and thoracic aorta of mice at different time points after intraperitoneal injection of LPS(P<0.05, P<0.01), especially in thoracic aorta. ELISA results showed that the levels of IL-1β and IL-6 in the model group were significantly increased when compared with the blank group(P<0.05, P<0.01), and compare with the model group, all administration groups significantly down-regulated IL-1β level, with the strongest effect in the SCU-PC-NE high-dose group(P<0.01), and all administration groups significantly down-regulated IL-6 level, with the strongest effect in the SCU-PC-NE low-dose group(P<0.05). Compare with the blank group, the results of HE staining showed that the endothelial cells were damaged, the elastic fibers were broken and arranged loosely in the model group, although similar vascular injury could be observed in the blank preparation group, SCU group and SCU-PC-NE low-dose group, the vascular endothelial damage was significantly reduced in the high-dose group of SCU-PC-NE, which had a better effect than that in the SCU group. ConclusionSCU-PC-NE can promote the uptake of drugs by endothelial cells and effectively enriched in the site of vascular endothelial injury caused by LPS, suggesting that it has a protective effect on vascular endothelial injury and is a good carrier of SCU.
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Aim To investigate the effect of colchicine on lipopolysaccharide (LPS) induced endothelial to mesenchymal transition (EndMT) in human umbilical vein vascular endothelial cells (HUVECs) and its related mechanisms. Methods The EndMT model was established by treating HUVECs with LPS. Cell proliferation rate was detected by CCK-8 assay, cytotoxicity was detected by LDH assay, and the optimal drug concentration was screened. The cells were divided into the normal control group, the normal control + colchicine (10 nmol • L) group, the LPS (10 mg • L) model group, and the LPS + colchicine (10 nmol • L) group. The morphologic changes of the cells were observed under an inverted microscope, the cell migration ability was detected by Transwell assay, and the ability of tube formation was analyzed by tube formation assay. The expression of endothelial markers (CD31/ VE-cadherin) and mesenchymal cell markers (a-SMA/FSP-1) were detected by Western blot. NF-KB inhibitor was used to detect the changes in related signaling pathways. Results CCK-8 and LDH experiments showed that 10 nmol • L colchicine was the optimal concentration. LPS could induce morphological changes in HUVECs, and colchicine could reverse morphological changes in HUVECs to a certain extent. Transwell experiment showed that the migration ability of HUVECs in the LPS treatment group was significantly enhanced (P < 0. 05), and colchicine could significantly reverse this phenomenon (P < 0. 05) . Tube formation experiment showed that LPS decreased the endothelial tube formation ability of HUVECs (P < 0. 05), while colchicine treatment markedly improved LPS-induced tube formation defects (P < 0. 05) . Western blot assay showed that after colchicine co-cultured with LPS, the expression levels of CD31 and VE-cadherin significantly increased compared with the model group (P < 0. 05), while the expression levels of a-SMA and FSP-1 significantly decreased compared with the model group (P < 0. 05) . During the induction of EndMT by LPS, colchicine could inhibit the activation of the NF-KB/Snail signaling pathway. Conclusions Colchicine can effectively inhibit EndMT induced by LPS, and the mechanism may be related to the regulation of the NF-KB/Snail signaling pathway.
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Objective@#To investigate the effects of PssL-NAC reactive oxygen species (ROS)-responsive nanoparticles on intracellular ROS production, inflammatory factor levels, collagen production, cell function and Toll-like receptor 4 (TLR4), NF-κB nuclear factor-κB (p65) pathway protein expression in human gingival fibroblasts (HGFs) induced by Porphyromonas gingivalis-lipopolysaccharide (P.g-LPS).@*Methods@#This study was reviewed and approved by the ethics committee. PssL-NAC microspheres containing oil soluble antioxidant N-acetylcysteine (NAC) were obtained by connecting the hydrophobic end of polycaprolactone (PCL) and the hydrophilic end of polyethylene glycol (PEG) via thioketal (TK) bonds in response to ROS, and self loading in the aqueous and oil phases. After preparation of the PssL-NAC microspheres and aqueous NAC solution, successful synthesis of the nanoparticles was verified by transmission electron microscopy. Then, HGFs were exposed to P.g-LPS (0, 5, or 10 μg/mL), P.g-LPS (0, 5, or 10 μg/mL)+NAC, and P.g-LPS (0, 5, or 10 μg/mL)+PssL-NAC, and the ROS levels in the different groups were observed under confocal microscopy to determine the concentration of P.g-LPS for use in subsequent experiments. The groups were as follows: control group (no treatment), P.g-LPS group (HGFs treated with P.g-LPS), NAC group (HGFs treated with P.g-LPS and NAC), and PssL-NAC group (HGFs treated with P.g-LPS and PssL-NAC). Cell counting kit-8 (CCK-8) assays verified the biosafety of PssL-NAC. The ROS levels in the different groups were detected by DCFH-DA probes and observed via confocal microscopy. Real-time qPCR (RT-qPCR) was used to monitor the gene expression levels of the intracellular inflammatory cytokines interleukin-6 (IL-6), tumor necrosis factor-α (TNF-α), collagen 1 (COL1) and collagen 3 (COL3). The effect of PssL-NAC on the migration of HGFs was observed via the scratch test. The protein expression of TLR4-NF-κB, and phosphorylated p65 (p-p65) in the TLR4-NF-κB pathway was evaluated by Western blot.@*Results@#PssL-NAC had no significant effect on HGF proliferation (P>0.05). At elevated P.g-LPS concentrations, PssL-NAC maintained intracellular ROS levels approximately twice those in the control group (P<0.001). PssL-NAC significantly decreased P.g-LPS-induced IL-6 (P<0.001) and TNF-α (P<0.001) gene expression and increased COL1 gene expression (P<0.001). After P.g-LPS stimulation, PssL-NAC restored cell migration to the control level (P>0.05) and decreased the protein expression of TLR4 (P<0.001), p65 (P = 0.006), and p-p65 (P = 0.017) in the TLR4-NF-κB pathway.@*Conclusion@#PssL-NAC maintains the appropriate intracellular ROS concentration, alleviates P.g-LPS-induced inflammation in HGFs through the TLR4-NF-κB pathway, and restores the cell functions of collagen production and migration in an inflammatory environment.
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OBJECTIVE@#The aim of this study is to explore the potential modulatory role of quercetin against Endotoxin or lipopolysaccharide (LPS) induced septic cardiac dysfunction.@*METHODS@#Specific pathogen-free chicken embryos ( n = 120) were allocated untreated control, phosphate buffer solution (PBS) vehicle, PBS with ethanol vehicle, LPS (500 ng/egg), LPS with quercetin treatment (10, 20, or 40 nmol/egg, respectively), Quercetin groups (10, 20, or 40 nmol/egg). Fifteen-day-old embryonated eggs were inoculated with abovementioned solutions via the allantoic cavity. At embryonic day 19, the hearts of the embryos were collected for histopathological examination, RNA extraction, real-time polymerase chain reaction, immunohistochemical investigations, and Western blotting.@*RESULTS@#They demonstrated that the heart presented inflammatory responses after LPS induction. The LPS-induced higher mRNA expressions of inflammation-related factors (TLR4, TNFα, MYD88, NF-κB1, IFNγ, IL-1β, IL-8, IL-6, IL-10, p38, MMP3, and MMP9) were blocked by quercetin with three dosages. Quercetin significantly decreased immunopositivity to TLR4 and MMP9 in the treatment group when compared with the LPS group. Quercetin significantly decreased protein expressions of TLR4, IFNγ, MMP3, and MMP9 when compared with the LPS group. Quercetin treatment prevented LPS-induced increase in the mRNA expression of Claudin 1 and ZO-1, and significantly decreased protein expression of claudin 1 when compared with the LPS group. Quercetin significantly downregulated autophagy-related gene expressions (PPARα, SGLT1, APOA4, AMPKα1, AMPKα2, ATG5, ATG7, Beclin-1, and LC3B) and programmed cell death (Fas, Bcl-2, CASP1, CASP12, CASP3, and RIPK1) after LPS induction. Quercetin significantly decreased immunopositivity to APOA4, AMPKα2, and LC3-II/LC3-I in the treatment group when compared with the LPS group. Quercetin significantly decreased protein expressions of AMPKα1, LC3-I, and LC3-II. Quercetin significantly decreased the protein expression to CASP1 and CASP3 by immunohistochemical investigation or Western blotting in treatment group when compared with LPS group.@*CONCLUSION@#Quercetin alleviates cardiac inflammation induced by LPS through modulating autophagy, programmed cell death, and myocardiocytes permeability.
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Embrião de Galinha , Animais , Quercetina/uso terapêutico , Lipopolissacarídeos/toxicidade , Metaloproteinase 9 da Matriz , Caspase 3 , Metaloproteinase 3 da Matriz , Receptor 4 Toll-Like , Claudina-1 , Inflamação/metabolismo , Apoptose , RNA Mensageiro , Autofagia , NF-kappa BRESUMO
OBJECTIVE To study the repair effect of ephedrine on lipopolysaccharide (LPS)-induced microglia function injury and its mechanism. METHODS Human microglia cells (HMC3) were used as research objects to investigate the effects of different concentrations of ephedrine (75, 150, 300, 600 μg/mL) on the viability and apoptosis of HMC3 cells. HMC3 cells were divided into control group (without drug intervention), LPS group (1 μg/mL), ephedrine group (1 μg/mL LPS+300 μg/mL ephedrine), BAY11-7082 group [1 μg/mL LPS+5 μmol/L nuclear factor-κB (NF-κB) pathway inhibitor BAY11-7082], inhibitor group (1 μg/mL LPS+300 μg/mL ephedrine+5 μmol/L BAY11-7082) and activator group (1 μg/mL LPS+300 μg/mL ephedrine+1 μmol/L NF-κB pathway activator Prostratin). After 24 hours of drug treatment, cell migration, the levels of soluble interleukin-6(sIL-6), interleukin-10(IL-10), superoxide dismutase(SOD)and malondialdehyde(MDA), and the expressions of NF-κB pathway-related proteins were all detected. RESULTS The viability of HMC3 cells could be increased significantly by 300 μg/mL ephedrine, while the apoptotic rate was decreased significantly (P<0.05). Compared with the control group, the number of migrating cells was increased significantly in the LPS group; the levels of sIL-6 and MDA, the phosphorylation of NF-κB protein were increased significantly, while the levels of IL-10 and SOD were decreased significantly (P<0.05). Compared with the LPS group, the above indexes were reversed significantly in the ephedrine group and BAY11-7082 group (P<0.05). Compared with the ephedrine group, the number of migrating cells was decreased significantly in the inhibitor group; the levels of sIL-6 and MDA, the phosphorylation of NF-κB protein were decreased significantly, while the levels of IL-10 and SOD were increased significantly (P<0.05). The above indexes were reversed significantly in the activator group (P<0.05)can repair cell injury by inhibiting LPS induced apoptosis, migration, inflammation and oxidant stress of HMC3 cells, the mechanism of which may be associated with inhibiting the activity of the NF-κB signaling pathway.
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ObjectiveTo explore the protective effect and mechanism of Zingiberis Rhizoma Recens alcohol extract on lipopolysaccharide (LPS)-induced acute lung injury in mice. MethodBalb/c mice were randomly divided into normal group, model group, dexamethasone group, and low- and high-dose Zingiberis Rhizoma Recens groups. Mice in the normal group were instilled with normal saline through the nose, and the other groups were instilled with normal saline containing LPS (50 μg). After 30 minutes of modeling, the dexamethasone group was gavaged with 5 mg·kg-1 of dexamethasone acetate solution, the low- and high-dose Zingiberis Rhizoma Recens groups were gavaged with different doses of (7, 14 g·kg-1) of Zingiberis Rhizoma Recens alcohol extract, and the normal group and the model group were gavaged with the same volume of water. After 24 hours of modeling, the total number of white blood cells in bronchoalceolar lavage fluid (BALF) was detected by cell counter, and the levels of the inflammatory factors including tumor necrosis factor (TNF)-α, interleukin (IL)-1β, IL-6, and superoxide dismutase (SOD), and myeloperoxidase (MPO) was detected by enzyme-linked immunosorbent assay (ELISA). Haematoxylin-eosin (HE) staining method was used to observe the pathological changes of lung tissue in each group, and the Western blot was used to detect the protein expression of nuclear transcription factor (NF)-κB p65, phosphorylation (p)-NF-κB p65, and Toll-like receptor 4 (TLR4) in lung tissue. ResultCompared with the normal group, the white blood cell count in BALF and the levels of TNF-α, IL-1β, IL-6, and MPO in the model group was increased (P<0.01), and the level of SOD was decreased (P<0.05). Pathological damage of lung tissue was obvious, and the protein expression of NF-κB p65, p-NF-κB p65, and TLR4 in lung tissue was increased (P<0.01). Compared with the model group, the white blood cell count in BALF and the levels of TNF-α, IL-1β, IL-6, and MPO in the treatment group was decreased (P<0.05,P<0.01), and the level of SOD was increased (P<0.05,P<0.01). Pathological damage of lung tissue was alleviated, and the protein expression of NF-κB p65, p-NF-κB p65, and TLR4 in lung tissue was decreased (P<0.01). ConclusionZingiberis Rhizoma Recens alcohol extract may play a protective role in LPS-induced acute lung injury in mice by inhibiting the TLR4/NF-κB signaling pathway.
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Abstract Objective The study aimed to investigate the feasibility of establishing rhinosinusitis model in rats combinated with Lipopolysaccharide (LPS) and merocel sponge. Methods SD (Sprague Dawley) rats that underwent nasal obstruction using Merocel sponge packing, rats with LPS instillation alone, and rats with both nasal obstruction and LPS instillation were used to establish rat models of rhinosinusitis. After the models were established, the nasal symptoms of rats were recorded, the histopathological examination and Transmission Electron Microscopy (TME) of the sinus tissue were performed and the levels of Tumor Necrosis Factor-α (TNF-α), Interleukin-6 (IL-6) in the blood were also analyzed. The expressions of Aquaporin-5 (AQP5), Occludin, Toll-Like Receptor-4 (TLR4), Medullary differentiation factor 88 (MyD88) and phosphorylated (p)-p65 protein were detected by Western blot to evaluate the effect and mechanism of the experimental models. Results We found that compared with the control group and LPS group, the sinusitis symptom scores in the Merocel sponge combined with LPS group were significantly increased; the respiratory epithelia of the maxillary sinus were degenerated, cilia were detached, and even inflammatory cell infiltration occurred; the levels of TNF-α and IL-6 were increased; the expression of AQP5 and Occludin protein was decreased; and the expressions of TLR4, MyD88, and p-p65 protein were increased. Conclusion For the first time, we successfully established a rat rhinosinusitis model using Merocel sponge with LPS and explored the possible mechanism of LPS action.
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OBJECTIVE To investigate the inhibitory effects of formononetin on lipopolysaccharide (LPS)-induced apoptosis and inflammatory response in alveolar epithelial cells through phosphoinositide 3-kinase (PI3K)/protein kinase B (Akt) signaling pathway. METHODS Human lung cancer alveolar basal epithelial cells A549 were cultured in vitro and divided into control group (no intervention), model group (1 μg/mL LPS), different concentrations of formononetin groups (1 μg/mL LPS+6.25, 12.5, 25, 50 μmol/L formononetin). The levels of inflammatory factors (interleukin-8, tumor necrosis factor-α) and cell viability were detected in each group. Another A549 cells were divided into control group, model group (1 μg/mL LPS), LPS+25 group (1 μg/mL LPS+25 μmol/L formononetin), inhibitor group (1 μg/mL LPS+20 μmol/L LY294002), formononetin+inhibitor group (1 μg/mL LPS+25 μmol/L formononetin+20 μmol/L LY294002) and formononetin+activator group (1 μg/mL LPS+25 μmol/L formononetin+ 10 μmol/L SC79). The secretion levels and mRNA expressions of inflammatory factors, cell apoptosis, and expressions of the key proteins of PI3K/Akt signaling pathway were detected in each group. RESULTS Compared with model group, the levels of inflammatory factors were decreased significantly after the intervention of 25 μmol/L of formononetin, and the cell viability was increased significantly (P<0.05). Compared with the control group, the secretion levels and mRNA expressions of inflammatory factors, apoptotic rate, and relative expressions of phosphorylated Akt and phosphorylated PI3K of the model group were increased significantly (P<0.05). Compared with the model group, the above indexes of the LPS+25 group and the inhibitor group were decreased significantly (P<0.05). Compared with the LPS+25 group, the above indicators of formononetin+inhibitor group were further decreased, while those of formononetin+activator group were increased significantly (P<0.05). CONCLUSIONS Formononetin can inhibit LPS-induced epithelial cell apoptosis and improve inflammatory response, and the mechanism may be related to the inhibition of the PI3K/Akt signaling pathway.
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OBJECTIVE@#To explore the anti-inflammatory effects of ethyl lithospermate in lipopolysaccharide (LPS)-stimulated RAW 264.7 murine-derived macrophages and zebrafish, and its underlying mechanisms.@*METHODS@#3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazoliumbromide (MTT) assays were performed to investigate the toxicity of ethyl lithospermate at different concentrations (12.5-100 µ mol/L) in RAW 264.7 cells. The cells were stimulated with LPS (100 ng/mL) for 12 h to establish an inflammation model in vitro, the production of pro-inflammatory cytokines interleukin (IL)-6 and tumor necrosis factor α (TNF-α) were assessed by enzyme linked immunosorbent assay (ELISA). Western blot was used to ascertain the protein expressions of signal transducer and activator of transcription 3 (STAT3), nuclear factor kappa B (NF-κB) p65, phospho-STAT3 (p-STAT3, Tyr705), inhibitor of NF-κB (IκB) α, and phospho-I κB α (p-IκB α, Ser32), and confocal imaging was used to identify the nuclear translocation of NF-κB p65 and p-STAT3 (Tyr705). Additionally, the yolk sacs of zebrafish (3 days post fertilization) were injected with 2 nL LPS (0.5 mg/mL) to induce an inflammation model in vivo. Survival analysis, hematoxylin-eosin (HE) staining, observation of neutrophil migration, and quantitative real-time polymerase chain reaction (qRT-PCR) were used to further study the anti-inflammatory effects of ethyl lithospermate and its probable mechanisms in vivo.@*RESULTS@#The non-toxic concentrations of ethyl lithospermate have been found to range from 12.5 to 100 µ mol/L. Ethyl lithospermate inhibited the release of IL-6 and TNF-α(P<0.05 or P<0.01), decreased IκBα degradation and phosphorylation (P<0.05) as well as the nuclear translocation of NF-κB p65 and p-STAT3 (Tyr705) in LPS-induced RAW 264.7 cells (P<0.01). Ethyl lithospermate also decreased inflammatory cells infiltration and neutrophil migration while increasing the survival rate of LPS-stimulated zebrafish (P<0.05 or P<0.01). In addition, ethyl lithospermate also inhibited the mRNA expression levels of of IL-6, TNF-α, IκBα, STAT3, and NF-κB in LPS-stimulated zebrafish (P<0.01).@*CONCLUSION@#Ethyl lithospermate exerts anti-Inflammatory effected by inhibiting the NF-κB and STAT3 signal pathways in RAW 264.7 macrophages and zebrafish.
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Animais , Camundongos , NF-kappa B/metabolismo , Lipopolissacarídeos , Peixe-Zebra , Inibidor de NF-kappaB alfa/metabolismo , Interleucina-6/metabolismo , Fator de Necrose Tumoral alfa/metabolismo , Fator de Transcrição STAT3/metabolismo , Inflamação/metabolismo , Anti-Inflamatórios/uso terapêuticoRESUMO
OBJECTIVE@#To investigate the anti-oxidant and anti-inflammatory effects of ethanol extract of Polygala sibirica L. var megalopha Fr. (EEP) on RAW264.7 mouse macrophages.@*METHODS@#RAW264.7 cells were pretreated with 0-200 µg/mL EEP or vehicle for 2 h prior to exposure to 1 µg/mL lipopolysaccharide (LPS) for 24 h. Nitric oxide (NO) and prostaglandin (PGE2) production were determined by Griess reagent and enzyme-linked immunosorbent assay (ELISA), respectively. The mRNA levels of inducible nitric oxide synthase (iNOS), cyclooxygenase-2 (COX-2), tumor necrosis factor α (TNF-α), interleukin-1beta (IL-1β), and IL-6 were determined using reverse transcription polymerase chain reaction (RT-PCR). Western blot assay was used to determine the protein expressions of iNOS, COX-2, phosphorylation of extracellular regulated protein kinases (ERK1/2), c-Jun N-terminal kinase (JNK), inhibitory subunit of nuclear factor Kappa B alpha (Iκ B-α) and p38. Immunofluorescence was used to observe the nuclear expression of nuclear factor-κ B p65 (NF-κ B p65). Additionally, the anti-oxidant potential of EEP was evaluated by reactive oxygen species (ROS) production and the activities of catalase (CAT) and superoxide dismutase (SOD). The 2,2-diphenyl-1-picrylhydrazyl (DPPH), hydroxyl (OH), superoxide anion (O2-) radical and nitrite scavenging activity were also measured.@*RESULTS@#The total polyphenol and flavonoid contents of EEP were 23.50±2.16 mg gallic acid equivalent/100 g and 43.78±3.81 mg rutin equivalent/100 g. With EEP treatment (100 and 150 µg/mL), there was a notable decrease in NO and PGE2 production induced by LPS in RAW264.7 cells by downregulation of iNOS and COX-2 mRNA and protein expressions (P<0.01 or P<0.05). Furthermore, with EEP treatment (150 µg/mL), there was a decrease in the mRNA expression levels of TNF-α, IL-1β and IL-6, as well as in the phosphorylation of ERK, JNK and p38 mitogen-activated protein kinase (MAPK, P<0.01 or P<0.05), by blocking the nuclear translocation of NF-κ B p65 in LPS-stimulated cells. In addition, EEP (100 and 150 µg/mL) led to an increase in the anti-oxidant enzymes activity of SOD and CAT, with a concomitant decrease in ROS production (P<0.01 or P<0.05). EEP also indicated the DPPH, OH, O2- radical and nitrite scavenging activity.@*CONCLUSION@#EEP inhibited inflammatory responses in activated macrophages through blocking MAPK/NF-κ B pathway and protected against oxidative stress.
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Animais , Camundongos , Antioxidantes/farmacologia , Lipopolissacarídeos/farmacologia , Polygala , Fator de Transcrição RelA/metabolismo , Fator de Necrose Tumoral alfa/metabolismo , Etanol/química , Interleucina-6/metabolismo , Anti-Inflamatórios/química , Espécies Reativas de Oxigênio/metabolismo , Ciclo-Oxigenase 2/metabolismo , Nitritos/metabolismo , NF-kappa B/metabolismo , Óxido Nítrico/metabolismo , Superóxido Dismutase/metabolismo , RNA Mensageiro , Óxido Nítrico Sintase Tipo II/metabolismoRESUMO
ObjectiveTo explore the antidepressant effect of Sophora flavescens seed extract and its molecular mechanism. MethodA mouse depression model was established by intraperitoneal injection of lipopolysaccharide(LPS), and normal group, model group, fluoxetine group(2.5 mg·kg-1), and S. flavescens seed low, medium and high dose groups(200, 400, 800 mg·kg-1) were set up for 7 d of consecutive gavage. Then the antidepressant effect of S. flavescens seed extract was evaluated by using open field test, elevated plus maze test and forced swimming test. Pathological morphological changes in the hippocampal tissue was observed by hematoxylin-eosin(HE) staining. Protein expression levels of G1/S-specific cyclin D1(Cyclin D1), Wnt1, β-catenin and phosphorylated glycogen synthase kinase-3β(p-GSK-3β) in mouse brain tissues were detected by Western blot. Hippocampal cell apoptosis was detected by terminal deoxynucleotidyl transferase mediated deoxyuridine triphosphate(dUTP) nick end labeling(TUNEL). ResultThe results of mouse behavioral experiments showed that compared with the normal group, the speed of movement in the open field and the distance of movement in the central area of the open field, and the time spent on the open arms of the elevated plus maze were significantly reduced in the model group(P<0.01), while immobility time in the forced swimming test was significantly increased(P<0.05). Compared with the model group, the S. flavescens seed medium and high dose groups had increased speed of movement in the open field test and time spent on the open arms of the elevated plus maze test(P<0.05, P<0.01), and decreased immobility time in the forced swimming test(P<0.05), the distance of movement in the central area of the open field test increased in the high dose group(P<0.05). HE staining results showed that compared with the normal group, the hippocampal neuron structure of mice in the model group was damaged. Compared with the model group, after treatment of S. flavescens seed extract, the pathological state of the mouse hippocampal neuron structure was alleviated, and the neurons increased, were neatly arranged, and the cytoplasm was clear. Western blot results showed that the protein expression levels of Wnt1 and β-catenin in mouse brain tissue were significantly decreased(P<0.01), while the protein expression levels of Cyclin D1 and p-GSK-3β were significantly increased(P<0.01) after LPS injection. Compared with the model group, protein expression levels of Wnt1 and β-catenin in brain tissue of S. flavescens seed medium and high dose groups were significantly increased(P<0.01), while the protein expression levels of Cyclin D1 and p-GSK-3β were significantly decreased(P<0.01). TUNEL staining results showed that the hippocampal cell apoptosis rate in the model group was significantly increased compared with that of the normal group(P<0.01), while the hippocampal cell apoptosis rate in the S. flavescens seed medium and high dose groups was significantly decreased compared with that of the model group(P<0.01). ConclusionS. flavescens seed extract can effectively improve the severity of depression in LPS-induced depressed mice, and its molecular mechanism is related to the regulation of neuroinflammation and hippocampal neuronal apoptosis mediated by Wnt/β-catenin signaling pathway.
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OBJECTIVE To observe the effects of chlorogenic acid on the activation of macrophage induced by lipopolysaccharide (LPS), and to explore the role of triggering receptors expressed on myeloid cells-2 (TREM2) in the action. METHODS To find a suitable LPS concentration, the cells were cultured with 1, 10 and 100 ng/mL LPS for 24 h. The level of interleukin 6 (IL-6) in the cell culture supernatant and protein expression of inducible nitric oxide synthase (iNOS) in the cells were detected. To search for a suitable chlorogenic acid concentration, the cells were divided into control group, LPS group and three chlorogenic acid (0.01, 0.1 and 1 μmol/L)+LPS groups. The levels of tumor necrosis factor α (TNF-α) and IL-1β in the cell culture supernatant, the protein expressions of iNOS and TREM2 in the cells and cell viability were detected. To observe the effects of TREM2 in chlorogenic acid alleviating macrophage activation, TREM2-small interfering RNA (TREM2-siRNA) was taken to intervene in TREM2 protein expression. The cells were divided into control group, LPS group, chlorogenic acid+LPS group, TREM2-siRNA+chlorogenic acid+LPS group and SC-siRNA+chlorogenic acid+LPS group. After 24 h incubation, the levels of TNF- α and IL-1β in the cell culture supernatant and protein expressions of TREM2, iNOS and nuclear factor κB p65 (NF-κB p65) in the cells were detected. RESULTS 10 ng/mL LPS promoted IL-6 release and increased iNOS protein expression, and 10 ng/mL LPS was taken in the next experiments. Compared with the LPS group, 0.1 μmol/L chlorogenic acid decreased TNF-α jiaji1981@126.com and IL-1β levels, and down-regulated iNOS expression,meanwhile increased TREM2 expression without effect on cell viability, and 0.1 μmol/L chlorogenic acid was taken in the next experiments. Compared with the control group, the protein expressions of iNOS and NF- κB p65 in the LPS group were significantly increased (P<0.05); compared with the LPS group, the protein expressions of iNOS and NF- κB p65 in the chlorogenic acid+LPS group were significantly decreased, the protein expressions of TREM2 was significantly increased (P< 0.05); compared with the chlorogenic acid+LPS group, the protein expressions of iNOS and NF-κB p65 of TREM2-siRNA+ chlorogenic acid+LPS group were significantly increased, the protein expressions of TREM2 was significantly decreased (P<0.05). TREM2-siRNA could significantly reverse the above effects of chlorogenic acid, while SC-siRNA did not significantly affect the above anti-inflammatory effects of chlorogenic acid. CONCLUSIONS Chlorogenic acid can inhibit the LPS-induced macrophage activation, and its anti-inflammatory may be mediated by TREM2 protein.
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ObjectiveTo explore the mechanism of Xiaoyaosan in alleviating lipopolysaccharide (LPS)-induced depressive-like behavior in mice based on the c-Jun N-terminal kinase (JNK) pathway. MethodAfter adaptive feeding, C57BL/6J mice were randomly divided into normal group, model group, minocycline group (intrabitoneal injection, 50 mg·kg-1), fluoxetine group (intragastric administration, 2.6 mg·kg-1), and low-, medium-, and high-dose Xiaoyaosan groups (intragastric administration,6.012 5, 12.025, and 24.050 g·kg-1). After 14 days of administration, the model group and each administration group were intraperitoneally injected with 2 mg·kg-1 LPS, and the normal group was intraperitoneally injected with equal volume of normal saline. Depressive-like behavior in mice was assessed using the open field test and the elevated zero maze test. High-performance liquid chromatography (HPLC) was used to measure the levels of norepinephrine (NE) and epinephrine (E) in the mouse hippocampus. Enzyme-linked immunosorbent assay (ELISA) was performed to determine serum interleukin-1β (IL-1β) levels. Immunohistochemistry was used to measure the protein expression levels of ionized calcium-binding adapter molecule-1 (Iba-1), c-Fos, and c-Jun. Real-time polymerase chain reaction (Real-time PCR) was used to measure mRNA expression levels of IL-1β, c-Jun, c-Fos, and JNK3 in the mouse hippocampus. Protein expression levels of JNK and phosphorylated (p)-JNK in the mouse hippocampus were measured using capillary protein automated protein expression analysis system (Western). ResultCompared with the normal group, the model group exhibited significantly reduced central area residence time, crossing times, and travel distance in the open field (P<0.01), significantly increased serum IL-1β levels (P<0.01), significantly decreased NE and E levels (P<0.05), upregulated mRNA expression of IL-1β, JNK3, and c-Fos, and increased protein expression of Iba-1, c-Fos, and c-Jun (P<0.05, P<0.01). Compared with the model group, the Xiaoyaosan groups showed increased central area residence time and open arm residence time (P<0.05), increased NE and E levels (P<0.01), decreased mRNA expression of IL-1β, JNK3, c-Jun, and c-Fos, and decreased protein expression of Iba-1, c-Fos, JNK, and p-JNK (P<0.05, P<0.01). The minocycline group and the fluoxetine group showed decreased mRNA expression of JNK3, c-Jun, and c-Fos (P<0.05, P<0.01). The minocycline group showed decreased serum IL-1β and p-JNK protein expression (P<0.01). The fluoxetine group exhibited increased NE and E levels and decreased c-Fos protein expression (P<0.01). ConclusionXiaoyaosan can improve depressive-like behavior induced by LPS in mice, and its mechanism may be related to the inhibition of neuroinflammatory responses and the JNK pathway.
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Objective:To investigate the mechanism of polymyxin resistance related to lipopolysaccharide modification in carbapenem-resistant Klebsiella pneumoniae (CRKP). Methods:Plasmid-mediated drug resistance genes in seven CRKP strains were detected by conjugation assay and mcr gene detection. The expression of polymyxin resistance-related genes was measured using quantitative real-time PCR. The complete genomes of CRKP strains were sequenced. Silver staining and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) were performed to analyze the changes in lipopolysaccharide (LPS). Results:The seven CRKP strains were negative for mcr genes and the results of conjugation assay were also negative. Moreover, no mobile genetic elements related to drug resistance were detected. Compared with wild-type strain, all seven CRKP strains that were resistant to polymyxin showed increased expression of pmrA, pmrB and pmrC genes at the transcriptional level; six showed increased expression of phoP/ phoQ genes; three showed decreased expression of crrA/ crrB genes; four showed decreased expression of mgrB gene. The missense mutation sites in drug-resistant strains were mainly in KPHS_09430, KPHS_35900, KPHS_39520 and KPHS_52420. IS Kpn14 insertion sequence was detected in CRKP-6 strain. MALDI-TOF-MS reveals the modification of natural lipid A with L-Ara4N in CRKP LPS. Conclusions:LPS modification induced by chromosome-mediated mutation in the two-component regulatory system was the main molecular mechanism of polymyxin resistance in CRKP isolates in this study. Effects of the mutation in the two-component system on polymyxin resistance varied in different strains.
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Objective:To investigate the regulatory effect of WNT1-inducible signaling pathway protein 2(WISP2)on macrophage polarization in palmitic acid(PA)and lipopolysaccharide(LPS)-induced inflammation.Methods:The macrophage cell line RAW264.7 was treated with different concentrations of WISP2 protein, and cell viability was determined by means of luminescence assay using Cell-Titer Glo to determine the concentration of WISP2.The cells were divided into control group, palmitic acid group, palmitic acid combined with different concentrations of WISP2 group(10 μg/L and 100 μg/L)and lipopolysaccharide group, lipopolysaccharide combined with different concentrations of WISP2 group(10 μg/L and 100 μg/L). mRNA expression of M1 and M2 macrophages phenotype of each group were detected by real-time quantitative polymerase chain reaction.The protein expression of important inflammatory factors, TNF-α and IL-6, were evaluated by ELISA.Results:Compared with the control group, both 10 μg/L and 100 μg/L WISP2 groups had no effect on the activity of RAW264.7 cells, but significantly up-regulated the expression of various inflammatory factors, including Tnfα(1.877±0.039, 2.202±0.034, F=309.7, P<0.001), Il6(1.418±0.056, 1.506±0.059, F=81.39, P<0.001), Mcp1(1.620±0.014, 1.982±0.125, F=71.45, P<0.001), Ccl3(1.892±0.118, 1.942±0.132, F=32.93, P<0.001), and iNos(1.691±0.201, 1.548±0.090, F=13.60, P<0.05). mRNA in macrophages, and significantly down-regulated the expression of anti-inflammatory factors, including Tgfβ(1.376±0.025, 2.152±0.107, F=1.846, P<0.05), CD206(2.123±0.031, 3.139±1.663, F=8.037, P<0.05), Il4(2.098±0.464, 2.494±0.141, F=48.68, P<0.01), and Il10(1.303±0.216, 1.574±0.274, F=5.774, P<0.05)mRNA, causing M1 type macrophage polarization.Compared with the control group, 100 μmol/L palmitic acid could mildly but significantly increase the expression of inflammatory factors such as TNF-α and IL-6 at the transcriptional and protein levels.Compared with palmitic acid stimulation alone, the combination of palmitic acid and WISP2 further promoted the protein expression of macrophage inflammatory factors TNF-α[(589.4±17.0)ng/L, (692.6±83.4)ng/L, F=56.38, P<0.05], IL-6[(15.13±1.14)ng/L, (13.33±1.22)ng/L, F=23.32, P<0.001]and the mRNA expression of chemokines Mcp1(160±9.796, 140±18.91, F=141.1, P<0.0001)and C cl3(17.76±1.92, 14.41±1.27, F=125.2, P<0.0001). Compared with the control group, 100 μg/L lipopolysaccharide strongly stimulated the expression of inflammatory factors such as TNF-α[(3444±423)ng/L, F=71.20, P<0.0001]and IL-6[(497.0±41.2)ng/L, F=63.50, P<0.0001]in macrophages at the protein level.Compared with lipopolysaccharide stimulation alone, the combination of lipopolysaccharide and WISP2 further significantly up-regulated the mRNA expression of chemokines Mcp1(106.8±8.7, 118.7±4.6, F=251.5, P<0.0001)and Ccl3(35.3±12.5, 116.4±4.5, F=160.1, P<0.0001). Conclusions:The adipokine WISP2 can promote M1 macrophage polarization in palmitic acid and lipopolysaccharide-induced inflammation, and it had distinct regulation in macrophage polarization under different inflammatory response conditions.
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OBJECTIVE The etiology of Parkinson disease(PD)is still unknown.Until now,oxidative stress and neuroinflammation play a crucial role in the patho-genesis of PD.However,the specific synergistic role of oxidative stress and neuroinflammation in the occurrence and development of PD remains unclear.METHODS The changes in motor behavior,dopamine(DA)neurons quantification and their mitochondrial respiratory chain,glial cells activation and secreted cytokines,Nrf2 signal-ing pathway,and redox balance in the brain of rats were evaluated.RESULTS Lipopolysaccharide(LPS)-induced neuroinflammation and rotenone(ROT)-induced oxidative stress synergistically aggravated motor dysfunc-tion,DA neuron damage,activation of glial cells,and release of related mediators,activation of Nrf2 signaling and destruction of oxidative balance.In addition,further studies indicated that after ROT-induced oxidative stress caused direct damage to DA neurons,LPS-induced inflammatory effects had stronger promoting neurotoxic effects on the above aspects.CONCLUSION Neuroinflammation and oxidative stress synergistically aggravated DA neuronal loss.Furtherly,oxidative stress followed by neuroinflammation caused more DA neuro-nal loss than neuroinflammation followed by oxidative stress.
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Objective:To explore whether barium chloride (BaCl 2) preconditioning has the protective effect on lipopolysaccharide (LPS)-induced acute respiratory distress syndrome (ARDS) model in mice and the possible mechanism. Methods:Sixty 8-12 week old healthy C57BL/6 male mice were randomly divided into control group, ARDS model group and BaCl 2 pretreatment group, with 20 mice in each group. The BaCl 2 pretreatment group was continuously injected with BaCl 2 (4 mg/kg through the tail vein) for 3 days before ARDS model establishment. ARDS model was established by intratracheally injecting (3 mg/kg) LPS. The control group was intratracheally given the same volume of 0.9% normal saline. On 24th hour after ARDS model establishment, some mice were sacrificed for obtaining fresh lung tissue. And the right lower lobe of the lung was separated for observing the pathological changes of lung tissue while the left lung tissue was used to measure the wet/dry weight ratio (W/D) of the lung. Some mice were sacrificed for observing pulmonary microvascular permeability at 2nd hours after injecting Evans blue (EB) through tail vein. The left mice were killed for alveolar lavage to measure the levels of tumor necrosis factor-α (TNF-α) via enzyme linked immunosorbent assay (ELISA). Results:Comparing with the control group, ARDS model group showed typical ARDS pathological changes, which included the increased W/D ratio (4.951±0.161 vs. 3.449±0.299, P < 0.01) and the content of EB in the lung tissue (μg/g: 0.130±0.027 vs. 0.085±0.011, P < 0.01), the damaged alveolar wall structure, lung congestion and exudates in the alveoli, as well as amounts of inflammatory cells. The pathological score of lung injury (10.33±1.15 vs. 1.67±0.58) and the level of TNF-α in BALF (ng/L: 900.85±247.80 vs. 68.21±5.79) were significantly increased in the ARDS model group (both P < 0.01). Comparing with the ARDS model group, the lung W/D ratio (4.620±0.125 vs. 4.951±0.161) and the EB content in the lung tissue (μg/g: 0.108±0.011 vs. 0.130±0.027) of BaCl 2 pretreatment group were significantly reduced (both P < 0.01). And the damaged pulmonary structural BaCl 2 pretreatment group were significantly alleviated. In addition, the pulmonary pathological score (5.00±1.00 vs. 10.33±1.15) and the level of TNF-α in BALF (ng/L: 169.16±73.33 vs. 900.85±247.80) were significantly decreased (both P < 0.01). Conclusion:Barium chloride pretreatment can improve the lung histopathological changes of ARDS model mice induced by LPS by reducing the permeability of pulmonary capillaries and local inflammatory reaction.Barium chloride has the protective effect against LPS attack in mice model of ARDS.
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Methods:Cultured human alveolar epithelial A549 cells were assigned into LPS group and blank control group. LPS group was stimulated with LPS and adenosine triphosphate to induce pyroptosis and inflammation. A549 cells were divided into 4 groups: miR-20a mimics group, mimics-negative control (NC) group, inhibitor group and inhibitor-NC group. MiRNA-20a mimics, mimics-NC, inhibitor, and inhibitor-NC were transfected respectively into A549 cells, and after 24 h, the cells were collected to verify transfection efficiency by qPCR. MiRNA-20a mimics and the constructed TLR4-3'UTR double luciferase reporter plasmid were co-transfected into A549 cells, and luciferase activity was analyzed. MiRNA-20a mimics/inhibitors were transfected into A549 cells, and then the cells were stimulated by LPS for 8 h followed by adenosine triphosphate for 30 min. QPCR, Western Blot and ELISA were used to detect the expression of GSDMD, inflammatory factors (ASC, NLRP3, Caspase-1, IL-1β) and Signaling molecules (TLR4、NF-κB) in A549 cells at mRNA level and protein level. Immunofluorescence was used to detect the expression of TLR4 in the A549 cells and NF-κB in the nucleus of A549 cells after transfecting with miRNA-20a mimics/inhibitor.Results:The mRNA and protein expression of pyroptosis marker molecule (GSDMD) and inflammatory factors (ASC, NLRP3, Caspase-1, IL-1β) in A549 cells stimulated with LPS were significantly higher than those in the blank control group, and the differences were statistically significant ( P<0.05). The expression of miRNA-20 in the mimics group was significantly higher than that in the mimic-NC group ( P<0.05), while the expression of miRNA-20a in the inhibitor group was lower than that in the inhibitor-NC group ( P<0.01). The double luciferase reporter gene experiment showed that the relative fluorescence value of the co-transfection group for TLR4-3'UTR-WT and miRNA-20a mimics was significantly lower than the co-transfection group for TLR4-3'UTR-WT and miRNA-20a mimics-NC ( P<0.05). The mRNA and protein levels of pyroptosis marker molecule (GSDMD) , inflammatory factors (ASC, NLRP3, Caspase-1, IL-1β) and signaling molecules (TLR4, NF-κB) were decreased in the mimics group compared to the mimics-NC group, and increased in inhibitor group compared to inhibitor-NC group. Conclusions:miRNA-20a may inhibit LPS-induced pyroptosis and inflammation of A549 cells via TLR4/NF-κB signal pathway.Objetive:To explore the potential role of miRNA-20a in lipopolysaccharide (LPS) induced pyroptosis and inflamation of human alveolar epithelial A549 cells and its regulation mechanisim.
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Objective:To investigate the effect of Xuanbai Chengqi Decoction (XBCQT) on lung-gut injury and intestinal function, and analyze its effect on intestinal flora in sepsis mice.Methods:C57 male mice were randomly divided into three groups with 12 mice in each group: control group, model group and treatment group. The sepsis model was prepared by intra-peritoneal injection of lipopolysaccharide (LPS) 5 mg/kg. XBCQT was administered by gavage 24 h before, 0.5 h after and 12 h after modeling. The lung, colon and blood samples were collected at 24 h after modeling. The pulmonary and intestinal inflammatory cytokine content of interleukin-1β (IL-1β), IL-6, tumor necrosis factor α (TNF-α) and monocyte chemoattractant protein (MCP-1) was measured by real-time fluorescence quantitative PCR. HE staining was used to evaluate the structural damage and changes of lung and gut, and Western blot and Immunohistochemistry methods were used to analyze the expression of occludin and claudin-1 in intestinal epithelium. Finally, the plasma endotoxin content of each group was tested by Limulus test kit. Fecal DNA of mice was extracted and the changes of intestinal flora in sepsis mice were detected by 16S rDNA quantitative PCR. The measurement data among the three groups were compared by one-way analysis of variance.Results:(1) XBCQT significantly reduced the pulmonary inflammatory cytokine IL-1β, IL-6, TNF-α and MCP-1 expression (all P<0.05), and attenuated lung injury. (2) Compared to the model group, the treatment group exhibited a reduction in intestinal damage and a decrease in the intestinal inflammatory cytokines (all P<0.05). XBCQT increased the expression of epithelial tight junction and mucin of colon, and improved the intestinal epithelium barrier function. (3) XBCQT treatment decreased the content of endotoxin in plasma of sepsis mice ( P<0.05), promoted the growth of beneficial bacteria Akkermansia muciniphila and reduced the expression of Enterococcus in the intestine of sepsis mice (all P<0.05). Conclusions:XBCQT can significantly improve the intestinal inflammatory injury, regulate the intestine epithelium barrier and improve the intestinal function in sepsis mice.