Objective To investigate the molecular mechanism by which salidroside inhibits the proliferation of gastric cancer(GC)cells through upregulation of miR-1343-3p.Methods RNA databases were used to screen for mRNAs associated with tumor proliferation and with miR-1343-3p,and exhibiting significant changes in their expression levels after salidroside treatment of human GC cells.Gene matching and immunoprecipitation of RNA-binding proteins were conducted to analyze the association between miR-1343-3p and SOX18.Immunocytochemistry was performed to determine the localization of SOX18 protein.The effect of salidroside on the proliferation of human GC cells(MGC-803 and AGS)was determined by CCK-8 assay.Human GC cells were divided into a blank control group and low-and high-dose salidroside groups.The expression of miR-1343-3p and SOX18 mRNA was measured by real-time quantitative fluorescence PCR(qPCR).The protein expression of SOX18 was measured by Western blot.GC cells were co-transfected with miR-1343-3p mimic and miR-1343-3p inhibitor,respectively,via LipofectamineTM 2000 liposomes.The expression of miR-1343-3p and SOX18 mRNA was measured by qPCR,and the protein expression of SOX18 was measured by Western blot.Results Through bioinformatic analysis,SOX18 was identified as a downstream target of miR-1343-3p.Gene alignment confirmed the presence of specific binding sites between the two genes,and immunoprecipitation of RNA-binding proteins validated the targeting relationship between them(P<0.05).Immunocytochemistry demonstrated the nuclear localization of SOX18 protein.CCK-8 assay findings demonstrated that salidroside significantly inhibited the proliferation of GC cells in a time-and dose-dependent manner.Compared with the blank control group,salidroside-treated GC cells showed decreased expression of both SOX18 mRNA and protein(P<0.05)and an increased miR-1343-3p expression(P<0.05).Compared with the control group,GC cells in the miR-1343-3p mimic group exhibited increased expression of miR-1343-3p and decreased expression of SOX18 mRNA and protein.In contrast,GC cells in the miR-1343-3p inhibitor group showed decreased expression of miR-1343-3p and increased expression of SOX18 mRNA and protein(all P<0.05).Conclusion Salidroside may inhibit the proliferation of GC cells by regulating the miR-1343-3p/SOX18 signaling axis and these regulators may present new potential therapeutic targets or biomarkers for gastric cancer.

BackgroundExecutive function deficits constitute a core problem in attention-deficit/hyperactivity disorder （ADHD）. Previous assessments of executive function in children with ADHD have predominantly relied on performance-based neuropsychological tests conducted in laboratory settings， though their predictive validity for real-world functional outcomes remains limited. In contrast， ecological executive function emphasizes the evaluation of complex task management in naturalistic contexts， demonstrating a stronger predictive power for functional adaptation in daily living among children with ADHD， such as multitasking performance， social interactions and so on. However， current empirical evidence regarding ecological executive function in this population remains insufficient. ObjectiveTo investigate the executive function characteristics of children with ADHD from an ecological perspective， thereby providing references for developing targeted interventions. MethodsA case control study was conducted， including 277 ADHD children who met the Diagnostic and Statistical Manual of Mental Disorders， fourth edition （DSM-IV） criteria and were selected at the Child Health Care and Mental Health Center of Shenzhen Children's Hospital from June 2017 to December 2020， as well as 98 healthy controls were recruited from primary and secondary schools in Shenzhen. All participants were assessed using Wechsler Intelligence Scale for Children， fourth edition （WISC-IV） and Behavior Rating Inventory of Executive Function （BRIEF）. Differences in WISC-IV and BRIEF scores were compared between ADHD group and control groups， followed by the comparison of BRIEF scores by gender and ADHD subtypes. ResultsAmong the 277 children with ADHD， 136 cases （49.10%） had predominantly inattentive type （ADHD-I）， 6 cases （2.17%） had predominantly hyperactive-impulsive type （ADHD-HI）， and 135 cases （48.73%） had combined type （ADHD-C）. ADHD group demonstrated significantly lower scores on both the WISC-IV total IQ and four index scores （verbal comprehension， perceptual reasoning， working memory and processing speed） than control group （t=3.698~9.335， P<0.01）. After controlling for WISC-IV total IQ as a covariate， the scores of each factor in the dimensions of behavioral regulation index （inhibition， shifting， emotional control） and metacognition index （task initiation， working memory， planning， monitoring and organization） were all higher in ADHD group than in control group， and the differences were statistically significant （F=46.563~290.475， P<0.01）. In terms of gender， no statistically significant difference was found in BRIEF composite scores （behavioral regulation index or metacognition index） of children with ADHD （t=0.105~1.190， P>0.05）. In terms of ADHD subtypes， children with ADHD-C reported significantly higher scores than those with ADHD-I on the scores of inhibition， emotional control， organization and monitoring in BRIEF （t=2.481~7.343， P<0.05 or 0.01）. ConclusionChildren with ADHD have multidimensional deficits in ecological executive function， which vary across different subtypes. ［Funded by Shenzhen Excellent Science and Technology Innovation Talent Training Project （number， RCYX20221008092849069）； the Sanming Project of Medicine in Shenzhen］

ObjectiveTo construct an animal model of respiratory syncytial virus（RSV）-infected pneumonia suitable for preclinical studies. MethodsThe virulence of RSV to the four cell lines was observed by cytopathic effect （CPE）， and 50% tissue culture infective dose（TCID₅₀） was calculated. Twenty BALB/c mice were randomly divided into a normal group and a model group. Six BALB/c-hIGF1R mice served as the humanized IGF1R model group. Except for the normal group， the other groups received intranasal RSV infection on days 1 and 3 to establish a viral pneumonia model. The efficacy of establishing an RSV-induced pneumonia animal model based on humanized insulin-like growth factor 1 receptor （IGF1R） mice was evaluated by measuring organ indices， peripheral blood lymphocyte percentages， pulmonary pathology and imaging， and pulmonary viral load. Additionally， ten BALB/c mice served as normal group， and thirty-two BALB/c-hIGF1R mice were randomly assigned to humanized IGF1R model group， ribavirin group （82.5 mg·kg^-¹·d^-¹）， and high and low dose groups of Lianhua Qingwen （3.3 mg·kg^-¹·d^-¹ ， 1.65 mg·kg^-¹·d^-¹）， with 8 mice per group. The viral load in lung tissue was measured after ribavirin and Lianhua Qingwen intervention， and the model was applied to the evaluation of anti-RSV drugs. ResultsIn the lungs of the humanized IGF1R model group， large solid and diffuse ground-glass shadows were seen， and the lung volume was significantly increased （P<0.01）. The lung index was significantly increased （P<0.01）， and both the spleen index and thymus index were significantly decreased （P<0.01）. The percentages of CD3⁺ and CD4⁺T cells were significantly decreased （P<0.05）， and there was a large amount of inflammation and stasis in the perivascular area of the lung tissue， which was predominantly characterized by lymphocytes. The endothelium of blood vessels was partially detached， with a small number of eosinophils. After infecting BALB/c-hIGF1R mice with RSV， the expression of viral nucleic acids in the lung tissue of the mice was significantly increased， with significant differences compared with the normal group （P<0.01）. The expression of viral nucleic acids in the ribavirin group and the high and low dose groups of Lianhua Qingwen was significantly reduced， with significant differences compared with the normal group （P<0.01）. ConclusionHumanized IGF1R mice are more susceptible to respiratory SVC， and the animal model of RSV-infected pneumonia based on humanized IGF1R mice was successfully constructed， which is suitable for the evaluation of anti-RSV drugs.

ObjectiveTo construct an animal model of respiratory syncytial virus（RSV）-infected pneumonia suitable for preclinical studies. MethodsThe virulence of RSV to the four cell lines was observed by cytopathic effect （CPE）， and 50% tissue culture infective dose（TCID₅₀） was calculated. Twenty BALB/c mice were randomly divided into a normal group and a model group. Six BALB/c-hIGF1R mice served as the humanized IGF1R model group. Except for the normal group， the other groups received intranasal RSV infection on days 1 and 3 to establish a viral pneumonia model. The efficacy of establishing an RSV-induced pneumonia animal model based on humanized insulin-like growth factor 1 receptor （IGF1R） mice was evaluated by measuring organ indices， peripheral blood lymphocyte percentages， pulmonary pathology and imaging， and pulmonary viral load. Additionally， ten BALB/c mice served as normal group， and thirty-two BALB/c-hIGF1R mice were randomly assigned to humanized IGF1R model group， ribavirin group （82.5 mg·kg^-¹·d^-¹）， and high and low dose groups of Lianhua Qingwen （3.3 mg·kg^-¹·d^-¹ ， 1.65 mg·kg^-¹·d^-¹）， with 8 mice per group. The viral load in lung tissue was measured after ribavirin and Lianhua Qingwen intervention， and the model was applied to the evaluation of anti-RSV drugs. ResultsIn the lungs of the humanized IGF1R model group， large solid and diffuse ground-glass shadows were seen， and the lung volume was significantly increased （P<0.01）. The lung index was significantly increased （P<0.01）， and both the spleen index and thymus index were significantly decreased （P<0.01）. The percentages of CD3⁺ and CD4⁺T cells were significantly decreased （P<0.05）， and there was a large amount of inflammation and stasis in the perivascular area of the lung tissue， which was predominantly characterized by lymphocytes. The endothelium of blood vessels was partially detached， with a small number of eosinophils. After infecting BALB/c-hIGF1R mice with RSV， the expression of viral nucleic acids in the lung tissue of the mice was significantly increased， with significant differences compared with the normal group （P<0.01）. The expression of viral nucleic acids in the ribavirin group and the high and low dose groups of Lianhua Qingwen was significantly reduced， with significant differences compared with the normal group （P<0.01）. ConclusionHumanized IGF1R mice are more susceptible to respiratory SVC， and the animal model of RSV-infected pneumonia based on humanized IGF1R mice was successfully constructed， which is suitable for the evaluation of anti-RSV drugs.

ObjectiveTo investigate the possible mechanism of Shufeng Jiedu capsules （SFJD） in alleviating influenza A （H1N1） virus pneumonia and focus on its effect on Toll-like receptor （TLR） signaling pathway in respiratory epithelial cells. MethodsA mouse model of viral pneumonia was established via the A/PR/8/34 （PR8） strain of influenza A virus. Mice were randomly divided into a normal group， a PR8 infection （PR8） group， and an SFJD group （8.4 g·kg^-1）， with 10 mice in each group. The day of infection was designated as day 1. The SFJD group was administered intragastrically at a volume of 20 mL·kg^-1 daily， while the normal and PR8 groups were given an equal volume of deionized water. Micro-computed tomography （Micro-CT） was performed on day 5， and the mice were dissected to collect their lungs， after which the lung index was calculated to verify the therapeutic effect of SFJD. Single-cell sequencing was used to analyze the differentially expressed genes in respiratory epithelial cells. Multiplex fluorescence immunohistochemistry was employed to detect the expression of TLR， tumor necrosis factor receptor-associated factor 6 （TRAF6）， and myeloid differentiation factor 88 （MyD88） proteins in epithelial cell adhesion molecule （EpCAM）-positive cells， and the proportion of respiratory epithelial cells expressing TLR pathway proteins was calculated. Respiratory epithelial cells were then sorted by flow cytometry， and Western blot was used to detect the expression of TLR， MyD88， TRAF6， Toll-interleukin receptor domain-containing adaptor inducing interferon-β （TRIF）， inhibitor of κB kinase α （IKKα）， and nuclear factor-κB （NF-κB） in the sorted epithelial cells. Enzyme-linked immunosorbent assay （ELISA） was used to measure the levels of interleukin-1β （IL-1β） and tumor necrosis factor-α （TNF-α） in lung tissue. ResultsAt the transcriptional level， SFJD reversed the expression of TLR signaling pathway genes in respiratory epithelial cells， downregulating multiple TLR signaling pathway-related genes （P<0.01）. At the protein level， SFJD significantly reduced the proportion of respiratory epithelial cells expressing TLR3 （P<0.05）， the expression levels of TLR2， TLR3， TLR4， TRIF， TRAF6， IKKα， and NF-κB in epithelial cells（P<0.05， P<0.01）， as well as the levels of pro-inflammatory cytokines IL-1β and TNF-α in lung tissue （P<0.01）. ConclusionSFJD may alleviate viral pneumonia by suppressing the expression of TLR in respiratory epithelial cells and their subsequent signaling cascades.

Objective:To investigate the features of the brain structural network in patients with postpartum depression (PPD).Methods:This cross-sectional study included PPD patients who visited the mental health counseling clinic after delivery at the Jiangsu University Affiliated Yixing Hospital from June 2013 to September 2022 (PPD group). Matched non-PPD postpartum women based on age, years of education, and body mass index who came for postpartum follow-up (non-PPD postpartum group), and non-pregnant women who visited the hospital or underwent physical examinations during the same period (non-pregnant group) were also included. Demographic data and diffusion tensor imaging (DTI) data were collected for all three groups. The brain was partitioned into 90 regions using an anatomical template to construct the brain structural network. Network-based statistics (NBS) were applied to further screen and construct subnetworks. The efficacy of the subnetworks in identifying PPD was evaluated through multivariable logistics regression models and receiver operating characteristic curves. A comparison of the connectivity strength of white matter tracts and topological attributes of brain structural network parameters was conducted using independent samples t-tests, and the results were corrected using the false discovery rate (FDR) method. Results:(1) A total of 116 subjects were included, with 40 in the non-pregnant group, 40 in the non-PPD postpartum group, and 36 in the PPD group. PPD group had higher Edinburgh Postnatal Depression Scale (EPDS) scores than the non-pregnant and non-PPD postpartum groups [(18.0±4.1) scores vs. (2.5±1.2) and (6.1±2.1) scores, F=340.40; t=24.65,10.60 and 16.16 in pairwise comparison; all P<0.001]. (2) Compared to the non-pregnant group, there was a decrease in the connectivity strength of nine white matter tracts within the brain structural network of the postpartum group (including left dorsolateral superior frontal gyrus-left anterior cingulate and paracingulate gyrus, left dorsolateral superior frontal gyrus-right amygdala, left dorsolateral superior frontal gyrus-left insula, left insula-left lentiform nucleus, left insula-left hippocampus, left hippocampus-right amygdala, left hippocampus-left precuneus, left anterior cingulate and paracingulate gyrus-right amygdala, and right amygdala-right hippocampus) (all P<0.05, FDR corrected). No increased connection strengths were observed. There were no significant differences in the connection strengths of these nine tracts between the non-PPD and PPD groups. (3) A characteristic subnetwork for the maternal group was successfully constructed based on the nine tracts, which exhibited typical small-world properties (σ>1). Compared to the non-PPD maternal group, the characteristic path length in the PPD group was increased [(3.904±0.328) vs. (4.130±0.433), t=－2.58], and global efficiency was decreased [(0.361±0.036) vs. (0.331±0.053), t=2.91] (both P<0.05). Local property comparisons showed that the node efficiency values for the left dorsolateral superior frontal gyrus, left insula, left anterior cingulate and paracingulate gyrus, left hippocampus, right hippocampus, right amygdala, left precuneus and left putamen in the PPD group were significantly reduced [(0.273±0.023) vs. (0.267±0.030), t=0.98; (0.299±0.035) vs. (0.276±0.041), t=2.64; (0.265±0.019) vs. (0.258±0.025), t=1.38; (0.318±0.028) vs. (0.305±0.031), t=1.92; (0.312±0.027) vs. (0.302±0.031), t=1.50; (0.322±0.030) vs. (0.298±0.026), t=3.71; (0.356±0.040) vs. (0.338±0.056), t=1.62; (0.346±0.028) vs. (0.331±0.036), t=1.74; all P<0.05]. However, only the differences in node efficiency values for the left insula and right amygdala remained significant after FDR correction (corrected P=0.041 and 0.003). (4) Global efficiency, as well as node efficiency for the left insula and right amygdala, demonstrated good value for identifying PPD [areas under the curve (AUC) and their 95% CI were 0.827 (0.732-0.922), 0.741 (0.628-0.854), and 0.761 (0.653-0.867), respectively], with even better performance when combined [0.897 (0.828-0.969)]. (5) In the PPD group, global efficiency ( r=－0.43, P=0.008), node efficiency for the left insula ( r=－0.39, P=0.019), and node efficiency for the right amygdala ( r=－0.42, P=0.011) were all negatively correlated with EPDS scores. Conclusion:Aberrations in global efficiency, node efficiency for the left insula, and node efficiency for the right amygdala may serve as characteristic neuroimaging biomarkers for PPD.

The purpose of this study was to investigate the damage mechanism of pathogenic E.coli on mouse brain microvascular endothelial cells(BMEC cells)and mouse alveolar macrophages(MH-S cells),as well as the lung and brain of healthy mice.In this study,BMEC cells and MH-S cells were infected with pathogenic E.coli strains,and cell morphological changes were observed.Plate counting method was used to detect the adhesion and invasion ability of the strains to cells and the number of bacteria in the lungs and brains of mice.RT-qPCR was used to detect the ex-pression of TNF-α,IL-1β and IL-6 genes in cells and mouse organs at different time periods.West-ern blot was used to detect the expression of p-NF-κB,p-JAK2 and p-STAT3 proteins related to inflammation in cells and mouse organs after infection.The results showed that the cell culture medium of the infection group was turbid,the cell vision became dark and blurred,some cells shrank and died,and more fragments were produced.The adhesion rate and invasion rate of BMEC cells at 3 h were significantly lower than those at 6 h(P＜0.050),and the adhesion rate and inva-sion rate of MH-S cells at 3 h were significantly higher than those at 6 h(P＜0.010).Infected mice had a large area of swelling and bleeding in the brain,and the lungs had different degrees of swell-ing and bleeding.The bacterial load in the brain and lung was the highest at 12 h.Compared with the control group,the mRNA expression levels of IL-1β,IL-6 and TNF-α in the infection group were significantly increased at 3 h and 6 h(P＜0.050),and the mRNA expression levels of inflam-matory factors in BMEC cells and MH-S cells were the highest at 6 and 3 h,respectively.The mR-NA expression of inflammatory factors in the brain and lung of infected mice showed a trend of in-creasing first and then decreasing with time,with the highest expression at 12 h after infection.The expression levels of p-NF-κB protein in BMEC cells,MH-S cells,lung and brain tissues of mice in the infection group were significantly higher than those in the control group(P＜0.001),and the expression levels of p-JAK2 protein and p-STAT3 protein were significantly lower than those in the control group(P＜0.050).The above results showed that pathogenic E.coli could adhere and invade BMEC cells and MH-S cells,colonize in lung and brain tissues of mice,promote the expres-sion of NF-κB protein in cells and tissues,inhibit the expression of JAK2 protein and STAT3 pro-tein,and then stimulate cells and tissues to produce inflammatory response.

Background and purpose:Heterogeneous nuclear ribonucleoprotein K(hnRNPK)is an RNA special binding protein that participates in regulating the expression of related genes and protein translation.It has been linked to the malignant occurrence and development of various tumors,but its role in breast cancer remains unclear.The aim of this study was to investigate the effects of hnRNPK on ferroptosis in breast cancer cells and the underlying mechanisms.Methods:Based on The Cancer Genome Atlas(TCGA)and Gene Expression Omnibus(GEO)databases,hnRNPK expression in breast cancer tissues and normal tissues and its relationship with clinical prognosis were analyzed by bioinformatics.We detected hnRNPK expression in breast cancer cells and tissues using real-time quantitative reverse transcription polymerase chain reaction(qRT-PCR),Western blot,and immunohistochemistry staining diagnosis methods.MCF-7 and MDA-MB-231 breast cancer cells were transfected with siRNA,and divided into control group(control),empty body group(NC),and interference vector group(si-hnRNPK).Cell proliferation was detected by cell counting kit-8(CCK-8)and plate clone formation assays.RNA-seq analysis was applied to explore potential targeted biological functions and signaling pathways affected by hnRNPK.Additionally,we investigated the impact of hnRNPK on ferroptosis phenotype using Western blot and commercial kits for reactive oxygen species(ROS),malondialdehyde(MDA),glutathione(GSH),and Fe2+,ferroptosis inhibitor(ferrostatin-1,Fer-1)was used to detect the rescue effect of hnRNPK knockdown on ferroptosis.The impact of hnRNPK on the expressions of Wnt/β-catenin pathway-related proteins were determined by Western blot.Results:The bioinformatics analyses indicated hnRNPK was upregulated in breast cancer tissues(P＜0.01),and the overall survival of patients in the high expression group was poorer compared with those in the low expression group(P＜0.05).hnRNPK was highly expressed in breast cancer tissues and cells,and knocking down hnRNPK weakened the proliferation ability of breast cancer cells(P＜0.05).The RNA-seq analysis showed that hnRNPK was significantly enriched in ferroptosis,apoptosis,and the Wnt/β-catenin signaling pathway.Knocking down hnRNPK promoted ferroptosis in breast cancer cells by inducing lipid ROS and MDA,as well as Fe2+accumulation(P＜0.05).Interestingly,the ferroptosis inhibitor ferrostatin-1(Fer-1)reversed the promotive effect of hnRNPK knockdown on ferroptosis(P＜0.05).Downregulation of hnRNPK led to a decrease in the expressions of β-catenin and c-Myc in the Wnt/β-catenin signaling pathway,while expressions of CK1α,APC and the GSK-3β complex were elevated(P＜0.05).Conclusion:hnRNPK is highly expressed in breast cancer,and knocking down hnRNPK promotes ferroptosis in breast cancer cells by inhibiting the Wnt/β-catenin signaling pathway,thereby suppressing the malignant progression of breast cancer.

Objective To investigate the mechanism by which fragile X mental retardation protein(FMRP)regulates ferroptosis evasion in colorectal cancer(CRC)cells.Methods We examined FMRP expression levels in CRC cell lines using RT-qPCR and Western blotting and analyzed the biological functions and signaling pathways involved in FMRP-mediated regulation of CRC progression using the TCGA database.A lentiviral FMRP overexpression vector(Lv-FMRP)and 3 knockdown vectors(siFMRP-1,siFMRP-2,and siFMRP-3)were constructed,and their effects on proliferation of HCT116 cells were examined using CCK8 assay and plate clone formation assay;the changes in cell ferroptosis level was determined using MDA/ROS/GSH/Fe2+kits,mitochondrial membrane potential changes were detected using JC-1 fluorescence staining,and the expressions of proteins associated with ferroptosis and the RAS/MAPK signaling pathway were detected using Western blotting.The subcutaneous tumorigenic potential of the transfected cells was evaluated in nude mice.Results Compared with normal colonic mucosal epithelial NCM460 cells,the CRC cell lines had significantly higher FMRP expression level.Bioinformatics analysis suggested the involvement of FMRP in regulation of reactive oxygen,oxidative stress-induced cell death,mitochondrial respiration,and glutathione metabolism pathways.In the cell experiments,FMRP knockdown significantly inhibited proliferation of HCT116 cells,lowered cellular GSH content,increased MDA and ROS levels,Fe2+fluorescence intensity,and mitochondrial membrane potential,and decreased SLC7A11/GPX4 protein expressions and the phosphorylation levels of ERK,MEK,MAPK,and RAS proteins;FMRP overexpression resulted in the opposite changes in the cells.In the tumor-bearing nude mice,HCT116 cells with FMRP knockdown showed attenuated tumorigenic potential with lowered xenograft growth rate and reduced SLC7A11 expression in the xenograft.Conclusion The high expression of FMRP inhibits ferroptosis in CRC cells and promotes progression of CRC by activating the RAS/MAPK signaling pathway.

ObjectiveTo observe the effect of Shufeng Jiedu capsule （SFJD）-containing serum on human lung epithelial cells infected by influenza A virus， and investigate the protective effect of the drug on the cells and the potential antiviral effect. MethodThe SFJD-containing serum was prepared and used to treat human lung epithelial cells （BEAS-2B） cultured in vitro. The viability of cells treated with different concentrations of SFJD-containing serum was measured by the cell counting kit-8 （CCK-8）， and the optimal concentration of SFJD-containing serum was screened for subsequent experiments. BEAS-2B cells were classified into normal control， virus infection， and SFJD-containing serum groups， and the CCK-8 method was used to detect the survival rate of BEAS-2B cells after virus infection and drug administration. The expression of influenza virus nucleic acid in the cells of each group was determined， and the apoptosis of cells in different groups was observed by fluorescence microscopy. Real-time PCR was employed to determine the mRNA levels of influenza virus nucleoprotein （NP）， Toll-like receptor 4 （TLR4）， and myeloid differentiation primary response gene 88 （MyD88） in each group of cells. The immunofluorescence assay was used to detect the fluorescence intensities of TLR4， MyD88， and phosphorylated nuclear factor-κB （p-NF-κB） in lung epithelial cells. ResultCompared with that in the control group （normal serum）， the cell survival rates in the blank serum and the SFJD-containing serum （5%， 10%， and 20%） groups were 100.00%±0.00%， 89.05%±4.80%， 87.13%±5.90%， 93.83%±6.03%， and 99.33%±3.39%， respectively （P<0.01）. The SFJD-containing serum of 20% was selected as the optimal treatment for subsequent experiments. Compared with the normal control group， the virus infection group showed reduced cell survival rate （P<0.01）， and the reduction was increased by the SFJD-containing serum （P<0.01）. Compared with the virus infection group， SFJD-containing serum reduced the virus load （P<0.01） to decrease apoptosis. Compared with the normal control group， the virus infection group showed up-regulated mRNA levels of NP， TLR4， and MyD88 （P<0.01）， and the up-regulation was down-regulated by the SFJD-containing serum （P<0.05， P<0.01）. The fluorescence intensities of TLR4， MyD88， and p-NF-κB proteins in the cells increased after virus infection compared with those in the normal control （P<0.05， P<0.01）， and they were decreased after administration with the SFJD-containing serum （P<0.05）. ConclusionThe SFJD-containing serum can inhibit influenza virus in vitro by increasing the survival rate， reducing the apoptosis， and down-regulating the protein levels of TLR4， MyD88， and p-NF-κB in BEAS-2B cells.