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Equine influenza is a highly contagious viral disease, specially among 1-5 years old naive horses. Vaccination is considered the best way to control the disease spread and outbreaks. Although foals are the main animal used for evaluation of equine influenza vaccines, guinea pigs were chosen as an alternative model in the present work, as they have a negligible antibody titer against equine influenza virus and are cheaper and easier to handle than foals. Five equine influenza vaccine batches were evaluated in two animal models, foals and guinea pigs, by injection of two doses/animal with 4 weeks apart using 2 mL/animal/dose and evaluation of immune responses by hemagglutination inhibition test and enzyme-linked immunosorbent assay. On the 7th week post vaccination, equine influenza antibodies titers reached maximum values of 9-10.2 and 8.7-10 hemagglutination inhibition units for foals and guinea pigs, respectively; sample/negative ratios were 0.126-0.464 and 0.128-0.445 for both animals, respectively. The use of guinea pigs as an animal model for the evaluation of equine influenza vaccines could be recommended instead of foals.
La gripe equina es una enfermedad viral muy contagiosa, especialmente entre los caballos jóvenes de 1 a 5 años de edad. La vacunación se considera la mejor forma de controlar la propagación y los brotes de la enfermedad. Aunque los potros son el principal animal utilizado para la evaluación de vacunas contra la gripe equina, en el presente trabajo se eligieron cobayos como modelo alternativo, ya que tienen un título insignificante de anticuerpos contra el virus de la gripe equina y son más baratos y fáciles de manejar que los potros. Se evaluaron cinco lotes de vacunas contra la gripe equina en dos modelos animales, potros y cobayos, mediante la inyección de dos dosis/animal con 4 semanas de intervalo utilizando 2 mL/animal/dosis y la evaluación de las respuestas inmunitarias mediante la prueba de inhibición de la hemaglutinación y el ensayo inmunoenzimático. En la 7ª semana posvacunación, los títulos de anticuerpos contra la gripe equina alcanzaron valores máximos de 9-10,2 y 8,7-10 unidades de inhibición de la hemaglutinación para potros y cobayos, respectivamente; las relaciones muestras/negativos fueron de 0,126-0,464 y 0,128-0,445 para ambos animales, respectivamente. Podría recomendarse el uso de cobayos como modelo animal para la evaluación de vacunas contra la gripe equina, en lugar de potros.
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@#Objective To construct encoding RNA that can be cyclized in vitro by using the permuted intron exon(PIE)strategy in the maturation process of eukaryotic mRNA,and transfect it into HEK-293T cells for expression.Methods The sequences of 5'and 3'cyclic arms with groupⅠcatalytic intron,the internal ribosome entry sites(IRES)of Coxsackievirus B3(CVB3)and the target gene were selected to construct the template plasmid. Linearization plasmid template obtained by PCR was used to synthesize linear RNA through in vitro transcription(IVT),which then started in vitro cyclization(IVC)by the addition of cyclization reagents to obtain circular RNA(circRNA). RNA cyclization was confirmed by agarose gel electrophoresis and ribonuclease R(RNase R)digestion. HEK-293T cells were transfected with circRNAs respectively carrying enhanced green fluorescent protein(EGFP),firefly luciferase(Fluc),and influenza virus hemagglutinin(HA)IVR-180 genes,to verify their expression with in vitro.Results With RNA cyclization,the main band of agarose gel electrophoresis became smaller and small fragments appeared. After RNase R digestion,only some circRNA bands remained.HEK-293T cells transfected with EGFP-circRNA showed significant green fluorescence under the fluorescence microscope.The Fluc expression values of HEK-293T cells transfected with Fluc-circRNA were on average 20 times higher than non cyclized RNA,and the relative light unit(RLU)scaled up with the increase of Fluc-circRNA transfection dose. Western blot analysis showed that HA protein was successfully expressed in HEK-293T cells transfected with HA-circRNA.Conclusion In this study,linear RNA was successfully cyclized in vitro and different proteins were expressed,which lays a foundation of the research of new influenza vaccines and mRNA vaccines.
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@#Objective To analyze the trend of the hemagglutinin(HA) and ovalbumin contents in the lot release of influenza virus split vaccines in 2021,and evaluate the quality and quality control level of the vaccines.Methods The HA and ovalbumin content data of influenza virus split vaccines from two domestic enterprises in 2021 were collected and collated. The mean value and standard deviation were calculated according to the first 40 batches of data of the enterprise in the year,and the warning limit and action limit were established. The trend analysis of the above indexes was carried out to evaluate the stability and consistency of the product quality of the enterprise. Statistical data comparison and consistency analysis were made between the test results of the batch inspected by the lot release institution and the results of the enterprise.Results Through the retrospective data analysis of quadrivalent influenza virus split vaccines from two vaccine enterprises A and B,it was found that the content of H1N1 subtype HA and ovalbumin in the two enterprises and the content of Bv HA in the B enterprise had out of trend(OOT)situations,while the trend of other items was stable. The results of paired student's t test or Wilcoxon signed-rank test of the samples inspected by the lot release institution showed that except Bv subtype HA(t = 1. 094 and 0. 742 respectively)and ovalbumin(w =-64 and 36 respectively)contents showed no statistically significant difference(P > 0. 05),the HA contents of H1N1(t = 3. 862,w = 232),H3N2(t = 8. 225 and3. 473 respectively)and By(t = 5. 616 and 4. 934 respectively)of the two enterprises had significant differences(P <0. 05). The results of enterprises were generally higher than the lot release institution. Bland-Altman test analysis found that the consistency between the test data of enterprise A's HA content and the data of the lot release institution was better than that of enterprise B.Conclusion The stability and consistency of data trends of active ingredients and main impurity ingredients of quadrivalent influenza virus split vaccine batches in 2021 were generally good. The trend analysis can identify potential problems in vaccine production,and enterprises should carefully implement trend analysis and effectively monitor the product quality of vaccines.
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Influenza virus causes serious threat to human life and health. Due to the inherent high variability of influenza virus, clinically resistant mutant strains of currently approved anti-influenza virus drugs have emerged. Therefore, it is urgent to develop antiviral drugs with new targets or mechanisms of action. RNA-dependent RNA polymerase is directly responsible for viral RNA transcription and replication, and plays key roles in the viral life cycle, which is considered an important target of anti-influenza drug design. From the point of view of medicinal chemistry, this review summarizes current advances in diverse small-molecule inhibitors targeting influenza virus RNA-dependent RNA polymerase, hoping to provide valuable reference for development of novel antiviral drugs.
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ObjectiveTo characterize the efficacy components of Guizhi Jia Gegentang(GGT) in intervening influenza virus pneumonia by ultra-performance liquid chromatography-quadrupole-electrostatic field orbitrap high resolution mass spectrometry(UPLC-Q-Exactive Orbitrap MS). MethodBALB/c mice were randomly divided into normal group and GGT group(36 g·kg-1·d-1) with six mice in each group. GGT group was continuously administered GGT extract for 5 d, while the normal group was administered an equal amount of ultrapure water. Serum and lung tissue were collected after administration, and UPLC-Q-Exactive Orbitrap MS was used to characterize the prototypical and metabolic components of GGT in serum and lung tissue of mice. The components existed simultaneously in the serum and lung tissue of mice from the GGT group were defined as its functional components, and the targets of efficacy components were searched by SwissTargetPrediction database, and GeneCards database was used to query the target of influenza virus pneumonia, and then the intersection was taken to obtain potential targets of GGT for intervening in the disease. Protein-protein interaction(PPI) network analysis of potential targets was performed by STRING database, and Kyoto Encyclopedia of Genes and Genomes(KEGG) pathway enrichment analysis on potential targets was performed by Metascape. ResultA total of 29 prototypical components and 28 metabolic components of GGT were detected in the drug-containing serum of mice, of which 11 prototypical components and 4 metabolic components were detected in the lung tissue of mice. The main metabolic pathways included reduction, hydroxylation, methylation, glucuronidation and sulfation. The results of PPI network and KEGG analysis showed that these functional components may act through their effects on targets such as albumin(ALB), epidermal growth factor receptor(EGFR), steroid receptor coactivator(SRC), Toll-like receptor 4(TLR4), nuclear transcription factor(NF)-κB and adhesion junction. ConclusionThe 11 prototypical components and 4 metabolites present simultaneously in the drug-containing serum and lung tissue of mice may be the potential therapeutic components of GGT in interfering with influenza viral pneumonia, and act through interfering with inflammatory metabolic pathways. This study can provide a reference for the mechanism study of GGT in the treatment of influenza viral pneumonia.
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Hemagglutinin and neuraminidase, two important glycoproteins on the surface of influenza virus, play a considerable role in the entry and release stage of the viral life cycle, respectively. With in-depth investigation of influenza virus glycoproteins and the continuous innovation of drug discovery strategies, a new generation of glycoproteins inhibitors have been continuously discovered. From the point of view of medicinal chemistry, this review summarizes the current advances in seeking small-molecule inhibitors targeting influenza virus glycoproteins, hoping to provide valuable guidance for future development of novel antiviral drugs.
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@#ObjectiveTo investigate the effect of activation of RIG-Ⅰsignaling pathway by leucine rich repeat containing23(LRRC23)on replication of influenza virus.MethodsOverexpression and knock-down of LRRC23 were performed in A549 cells to investigate its effect on influenza virus replication. A549 cells were transfected with pcLRRC23 plasmid or siLRRC23(small interfering LRRC23)for 24 h and then infected with influenza virus A/jingfang/1/86(H1N1). The virus titer and HA protein expression level in the cell supernatant were determined by plaque assay and ELISA respectively.The expression of LRRC23,RIG-Ⅰ,MAVS,M1 and HA at gene and protein levels were determined by qRT-PCR and Western blot respectively. The interactions between LRRC23 and RIG-Ⅰwere analyzed by co-immunopre-cipitation(Co-IP)and immunofluorescence assay(IFA). IFN-β-luc and NF-κB-luc activities were determined by dual-luciferase reporter assay.ResultsThe LRRC23 overexpression significantly decreased the influenza virus titer and inhibited the expression of HA protein in the supernatant of A549 cells,while enhanced the NF-κB and IFNβ activations by activation of RIG-Ⅰ-MAVS signaling pathway,resulting in the inhibition of expressions of M1 gene and HA protein. Conversely,the knock-down of LRRC23 increased the protein expression level of HA in the supernatant of A549 cells,up-regulated the relative expression level of M1 gene and down-regulated those of RIG-ⅠmRNA and MAVS mRNA.ConclusionLRRC23 plays an essential role in innate antiviral response by inhibiting influenza virus replication through activation of RIG-Ⅰsignaling pathway.
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@#Objective To evaluate the biological activity of a eukaryotic expressed anti-H5N1-M1 cell entry single molecule antibody(TAT-ScFv-mFc). Methods The immune binding activity and affinity of TAT-ScFv-mFc to H5N1-M1 protein were detected by Western blot and localized surface plasmon resonance(LSPR)respectively;The inhibitory effect of TAT-ScFv-mFc on influenza virus H1N1 was detected by CCK-8 assay;The membrane penetration ability of TAT-ScFv-mFc to MDCK cells was verified by immunofluorescence assay. A total of 30 female BALB/c mice were injected with TAT-ScFv-mFc via tail vein,200 μL per mouse. Blood samples were collected at 5,60,120,240 and 360 min after injection. Serum samples were separated and detected for the titers by ELISA,and the half-life of TAT-ScFv-mFc was calculated according to the half-life curve drawn by Origin 2021 software. Results TAT-ScFv-mFc showed specific binding to H5N1-M1 protein with a binding rate constant of 6. 67 × 10~4[1/(M*s)]. The survival rate of MDCK cells infected by H1N1 increased gradually with the increase of TAT-ScFv-mFc concentration in a dose-dependent manner,which obviously inhibited the replication of H1N1. TAT-ScFv-mFc penetrated the cell membrane of MDCK cells in a short time,entered the cell and bound to virus M1protein,thus inhibiting virus replication and assembly. The half-life of TAT-ScFv-mFc in mice was 212 min. Conclusion TAT-ScFv-mFc has good immune binding activity and affinity with H5N1-M1,can effectively inhibit the replication of H1N1,has good penetration ability to MDCK cell membrane,and has a long half-life in mice,which lays a foundation of the drug treatment,vaccine research and preventive treatment of H5N1 infection.
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@#Influenza vaccination is the most effective route to prevent influenza virus transmission,and adding adjuvant to influenza vaccines not only enhances the body immune response but also saves the antigen dose.In addition to the classic aluminum adjuvant,MF59 adjuvant is the second one on the market and has been widely used as adjuvant in human vaccine,which not only has an ability to induce antibody equivalent to that of aluminum adjuvant,but can induce cellular immune response,recruit immune cells,and improve the effectiveness of vaccine.In this review,the mechanism of action and current application progress of MF59 adjuvant in influenza vaccine was described,and the further development of MF59adjuvant research was put forward.
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@#Objective To evaluate the passage stability of H5N1(NIBRG-14) influenza virus vaccine strain in MDCK cells(sMDCK)of serum-free suspension culture.Methods H5N1(NIBRG-14) influenza virus working-bank vaccine strains were passed 15 consecutive times in sMDCK cells.The 8-segment nucleotide sequences(HA,NA,M,NP,NS,PA, PB1 and PB2 genes) of the main-bank,working-bank,virus of P1,P2,P3,P5,P10 and P15 generations were detected for genetic stability by second and first generation sequencing.The stability of amino acid sequences of hemagglutinin(HA)and neuraminidase(NA),the main antigens of the working-bank,P5 and P15 generation viruses,were evaluated by using peptide coverage as indicators;Influenza vaccine was prepared with working-bank,P5 and P15 generation viruses,with which the female BALB/c mice were immunized i.m.with 10 in each group,15 μg HA per mouse,and boosted 28 d later at the same dosage and route.At 28,42 and 56 d after the primary immunization,the mice were detected for the titer of neutralizing antibody in serum to evaluate the stability of immunogenicity.Results No segment insertion or deletion was detected in each generation of influenza virus,and the nucleotide sequence was completely consistent with the main-bank;Single nucleotide polymorphism(SNP) mutations did not occur in the main-bank,working-bank,P1,P2,P3,P5 and P10 generations of viruses,while the possibility of SNP mutation showed in many gene loci of P15 generation virus,with heterozygous SNP accounting for 91.62%.The coverage rate of HA and NA protein peptides of P5 and P15 generation viruses ranged from96.7% to 100%.There was no significant difference in serum neutralizing antibody titer of mice in the working-bank,P5 and P15 groups(H=2.253,2.029 and 1.408,P=0.324,0.363 and 0.495,respectively) at 28,42 and 56 d after the first immunization.Conclusion H5N1(NIBRG-14) influenza virus vaccine strain has good genetic stability in sMDCK cells,which is expected to be used in the production of sMDCK cell matrix pandemic influenza vaccine.
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Influenza viruses are common pathogens causing respiratory infections in humans. Among the four seasonal influenza viruses, influenza A virus H3N2 has become the leading cause of seasonal influenza illness and death, posing a great threat to public health and the economy. Since it first emerged and caused a pandemic in 1968, H3N2 has been circulating repeatedly in human beings and continually evades host immune attack by antigenic drift, resulting in a decrease in vaccine efficacy. In this paper, the antigenic evolution of influenza A virus H3N2, the impact of antigenic evolution on the selection of vaccine strains and some models for predicting the evolution of influenza viruses were analyzed and reviewed, which paved the road for understanding the antigenic evolution of influenza virus and vaccine development.
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Objective:To establish an in vivo infection model of H5N1 pseudovirus and to detect the neutralizing activity of FHA3 antibody using this model. Methods:Based on the sequence information of hemagglutinin (HA) and neuraminidase (NA) of A/Anhui/1/2005/H5N1 strain, two recombinant plasmids of pcDNA3.1-HA5 and pcDNA3.1-NA1 were constructed. The two plasmids and plasmid pNL4-3.Luc.R-E- were co-transfected into 293T cells to prepare H5N1 pseudovirus supernatant. The morphology of pseudovirus particles in the supernatant was observed by electron microscopy. MDCK cells were infected with the pseudovirus supernatant and the virus titer was detected. BALB/c mice were injected with the pseudovirus supernatant by intraperitoneal injection and subjected to bioluminescence imaging at 2, 5, 8, and 12 d after infection to detect the pseudovirus infection in vivo. The functional activity of FHA3 antibody in vivo was evaluated using the established mouse infection model. Results:The recombinant plasmids pcDNA3.1-HA5 and pcDNA3.1-NA1 were correctly constructed and could be used to prepare pseudovirus supernatants of high titer by co-transfecting 293T cells with the plasmid pNL4-3.Luc.R-E-. The virus particles were round under electron microscope. H5N1 pseudovirus-infected mice exhibits strong fluorescence signals, which were attenuated by FHA3 treatment before challenge.Conclusions:The in vivo infection model of H5N1 pseudovirus was successfully constructed and FHA3 antibody was proved to be protective against the pseudovirus infection.
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Objective:To evaluate the immunogenicity of a quadrivalent subunit vaccine combined with RFH01 adjuvant in a mouse model.Methods:Identification tests were performed on four monovalent influenza virus subunit vaccine stock solutions according to the methods described in Part 3 of the Chinese Pharmacopoeia 2020 Edition. In the study of the quadrivalent subunit vaccine combined with RFH01 adjuvant, 460 female BALB/c mice (6-8 weeks old) were randomly divided into 46 groups including experimental groups, vaccine control group, negative control group and blank group with 10 mice in each group. In the study of the quadrivalent subunit vaccine in old and young mice, 80 female 10-month-old and 80 female 10-week-old BALB/c mice were randomly divided into 16 groups ( n=10) including monovalent influenza virus vaccine group, quadrivalent subunit vaccine group, quadrivalent subunit vaccine+ RFH01 adjuvant group, chicken embryo quadrivalent split vaccine control group and PBS group. All mice were immunized by intramuscular injection. At 21 d after the primary immunization, a booster immunization was conducted using the same strategy. Blood samples were collected at 21 d and 42 d after the primary immunization for serum separation. Haemagglutination inhibition (HI) test was performed to detect the antibody levels in mouse serum samples. Results:After the booster immunization, the positive conversion rates in all vaccine+ RFH01 adjuvant groups reached 100%, and the geometric mean titers (GMTs) of serum antibodies were significantly higher than those of the vaccine groups without RFH01 adjuvant. There were significant differences in serum antibody titers between the monovalent/quadrivalent subunit vaccine groups with and without RFH01 adjuvant. After the booster immunization, the titers of serum antibodies against H1N1, H3N2, B/Victoria and B/Yamagata in the 10-week-old mice were significantly higher than those in the 10-month-old mice.Conclusions:The monovalent and quadrivalent influenza virus vaccines in combination with RFH01 adjuvant could elicit higher antibody titers in young (6-10 weeks old) and old (10 months old) mice, showing good immunogenicity.
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Objective:To purify H5N1 influenza virus concentrate prepared by MDCK cells with a new mixed-mode chromatography medium Capto Core700 and the traditional medium Sepharose 4FF, and to compare the separation and purification efficacy of the two media.Methods:Capto Core700 and Sepharose 4FF were used to purify inactivated H5N1 influenza virus concentrate. The morphology of virus particles in different samples was then observed under a transmission electron microscope. Single radial immunodiffusion (SRID), Folin-Phenol (Lowry) method, double-antibody sandwich ELISA and qPCR were used to detect hemagglutinin, total protein, host cell protein (HCP) and host cell DNA (HCD) before and after purification. The recovery rate of virus antigen and the removal rate of impurities were calculated. The immunogenicity of the viruses purified with different media was analyzed using animal experiments. Difference in the purification efficacy of the two chromatography media was analyzed by t-test. Results:H5N1 influenza viruses purified by Capto Core700 or Sepharose 4FF showed the typical influenza virus morphology under transmission electron microscope. There was no significant difference in the recovery rate of hemagglutinin between the two chromatography media ( P>0.05), but compared with Sepharose 4FF, Capto Core700 had a higher removal rate of impurities (total protein, HCP, HCD) and the difference was statistically significant ( P<0.05). Animal experiments showed that the viruses purified by the two chromatography media had good immunogenicity. Conclusions:Compared with Sepharose 4FF chromatography medium, Capto Core700 could more effectively remove process-related impurities such as HCP, HCD and total protein without affecting the recovery rate of viral antigen. This study provided reference for the development of purification technology in the production of H5N1 influenza virus vaccine in MDCK cells.
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Objective:To prepare a recombinant hemagglutinin trimer (HA-Tri) vaccine against influenza viruses and to study its immunogenicity in a mouse model.Methods:A stable CHO cell line that could express HA-Tri was constructed. Western blot, single radial immunodiffusion, protein particle size detection and N-glycosylation site analysis were performed for qualitative and quantitative analysis of the recombinant protein. According to the different treatment conditions such as dosage and adjuvant, BALB/c mice were divided into 11 groups and subjected to consistent immunization procedures. Serum neutralizing antibody titers were measured on 56 d after the first immunization to evaluate the immunogenicity of HA-Tri.Results:The constructed CHO cells could secret and express HA-Tri proteins. The HA-Tri proteins were biologically active and capable of forming precipitation rings in the single radial immunodiffusion. The particle size of HA-Tri was approximately 18.79 nm and 10 N-glycosylation sites were detected, including high mannose, complex glycoforms and heterozygous glycoforms. After prime-boost immunization, there was no statistically significant difference in the titers of neutralizing antibodies induced in mice by 3.75 μg of HA-Tri in combination with RFH01 adjuvant and 15 μg of monovalent vaccine stock solution ( P=0.431 2, U=36). Serum antibody titers in the HA-Tri+ RFH01 groups were higher than those in the corresponding HA-Tri groups without RFH01 adjuvant, and the highest titer was induced in the 15 μg HA-Tri+ RFH01 group, which was 1 280. Conclusions:The recombinant HA-Tri protein was successfully prepared. HA-Tri in combination with RFH01 adjuvant could induce humoral immune responses against influenza viruses in BALB/c mice, which would provide reference for the development of influenza virus recombinant subunit vaccines.
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Acute necrotizing encephalopathy (ANE) is a subtype of acute encephalopathy presented with disturbance of consciousness and symmetric bilateral thalamic necrosis in neuroradiology.Patients with ANE had a high mortality or severe neurological sequela.ANE usually secondary to virus infectious disease, in which influenza is a common etiology.During the 3 years of the worldwide pandemic of severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)infection, ANE has become a severe complication and cause of death in children, which has aroused much concern.Here is a review of the research progress of epidemiology, pathogenesis, diagnosis, treatments and prognosis of ANE, in order to improve the knowledge of clinicians on this disease.
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We developed a method for accurate quantification of the intact virus particles in inactivated avian influenza virus feedstocks. To address the problem of impurities interference in the detection of inactivated avian influenza virus feedstocks by direct high performance size exclusion chromatography (HPSEC), we firstly investigated polyethylene glycol (PEG) precipitation and ion exchange chromatography (IEC) for H5N8 antigen purification. Under the optimized conditions, the removal rate of impurity was 86.87% in IEC using DEAE FF, and the viral hemagglutination recovery was 100%. HPSEC was used to analyze the pretreated samples. The peak of 8.5-10.0 min, which was the characteristic adsorption of intact virus, was analyzed by SDS-PAGE and dynamic light scattering. It was almost free of impurities and the particle size was uniform with an average particle size of 127.7 nm. After adding antibody to the IEC pretreated samples for HPSEC detection, the characteristic peak disappeared, indicating that IEC pretreatment effectively removed the impurities. By coupling HPSEC with multi-angle laser scattering technique (MALLS), the amount of intact virus particles in the sample could be accurately quantified with a good linear relationship between the number of virus particles and the chromatographic peak area (R2=0.997). The established IEC pretreatment-HPSEC-MALLS assay was applied to accurate detection of the number of intact virus particles in viral feedstocks of different subtypes (H7N9), different batches and different concentrations, all with good applicability and reproducibility, Relative standard deviation < 5%, n=3.
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Animais , Reprodutibilidade dos Testes , Subtipo H7N9 do Vírus da Influenza A , Influenza Aviária , Cromatografia em Gel , Vírion , LasersRESUMO
ObjectiveTo determine the prevalence of avian influenza viruses in the external environment of poultry in Anqing City, Anhui Province, and provide scientific evidence for prevention and control of animal-derived influenza in humans. MethodsA total of 28 farmers’ markets/farms in 10 counties (cities, districts) of Anqing City, Anhui Province, were selected as surveillance sites by simple random sampling strategy. Poultry faeces and other related samples were collected for 6 consecutive weeks. Real-time fluorescence quantitative PCR was used to examine the nucleic acids of influenza A virus. Subtypes H5, H7, and H9 of avian influenza virus were further tested in the positive samples. ResultsA total of 426 specimens were collected, among which 113 tested positive with a positive rate of 26.53%. Among the positive specimens, 104 were determined to be subtype H9, accounting for 92.04%. It did not significantly differ in the positive rate between the main and non-main urban areas (χ2<0.01, P>0.05) or among the specimens collected in different weeks (χ2=7.57, P>0.05). However, it significantly differed in the positive rate among the specimens collected in the third week and other weeks (χ2=6.89, P<0.05). Furthermore, among the different sampling sites, farms had the highest positive rate of 46.67%. Among the specimens from different sources, the surface-coated specimens from poultry cages had the highest positive rate of 34.78%. ConclusionAvian influenza viruses are prevalent in the external environment of poultry in Anqing City. It warrants strengthening the surveillance and risk assessment to reduce the virus transmission in the external environment and risk of human infection with animal-derived influenza.
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Carnosic acid (CA) is the main phenolic diterpenoid active ingredient in plants such as rosemary and sage, and has antiviral, antioxidant, anti-inflammatory effects and so on, however, its antiviral activity against influenza virus infections was not reported. In this study, antiviral activities against influenza A virus infections of three main bioactive ingredients from rosemary, including rosmarinic acid, CA and ursolic acid, were evaluated using virus titer titration assay, and CA showed remarkable inhibition on influenza H5N1 replication in A549 cells. The antiviral activity of CA was further confirmed and its mechanism of action was investigated using the indirect immunofluorescence assay (IFA), Western blot and real-time fluorescence quantification polymerase chain reaction (qRT-PCR). The results showed that the 50% effective concentration (EC50) of CA against influenza H5N1 in A549 cells and MDCK cells were 4.30 and 3.64 μmol·L-1, respectively. Meanwhile, CA also showed inhibition on influenza virus 2009panH1N1 (EC50: 10.1 μmol·L-1) and H3N2 (EC50: 12.8 μmol·L-1) replications in A549 cells. Mechanistic studies showed that antiviral activity of CA is related to its induction of heme oxygenase-1 (HO-1) in A549 cells and suppression on production of reactive oxygen in H5N1-infected cells.
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@#Abstract:In recent years,the outbreak and prevalence of respiratory infectious diseases in the world seriously endanger human health,among which the respiratory infectious diseases caused by viral infection account for a large proportion. The use of vaccines and common antiviral drugs is an effective way to fight viral infection,but there are also problems such as lag and drug resistance. Monoclonal antibodies against respiratory viral infections provide a new strategy for clinical treatment. This paper reviews the development of monoclonal antibody against respiratory virus and its application in respiratory viral infectious diseases. Keywords:Respiratory viral infectious diseases;Respiratory syncytial virus(RSV);Influenza virus(IFV);Coronavirus (CoV);Monoclonal antibody