Safety and immunogenicity of a replication-deficient H5N1 influenza virus vaccine lacking NS1

BackgroundTraditional inactivated influenza vaccines are the type of vaccines that were most frequently developed for immunization against the highly pathogenic avian H5N1 influenza virus. However, clinical trials with inactivated influenza vaccines for H5N1 indicated that high doses and at least two immunizations are required for an effective immune response (Nicholson et al., 2001; Treanor, Campbell et al., 2006; Treanor, Schiff et al., 2006; Ehrlich et al., 2008). We investigated the safety and immunogenicity of a live attenuated H5N1 vaccine (delNS1-H5N1) lacking the interferon antagonist nonstructural protein 1 (NS1).MethodsWe conducted a double-blind, placebo-controlled, phase 1 study in healthy adult participants who were randomly assigned at a 2:1 ratio to receive two immunizations of delNS1-H5N1 vaccine at 6.8 log10 50% tissue culture infectious doses (TCID₅₀)/subject or 7.5 log10 TCID₅₀/subject, or placebo.ResultsIntranasal vaccination with the live attenuated delNS1-H5N1 vaccine was safe and well tolerated. The most common adverse events identified were symptoms associated with mild influenza infections, such as increased body temperature (>37.0 °C), pharyngeal erythema, rhinitis and throat irritation, and were reported within 7 days after the first immunization. delNS1-H5N1 was able to induce significant vaccine-specific serum antibody titers even at the lower dose level of 6.8 log10 TCID₅₀/subject. Seroconversion occurred in 75% of study participants after only one immunization with 7.5 log10 TCID₅₀/subject. Vaccine-specific local IgA responses were observed in 41.7% of individuals that showed serum antibody responses after 2nd immunization.ConclusionsWe show that vaccination with a live attenuated H5N1 influenza vaccine lacking NS1 is safe and induces significant levels of vaccine-specific antibodies even after one immunization. The safety and immunogenicity data indicate that delNS1-H5N1 has the potential to fulfil the unmet need for an effective influenza vaccine in pandemic situations. (ClinicalTrials.gov identifier NCT03745274).     

Efficacy of the NS1-truncated live attenuated influenza virus vaccine for swine against infection with viruses of major North American and European H3N2 lineages

Control of swine influenza A virus (swIAV) in North America and Europe is complicated because multiple antigenically distinct swIAV strains co-circulate in the field, and no vaccine is available that can provide broad cross-protection against all these swIAVs. In 2017, the first live attenuated influenza vaccine (LAIV) for swine was licensed in the US. The non-structural protein 1 (NS1)-truncated cluster I H3N2 strain A/swine/Texas/4199-2/98 NS1del126 (TX98 LAIV) in this vaccine provides partial cross-protection against heterologous North American cluster II and IV H3N2 swIAV strains. Its efficacy against European or more recent North American H3N2 lineages remains to be investigated. In this study, we evaluated the level of cross-protection against heterologous IAVs representative of the major H3N2 swIAV lineages in Europe and North America. TX98 LAIV prevented both nasal shedding and replication in the lungs of a North American cluster IV H3N2 swIAV for 2/4 pigs, prevented considerable nasal shedding of a North American novel human-like H3N2 swIAV for 2/4 pigs, and reduced replication of a European H3N2 swIAV in the lower respiratory tract to minimal titers for 1/3 pigs. Although TX98 LAIV elicited neutralizing antibodies against the homologous virus in serum and to a lesser extent in nose and lungs, no significant cross-reactive antibody titers against the heterologous swIAVs were detected. Partial cross-protection therefore likely relies on cellular and mucosal immune responses against conserved parts of the swIAV proteins. Since TX98 LAIV can offer partial protection against a broad range of H3N2 swIAVs, it might be a suitable priming vaccine for use in a heterologous prime-boost vaccination strategy.     

An M2 cytoplasmic tail mutant as a live attenuated influenza vaccine against pandemic (H1N1) 2009 influenza virus

The 2009 influenza pandemic brought home the importance of vaccines in infection control. Previously, we demonstrated an M2 cytoplasmic tail mutant H5N1 influenza virus could serve as a live-attenuated vaccine. Here, we adapted that strategy, generating a mutant pandemic (H1N1) 2009 virus that grew well in cell culture, but replicated less well in mice than did wild-type virus. The mutant virus elicited sterile immunity in mice, completely protecting them from challenge with a pandemic (H1N1) 2009 virus. Our results indicate that M2 cytoplasmic tail mutants are suitable for live-attenuated vaccines against pandemic viruses.     

Immunogenicity and protective efficacy of a live attenuated vaccine against the 2009 pandemic A H1N1 in mice and ferrets

A novel 2009 influenza A (H1N1) virus was transmitted from humans to humans worldwide. The live attenuated monovalent A H1N1 vaccine (LAMV) for intranasal administration has shown promising immunogenicity and safety in clinical trials and for human use, but the experimental data based on LAMV is incomplete. In this study, using reverse genetic technology, we produced a cold-adapted (ca), live attenuated BJ/AA ca that contained hemagglutinin (HA) and neuraminidase (NA) genes from a 2009 pandemic A H1N1 isolate, A/Beijing/501/2009 virus (BJ501), and the remaining six internal gene segments from the cold-adapted influenza H2N2 A/Ann Arbor/6/60 virus (AA virus). BJ/AA ca exhibited phenotypes of temperature sensitivity (ts), ca, and attenuation (att). The candidate BJ/AA ca was immunogenic in mice and induced strong mucosal secretory IgA (sIgA) in the respiratory tract. Two dosages of intranasal immunization induced robust HI antibodies and offered efficient protection against challenge by the wild-type (wt) 2009 pandemic A H1N1 (A/Beijing/501/2009 or A/California/07/2009) in mice and ferrets. These results support the evaluation of this vaccine made from a wt strain isolated in China for clinical trials.     

2005～2006年流感季节河北省甲3亚型流感病毒血凝素重链区基因变异分析

目的：研究2005～2006年流感流行期河北省分离的甲3（H3N2）亚型流感病毒株血凝素重链（HA1）的基因特性,了解H3N2亚型流感病毒株HA1基因的变异及其与流感流行的关系。方法：用狗肾（MDCK）细胞分离培养流感病毒,提取病毒核糖核酸（RNA）,采用RT-PCR法扩增病毒HA1基因,纯化产物进行核苷酸序列测定,用DNAStar软件作分析处理。结果：2005～2006年流感流行期在河北省分离到的H3N2亚型流感病毒株HA1与同时期的H3N2亚型流感疫苗株A/Calfornia/7/04相比其抗原性变异不大,核苷酸同源性为96.2%～98.2%,氨基酸同源性为98.7%～99.0%,3个位点发生了氨基酸替换,其中2个在抗原决定簇B区（188N〉D、193S〉F）,1个在受体结合位点（225D〉N）。结论：H3N2亚型流感病毒HA1尚未发生明显变异,与疫苗株同源性较高。人群对其已建立起较好的免疫屏障,这是河北省该流行期H3N2亚型活动水平低的主要原因。     

Replication of live attenuated cold-adapted H2N2 influenza virus vaccine candidates in non human primates

The development of an H2N2 vaccine is a priority in pandemic preparedness planning. We previously showed that a single dose of a cold-adapted (ca) H2N2 live attenuated influenza vaccine (LAIV) based on the influenza A/Ann Arbor/6/60 (AA ca) virus was immunogenic and efficacious in mice and ferrets. However, in a Phase I clinical trial, viral replication was restricted and immunogenicity was poor. In this study, we compared the replication of four H2N2 LAIV candidate viruses, AA ca, A/Tecumseh/3/67 (TEC67 ca), and two variants of A/Japan/305/57 (JAP57 ca) in three non-human primate (NHP) species: African green monkeys (AGM), cynomolgus macaques (CM) and rhesus macaques (RM). One JAP57 ca virus had glutamine and glycine at HA amino acid positions 226 and 228 (Q–G) that binds to α2-3 linked sialic acids, and one had leucine and serine that binds to α2-3 and α2-6 linked residues (L–S). The replication of all ca viruses was restricted, with low titers detected in the upper respiratory tract of all NHP species, however replication was detected in significantly more CMs than AGMs. The JAP57 ca Q–G and TEC67 ca viruses replicated in a significantly higher percentage of NHPs than the AA ca virus, with the TEC67 ca virus recovered from the greatest percentage of animals. Altering the receptor specificity of the JAP57 ca virus from α2-3 to both α2-3 and α2-6 linked sialic acid residues did not significantly increase the number of animals infected or the titer to which the virus replicated. Taken together, our data show that in NHPs the AA ca virus more closely reflects the human experience than mice or ferret studies. We suggest that CMs and RMs may be the preferred species for evaluating H2N2 LAIV viruses, and the TEC67 ca virus may be the most promising H2N2 LAIV candidate for further evaluation.     

Cross-clade protective immune responses of NS1-truncated live attenuated H5N1 avian influenza vaccines

BackgroundH5N1 highly pathogenic avian influenza (HPAI) has raised global concern for causing huge economic losses in poultry industry, and an effective vaccine against HPAI is highly desirable. Live attenuated influenza vaccine with trunctated NS1 protein as a potential strategy will be extremely useful for improving immune efficacy.MethodsA series of H5N1 avian influenza virus reassortants harboring amino-terminal 48, 70, 73, and 99 aa in NS1 proteins, along with a modified low pathogenic HA protein was generated, and named as S-HALo/NS48, S-HALo/NS70, S-HALo/NS73, and S-HALo/NS99, respectively. In addition, their biological and immunological characteristics were further analyzed.ResultsThe viruses S-HALo/NS70, S-HALo/NS73, and S-HALo/NS99, but not S-HALo/NS48, had a comparable growth property with the full-length NS1 virus, S-HALo/NSFu. Mice and chickens studies demonstrated that the viruses with truncated NS1 protein were further attenuated when compared to the virus S-HALo/NSFu. Vaccination with the virus S-HALo/NS73 in chickens induced significant cross-protection against homologous clade 2.3.4 H5 virus and heterologous clade 7.2, 2.3.2.1, and 2.3.4.4 H5 viruses.ConclusionA 70-aa amino-terminal fragment of NS1 protein may be long enough for viral replication. The recombinant virus S-HALo/NS73 is a broad-spectrum live attenuated H5N1 avian influenza vaccine candidate in chickens.     

甲型流感病毒NS1蛋白应用研究进展

流感病毒是引起急性流感的病原体,具有传染性强、变异快和宿主范围广的特点.随着对流感病毒研究的深入,人们对流感病毒的认知度不断提高,对其的开发利用也随之启动,其中对最短的NS基因及其编码蛋白(NS1和NS2)的研究开发更令人注目.NS1蛋白虽在病毒出芽时未被包装,但在感染细胞中发挥了多种生物功能,如对宿主细胞IFN的调节...     

Evaluation of replication, immunogenicity and protective efficacy of a live attenuated cold-adapted pandemic H1N1 influenza virus vaccine in non-human primates

We studied the replication of influenza A/California/07/09 (H1N1) wild type (CA09wt) virus in two non-human primate species and used one of these models to evaluate the immunogenicity and protective efficacy of a live attenuated cold-adapted vaccine, which contains the hemagglutinin and neuraminidase from the H1N1 wild type (wt) virus and six internal protein gene segments of the A/Ann Arbor/6/60 cold-adapted (ca) master donor virus. We infected African green monkeys (AGMs) and rhesus macaques with 2×10(6) TCID(50) of CA09wt and CA09ca influenza viruses. The virus CA09wt replicated in the upper respiratory tract of all animals but the titers in upper respiratory tract tissues of rhesus macaques were significant higher than in AGMs (mean peak titers 10(4.5) TCID(50)/g and 10(2.0) TCID(50)/g on days 4 and 2 post-infection, respectively; p<0.01). Virus replication was observed in the lungs of all rhesus macaques (10(2.0)-10(5.4) TCID(50)/g) whereas only 2 out of 4 AGMs had virus recovered from the lungs (10(2.5)-10(3.5) TCID(50)/g). The CA09ca vaccine virus was attenuated and highly restricted in replication in both AGMs and rhesus macaques. We evaluated the immunogenicity and protective efficacy of the CA09ca vaccine in rhesus macaques because CA09wt virus replicated more efficiently in this species. One or two doses of vaccine were administered intranasally and intratracheally to rhesus macaques. For the two-dose group, the vaccine was administered 4-weeks apart. Immunogenicity was assessed by measuring hemagglutination-inhibiting (HAI) antibodies in the serum and specific IgA antibodies to CA09wt virus in the nasal wash. One or two doses of the vaccine elicited a significant rise in HAI titers (range 40-320). Two doses of CA09ca elicited higher pH1N1-specific IgA titers than in the mock-immunized group (p<0.01). Vaccine efficacy was assessed by comparing titers of CA09wt challenge virus in the respiratory tract of mock-immunized and CA09ca vaccinated monkeys. Significantly lower virus titers were observed in the lungs of vaccinated animals than mock-immunized animals (p≤0.01). Our results demonstrate that AGMs and rhesus macaques support the replication of pandemic H1N1 influenza virus to different degrees and a cold-adapted pH1N1 vaccine elicits protective immunity against pH1N1 virus infection in rhesus macaques.     

Safety and immunogenicity of a 2009 influenza A (H1N1) vaccine in hemodialysis patients

A worldwide vaccination campaign against the 2009 pandemic influenza A (H1N1) virus was launched among high-risk subjects, including hemodialysis patients. The long-term immunogenicity of an influenza vaccine has not been investigated in hemodialysis patients. This study aimed to (1) assess the long-term immunogenicity of a monovalent non-adjuvanted influenza A (H1N1) vaccine in hemodialysis patients and (2) determine the safety of this vaccine. We conducted a prospective cohort study of 44 hemodialysis patients and 149 healthy controls in 2010. All of the participants received a single dose of the monovalent non-adjuvanted 2009 influenza A (H1N1) vaccine. The level of antibodies was measured at baseline and at 4 and 24 weeks post-vaccination using a hemagglutination inhibition assay. The outcomes were the percentages of participants who achieved seroconversion and seroprotection (titer ≥1:40) 4 and 24 weeks after vaccination. At 4 weeks post-vaccination, seroconversion was observed in 17 (38.6%) of the hemodialysis patients and 94 (63.1%) of the controls (P = 0.056), and protective titers were obtained in 22 (50%) of the hemodialysis patients and 100 (67.1%) of the controls (P = 0.426). At 24 weeks post-vaccination, immunogenicity decreased in both the hemodialysis patients and the controls, but there were no significant differences between the hemodialysis patients and the controls in the seroconversion rate (27.3% versus 36.9%, P = 0.526) or the seroprotection rate (38.6% versus 48.3%, P = 0.996). No differences in adverse events were observed between the hemodialysis patients and the controls. In summary, the 2009 influenza A (H1N1) vaccine elicits a similar immune response in both hemodialysis patients and healthy controls, but immunity declines 24 weeks after vaccination in both groups. Hemodialysis patients should at least be vaccinated annually against the influenza virus.     

Efficacy of live attenuated vaccines against 2009 pandemic H1N1 influenza in ferrets

The advent of the H1N1 influenza pandemic (pH1N1) in 2009 triggered the rapid production of pandemic influenza vaccines, since seasonal influenza vaccines were expected and demonstrated not to provide significant cross-protection against the newly emerged pandemic virus. To increase vaccine production capacity and further evaluate the effectiveness of different candidate pandemic influenza vaccines, the World Health Organization stimulated the evaluation of different vaccination concepts including the use of live attenuated influenza vaccines (LAIVs). Therefore, we have immunized ferrets intranasally with a single dose of pH1N1-LAIV from different manufacturers. They all induced adequate serum HI antibody titers in the ferrets and protected them against intratracheal wild-type pH1N1 virus challenge: pH1N1 virus replication in the upper respiratory tract and lungs was reduced and no disease signs or severe broncho-interstitial pneumonia were observed in any of the vaccinated ferrets. These data together with the relatively efficient production process emphasize the potential of the LAIV concept for pandemic preparedness.     

Cold-adapted X-31 live attenuated 2009 pandemic H1N1 influenza vaccine elicits protective immune responses in mice and ferrets

The 2009 pandemic influenza H1N1 (pdmH1N1) is characterized by rapid transmission among humans and disproportionate infection to children and young adults. Although the pdmH1N1 demonstrated less lethality than initially expected and has now moved into its post-pandemic period, it remains highly possible that through antigenic shift or antigenic drift the pdmH1N1 might re-emerge in the future as a more virulent strain than before, underscoring the need for vaccination prior to an outbreak. Using X-31 ca as a backbone strain, we generated a live attenuated pdmH1N1 vaccine and evaluated its potential as a safe and effective vaccine using mouse and ferret models. Despite an acceptable level of attenuation phenotypes, single dose of immunization with the vaccine efficiently stimulated both systemic and mucosal antibody responses and provided complete protection against lethal challenge with wild type pdmH1N1 virus, even at the lowest immunization dose of 10³ PFU. The promising results of safety, immunogenicity, and protective efficacy of the vaccine not only contribute to expanding the repertoire of live vaccines as a judicious choice for pandemic H1N1 preparedness, but also suggest the great potential of X-31 ca donor strain to serve as reliable platform for generating diverse live vaccine constructs against seasonal influenza viruses and other pandemic strains.     

2009年甲型H1N1流感疫苗接种影响因素探讨

目的 评价甲型H1N1流感疫苗接种影响因素.方法 采用分层多级抽样的方法,按照距离城区近、中、远的地理位置及人口构成抽取北京市延庆县9个单位参与调查.结果 甲型H1N1流感疫苗接种的影响因素受多方面影响,不同文化程度、接种等待时间、知晓办公地点和时间这三个因素对接种疫苗有影响,经统计学处理,三种因素均对疫苗接种分布的差异有统计学意义(P＜0.05);电视、报纸、网络三种途径共同进行宣传,可以作为今后宣传甲型H1N1流感相关知识工作的重点;政府对甲型H1N1流感疫苗接种的宣传力度合适,占87.04%.结论 延庆县居民对政府优惠接种政策的知晓率较高,但简单地告知并不能提高接种率.     

甲型流感病毒NS1蛋白影响细胞凋亡的研究

近年来的研究发现,甲型流感病毒NS1蛋白在流感病毒影响宿主细胞凋亡中发挥了重要的作用.开展对NS1蛋白的研究,可以进一步了解流感病毒的致病机制,这对流感病毒其他方面的研究具有重要意义,该文就NS1蛋白基本结构及其影响宿主细胞凋亡的研究进展作了介绍.     

Protection of trivalent inactivated influenza vaccine against hospitalizations among pandemic influenza A (H1N1) cases in Argentina

The aim of this study was to estimate the effectiveness of 2009 seasonal trivalent inactivated vaccine in reducing hospitalizations due to the novel influenza A H1N1 virus among positive cases. Data collected from Argentina's national epidemiological surveillance system were analyzed. All patients had a clinical diagnosis and underwent positive serological tests for pandemic influenza A H1N1. Logistic regression was used to estimate vaccine effectiveness to prevent severe cases of the disease, measured as hospitalizations. The adjusted effectiveness of the vaccine was 50% (95% CI: 40–59%). Vaccination was significantly associated with hospitalizations in all age groups, and within groups that had and had not received antiviral treatment. These results suggest that seasonal influenza vaccine might have conferred partial protection against severe cases due to the novel pandemic influenza.     

Key points in evaluating immunogenicity of pandemic influenza vaccines: A lesson from immunogenicity studies of influenza A(H1N1)pdm09 vaccine

IntroductionImmunogenicity studies on pandemic influenza vaccine are necessary to inform rapid development and implementation of a vaccine during a pandemic. Thus, strategies for immunogenicity assessment are required.ObjectiveTo identify essential factors to consider when evaluating the immunogenicity of pandemic influenza vaccines using the experience in Japan with the influenza A(H1N1)pdm09 vaccine.MethodsWe conducted a search of observational studies using PubMed and IchushiWeb. Search terms included “influenza vaccine AND (immunogenicity OR immune response) AND Japan AND (2009 OR pdm09) NOT review,” and was limited to studies conducted in humans.ResultsA total of 33 articles were identified, of which 16 articles met the inclusion criteria. Immunogenicity of the commercially available influenza A(H1N1)pdm09 vaccine satisfied the international criteria for influenza vaccine immunogenicity in all study populations. The most remarkable immune response was observed in junior high school students, while the lowest immune response was observed in hematological malignancy patients. Similar to immunogenicity studies on seasonal influenza vaccines, factors such as patient background (e.g., age, underlying condition, pre-vaccination titer, body mass index, etc.) and study procedure (e.g., concurrent measurement of pre- and post-vaccination antibody titer, effects of infection during the study period) may have affected the assessment of immunogenicity to the influenza A(H1N1)pdm09 vaccine. In addition, prior vaccination with the seasonal influenza vaccine may inhibit antibody induction by the influenza A(H1N1)pdm09 vaccine.ConclusionsThis review discusses factors and strategies that must be considered and addressed during immunogenicity assessments of pandemic influenza vaccines, which may provide useful information for future influenza pandemics.     

Unadjuvanted pandemic H1N1 influenza vaccine in HIV-1-infected adults

We evaluated the immune response to a 2009 influenza A (H1N1) unadjuvanted vaccine in HIV-infected patients and assessed the boosting effect of a second dose. HIV-infected adults were enrolled and scheduled to receive the H1N1 unadjuvanted vaccine containing 15 μg of A/California/7/2009 haemagglutinin. Anti-H1N1 antibody titers were measured at enrollment and 4-8 weeks after each vaccination by using haemagglutination inhibition (HI) and virus neutralization (NT) assays. One hundred and four patients were analyzed. Seroconversion, as measured by using HI and NT assays, was observed in 52 (50.0%) patients and 49 (47.1%) patients, respectively, after the first dose. Seroconversion rate evaluated by using NT, but not HI, antibody titers was associated with HIV RNA levels of <400 copies/ml (odds ratio, 3.21; 95% CI, 1.15-8.96). Other parameters, including CD4 cell count, were not associated with seroconversion. In a cohort that received two vaccine doses at a 4-8-week interval (n = 54), the seroconversion rate and geometric mean titer for HI antibodies were 44.4% (95% CI, 30.8-58.1%) and 30.5 (95% CI, 19.9-46.9) after the first dose, respectively, and 48.1% (95% CI, 34.4-61.9%) and 39.0 (95% CI, 26.1-58.2) after the second dose, respectively. Among HIV-infected patients, the seroconversion rate was around 50% after the first dose of unadjuvanted vaccine. A second dose of vaccine had a limited boosting effect on immunity in this patient cohort.     

Innate immunemodulator containing adjuvant formulated HA based vaccine protects mice from lethal infection of highly pathogenic avian influenza H5N1 virus

The highly pathogenic avian influenza (HPAI) H5N1 viruses and their spillover into the human population pose substantial economic and public health threats. Although antiviral drugs have some effect in treating influenza infection, vaccination is still the most effective intervention to prevent possible pandemic outbreaks. We have developed a novel H5 influenza vaccine to improve the world’s pandemic preparedness. We produced a hemagglutinin (HA) of HPAI H5N1 virus A/Alberta/01/2014 (AB14) using both mammalian (m) and bacterial (b) expression systems. The purified recombinant proteins were formulated with a proprietary adjuvant (TriAdj) and their efficacy as vaccine candidates was evaluated in mice. Intramuscular delivery of two doses of TriAdj formulated mammalian expressed HA (m-HA/TriAdj) was shown to provide full protection against a lethal challenge of AB14 in mice. In contrast, bacterially expressed HA with TriAdj (b-HA/TriAdj), b-HA without adjuvant, and m-HA without adjuvant resulted in no protection in immunized mice. Furthermore, m-HA/TriAdj elicited significantly higher levels of balanced Th1 and Th2 responses and neutralizing antibody titres. All the mice in the m-HA/TriAdj group survived a lethal AB14 H5N1 challenge and showed no signs of disease or infection as demonstrated by no loss of body weight or detectable virus in the lungs. Our results suggest that m-HA formulated with TriAdj has potential to protect against pandemic H5N1 in the event of its cross over to the human host.     

Safety and immunogenicity of prepandemic H5N1 influenza vaccines: A systematic review of the literature

A systematic review was performed to assess the safety and immunogenicity of the prepandemic H5N1 influenza vaccines licensed so far. A bibliographic search according to the COSI protocol was carried out and 8 of 235 potentially relevant publications were selected. Quality assessment was defined with both CASP and Jadad checklists. Taken together, the results from the present systematic review suggest that the inactivated split-virion formulation that includes a low antigen dose (3.8 μg) and an oil-in-water emulsion-based adjuvant, represents the best option in the case of a pandemic, due to its antigen-sparing capacity and its favorable safety profile.     

2000-2007年佛山市甲1亚型(H1N1)流感病毒监测情况及其HA1基因的变异

目的分析2000-2007年佛山市甲1亚型(H1N1)毒株流行情况及其HA1基因变异情况。方法用MDCK细胞分离流感病毒,采用血球凝集抑制试验进行型别鉴定,选取每年2~4株甲1亚型毒株的细胞培养物提取病毒核酸,进行HA1基因的逆转录,对其核苷酸和氨基酸序列及亲缘关系进行分析。结果病毒分离结果显示2000-2007年间甲1亚型流感病毒在佛山市人群中的流行是间断性的,只在2000、2001、2005、2006年4个年份分离到甲1亚型流感毒株。毒株的HA1区氨基酸序列与流感疫苗推荐株A/New Caledonia/20/99和A/Solomon Islands/3/2006相比,同源性分别为97.2%~99.7%和97.2%~98.5%。氨基酸残基平均替换数随年份的推移而增加,只有2006年的毒株在抗原决定簇发生了替换。结论与疫苗株比较,佛山市的甲1亚型流感毒株抗原性已逐渐发生了改变,应密切注意疫苗对毒株的免疫效果。