Prevalence of respiratory syncytial virus IgG antibodies in infants living in a rural area of Mozambique

A case control study was carried out in Manhiça (Mozambique). Serum samples were collected from infants < 1 year of age in hospital to assess the effect of serum antibodies on the incidence of respiratory syncytial virus (RSV) infection. Sera were collected from a total of 31 cases of RSV infection and paired uninfected controls matched for age and sex. Anti‐RSV antibodies were assessed by a membrane fluorescent antibody test (MFAT) for immunoglobulin G (IgG) antibodies and by a neutralizing antibody test. IgG RSV antibodies were of higher prevalence and at higher levels in the control group when compared to the infected case group (P < 0.001), indicating an important role for IgG antibodies in protection. To assess infection before recruitment, IgA RSV antibodies were also measured by MFAT. IgA RSV antibody prevalence was very low in patients and controls (0/31 and 4/31 respectively), suggesting that most of the detected IgG RSV antibody in both groups was of maternal origin. Re‐analysis of data from the subset of 27 matched, IgA RSV antibody negative infant pairs mirrored the full analysis indicating that maternal antibody has an important role in RSV protection. Similar results were obtained when neutralizing antibodies were measured and when the measurement was done against subgroup A virus strain A2, subgroup B virus strain 8/60 and a contemporary subgroup A isolate, Moz00. No significant differences in the reactivity of maternal antibodies with the three virus strains were observed. The data described below represent the first analysis of the role of maternal antibodies in reducing the risk of pediatric infection in developing countries. The results reinforce the concept of maternal vaccination for the control of RSV in very young children in whom the risk and severity of infection are the highest. J. Med. Virol. 67:616–623, 2002. © 2002 Wiley‐Liss, Inc.     

Respiratory syncytial virus group-specific antibody response in nasopharyngeal secretions from infants and children after primary infection.

Respiratory syncytial virus (RSV) group-specific immunoglobulin A (IgA) and IgG enzyme-linked immunosorbent assay antibody and neutralizing antibody responses were determined for nasopharyngeal secretions (NPS) from 27 infants and children (6 to 18 months of age) undergoing primary infection with RSV group A or B strain. IgA and IgG antibody responses against RSV envelope glycoproteins (fusion [F] and large [G] glycoprotein) in NPS were also analyzed. Most subjects examined developed moderate levels of NPS IgA and IgG antibodies and neutralizing antibody activity to both group A and B strains in convalescent phase; however, the levels of antibodies to homologous strains were significantly higher than to the heterologous strains. Patients infected with group A developed antibodies in both F and G glycoproteins of A2 strains (group A). Patients infected with group B developed levels of antibody activity to F glycoprotein of A2 strain similar to those of patients infected with group A. However, these subjects developed little or no antibody response to G glycoprotein of A2 strain. These data suggest that the IgA and IgG antibody responses to G glycoprotein in the respiratory tract are group specific. It is suggested that lack of antibody response to the G glycoprotein of the heterologous group in the respiratory tract may determine the outcome of reinfection with other RSV strains.     

应用MAC-ELISA方法检测呼吸道合胞病毒IgM抗体

建立酶联免疫吸附试验(MAC-ELISA)检测呼吸道合胞(RS)病毒特异性IgM抗体方法,并与中和试验(NT)进行对比。 取35例患毛细支气管炎婴幼儿的急性期及恢复期双份血清共70份标本进行研究。MAC-ELISA测得急性期血清中RS病毒特异性IgM抗体的阳性率为27/35(77.14％),而恢复期血清中和抗体呈≥4倍升高者为23/35(65.71％)。凡NT阳性病例,MAC-ELISA也呈阳性;凡MAC-ELISA阴性病例,NT也呈阴性。另4例NT阴性而MAC-ELISA呈阳性。两者阳性符合率为88.57％。 本研究也观察了IgM抗体与年龄的关系。在6个月龄以前,MAC-ELISA的阳性率远远高于NT。 实验说明采用MAC-ELISA检测RS病毒特异性IgM是可靠的快速诊断方法。     

Serum and nasal-wash immunoglobulin G and A antibody response of infants and children to respiratory syncytial virus F and G glycoproteins following primary infection.

An enzyme-linked immunosorbent assay (ELISA) with immunoaffinity-purified fusion (F) or attachment (G) glycoprotein was used to measure the serum and secretory immune responses of 18 infants and children, 4 to 21 months of age, who underwent primary infection with respiratory syncytial virus (RSV). Most of the 10 older individuals (9 to 21 months of age) developed moderate levels of serum and nasal-wash immunoglobin A (IgA) and IgG F and G antibodies. These individuals developed a moderate level of serum or nasal-wash antibodies that neutralized virus infectivity. One of the eight younger individuals (4 to 8 months of age) failed to develop an F antibody response, while three failed to develop a G antibody response. The most notable difference in the responses of the two age groups involved the titer in convalescent sera of G, F, and neutralizing antibodies which were 8- to 10-fold lower in younger individuals. Most of the younger infants failed to develop a rise in serum or nasal-wash neutralizing antibody. It is possible that the presence of maternally derived antibody in the younger infants suppressed the immune response to RSV infection, and that this accounted, in part, for the low level of postinfection antibody titer in this group. This low level and the irregular response of the infants less than 8 months of age may contribute to the severity of their initial infection and may also be responsible, in part, for their failure to develop effective resistance to subsequent reinfection by RSV.     

Assessment of immune response to meningococcal disease: comparison of a whole-blood assay and the serum bactericidal assay.

A whole-blood assay (WBA), which assesses the complete bactericidal activity of blood, was compared with the serum bactericidal assay (SBA), which measures antibody and complement mediated cell lysis. Twenty children infected with serogroup B strains and 25 infected with serogroup C strains were studied 8-12 weeks after disease, and 29 healthy children were used as controls. The infecting strain (convalescent children only) and two reference strains, MC58 (B:15:P1.7, 16) and NCTC 8554 (C:NT:P1.5) were used. In children previously infected with a serogroup B strain, bactericidal activity was detected in 95% and 85% to their infecting strain by the WBA (>50% killing) and the SBA (s), respectively. Bactericidal activity to the reference serogroup B and C strain was detected by WBA in 70 and 75% of children, respectively, and the SBA in 45% and 20%. In contrast bactericidal activity was detected to both serogroup C strains in >80% of children previously infected with a serogroup C strain using either assay and in 48% (WBA) and 20% (SBA) to the reference serogroup B strain. Levels of bactericidal activity were detectable in fewer control children. Children convalescing from meningococcal disease develop an immune response to their infecting strain, detectable by both the WBA and SBA, which is independent of age. However, the WBA appears to be a more sensitive measure of bactericidal activity to heterologous strains than the SBA.     

Dissociation between serum neutralizing and glycoprotein antibody responses of infants and children who received inactivated respiratory syncytial virus vaccine.

The serum antibody response of infants and children immunized with Formalin-inactivated respiratory syncytial virus (RSV) vaccine 20 years ago was determined by using an enzyme-linked immunosorbent assay specific for the RSV fusion (F) and large (G) glycoproteins and a neutralization assay. Twenty-one young infants (2 to 6 months of age) developed a high titer of antibodies to the F glycoprotein but had a poor response to the G glycoprotein. Fifteen older individuals (7 to 40 months of age) developed titers of F and G antibodies comparable to those in children who were infected with RSV. However, both immunized infants and children developed a lower level of neutralizing antibodies than did individuals of comparable age with natural RSV infections. Thus, the treatment of RSV with Formalin appears to have altered the epitopes of the F or G glycoproteins or both that stimulate neutralizing antibodies, with the result that the immune response consisted largely of "nonfunctional" (i.e., nonneutralizing) antibodies. Subsequent natural infection of the vaccinees with wild-type RSV resulted in enhanced pulmonary disease. Despite this potentiation of illness, the infected vaccinees developed relatively poor G, F, and neutralizing antibody responses. Any or all of three factors may have contributed to the enhancement of disease in the RSV-infected vaccinees. First, nonfunctional antibodies induced by the inactivated RSV vaccine may have participated in a pulmonary Arthus reaction during RSV infection. Second, the poor antibody response of infants to the G glycoprotein present in the Formalin-inactivated vaccine may have been inadequate to provide effective resistance to subsequent wild-type virus infection. Third, the relatively reduced neutralizing antibody response of the infant vaccinees to wild-type RSV infection may have contributed to their enhanced disease by delaying the clearance of virus from their lungs.     

Neutralizing antibody response variation against dengue 3 strains

To evaluate the neutralizing antibody activity of a human sera panel against seven strains of the homotypic virus. Sera were collected from DENV-3 immune individuals. Two DENV-3 genotypes and strains isolated at different time-points during the 2000 and 2001-2002 Havana epidemics were included. A panel of 20 late convalescent sera collected 16-18 months after acute illness from DF and DHF patients are studied. These individuals were infected during the 2001-2002 Havana DENV-3 epidemic. All but four sera collected from DF cases had a secondary DENV-1/DENV-3 infection. Sera neutralizing antibody titer against the seven DENV-3 strains were determined by plaque reduction neutralization technique. Sera samples were tested simultaneously. Studied sera showed higher levels of neutralizing antibodies to DENV-3 strains of genotype III compared to genotype V. Interesting, higher levels of neutralizing antibodies were detected to DENV-3 strain isolated at the end of the epidemic 2001-2002. An increased tendency of GMT of neutralizing antibodies according to epidemic evolution was observed for the 2001-2002 outbreak. In general, antibody levels in sera collected from DF cases were higher. Differences in the neutralization capacity of immune DENV-3 sera tested against two homologous genotypes including strains of the same genotype are demonstrated. Observed results suggest that virus changed in the course of the epidemic. The implications of this finding in terms of dengue pathogenesis and vaccine development need to be considered.     

Expression of beta-galactosidase by recombinant respiratory syncytial viruses for microneutralization assay

The beta-galactosidase gene (lacZ) was inserted into a recombinant respiratory syncytial virus (RSV) A2 strain of subgroup A RSV (designated as A-lacZ) and a chimeric RSV that had the G and F surface glycoproteins of A2 replaced by those of the subgroup B RSV 9320 strain (designated as B-lacZ). Both recombinant RSVs, A-lacZ and B-lacZ, grew well in tissue culture and expressed high levels of beta-galactosidase. Using these two beta-galactosidase-expressing recombinant RSVs, a novel microneutralization assay was developed to measure serum anti-RSV neutralizing antibody from subgroup A or subgroup B RSV infection. The assay was carried out in 96-well plates and the unneutralized virus was quantitated by spectrophotometric measurement of the beta-galactosidase enzymatic reaction following incubation of the infected cell lysate with the enzyme substrate, chlorophenol red beta-D-galactopyranoside (CPRG). Adult human sera positive for anti-RSV antibody as shown by Western blot analysis and subgroup A or subgroup B RSV infected monkey sera were examined for the levels of anti-RSV neutralizing antibodies by the microneutralization assay in comparison with the plaque reduction neutralization assay. A higher antibody titer was detected when the neutralization assay was performed with the homologous RSV than the heterologous RSV, indicating that neutralization assay could distinguish antigenic differences between the two RSV subgroups. The microneutralization assay is comparable to the plaque reduction neutralization assay in sensitivity, but it is rapid, less laborious and suitable for screening a large number of samples.     

Immunoprophylaxis and immunotherapy of respiratory syncytial virus infection in the cotton rat

Human convalescent antiserum to respiratory syncytial virus (RSV) administered intraperitoneally to cotton rats prior to RSV challenge provided near-complete protection from pulmonary infection. Antiserum given subsequent to viral challenge reduced pulmonary viral titers 100-fold or greater within 24 h. Sandoglobulin, a preparation of purified human IgG with high titer of anti-RSV neutralizing activity, produced the same effects as convalescent antiserum. Sandoglobulin was absorbed rapidly and produced a significant therapeutic reduction in virus titer within 3 h. The level of virus reduction in pulmonary and nasal tissues was directly proportional to the neutralizing antibody titer in the cotton rat serum, and was always greater in the lungs than the nose. Animals treated therapeutically with Sandoglobulin had a depressed primary antibody response to infection, but were completely resistant to reinfection with RSV. Histologic examination of pulmonary tissues from Sandoglobulin-treated animals showed no pathologic changes.     

Evaluation of subgroup-specific peptides of the G protein of respiratory syncytial virus for characterization of the immune response

Two synthetic peptides, designated peptides 12G(A) and 12G(B), representing amino acids 174–188 of the G glycoprotein of respiratory syncytial virus (RSV) subgroup A (strain A2) and subgroup B (strain CH18537) were evaluated for their properties as subgroup-specific antigens for enzyme immunoassay (ELISA). These peptides were used to characterize the immune response of children with naturally occurring RSV infection during six annual epidemics in the Huntington area, West Virginia, USA; viz. 1978–1979, 1979–1980, 198G1981, 1983–1984, 1989–1990, and 1990–1991. The study group comprised 43 paired sera from 42 infants and children, who ranged in age between 1 month and 5.5 years of age (median age 16 months). The inclusion criteria were subgroup identification of RSV, respiratory tract illness requiring admission to hospital, and the availability of paired sera. Five of 30 children with subgroup A and 3 of 13 children with subgroup B infections developed homologous or dual fourfold or greater antibody responses to peptides 12G(A) and 12G(B) during convalescence; six of these eight children also developed antibody rises to whole virus antigens. Twenty children (14 subgroup A and 6 subgroup B) developed such responses in antibody only to whole virus (not to the peptides), and 15 children (11 subgroup A and 4 subgroup B) failed to develop a rise in antibody. Children who developed rises in antibody to the peptides were usually less than 9 months of age, suggesting that a response to peptides was more likely to occur during primary infection. Peptides 12G(A) and 12G(B) of RSV G protein lacked sufficient sensitivity and specificity to serve as antigens for ELISA for characterizing the subgroup-specific immune responses to RSV infection in infants and children. © 1995 WiIey-Liss, Inc.     

Kinetics of the Neutralizing Antibody Response to Respiratory Syncytial Virus Infections in a Birth Cohort

The kinetics of respiratory syncytial virus (RSV) neutralizing antibodies following birth, primary and secondary infections are poorly defined. The aims of the study were to measure and compare neutralizing antibody responses at different time points in a birth cohort followed‐up over three RSV epidemics. Rural Kenyan children, recruited at birth between 2002 and 2003, were monitored for RSV infection over three epidemic seasons. Cord and 3‐monthly sera, and acute and convalescent sera following RSV infection, were assayed in 28 children by plaque reduction neutralization test (PRNT). Relative to the neutralizing antibody titers of pre‐exposure control sera (1.8 log₁₀ PRNT), antibody titers following primary infection were (i) no different in sera collected between 0 and 0.4 months post‐infection (1.9 log₁₀ PRNT_, P = 0.146), (ii) higher in sera collected between 0.5 and 0.9 (2.8 log₁₀ PRNT_, P < 0.0001), 1.0–1.9 (2.5 log₁₀ PRNT, P < 0.0001), and 2.0–2.9 (2.3 log₁₀ PRNT, P < 0.001) months post‐infection, and (iii) no different in sera collected at between 3.0 and 3.9 months post‐infection (2.0 log₁₀ PRNT, P = 0.052). The early serum neutralizing response to secondary infection (3.02 log₁₀ PRNT) was significantly greater than the early primary response (1.9 log₁₀ PRNT, P < 0.0001). Variation in population‐level virus transmission corresponded with changes in the mean cohort‐level neutralizing titers. It is concluded that following primary RSV infection the neutralizing antibody response declines to pre‐infection levels rapidly (～3 months) which may facilitate repeat infection. The kinetics of the aggregate levels of acquired antibody reflect seasonal RSV occurrence, age, and infection history. J Med. Virol. 85:2020–2025, 2013. © 2013 The Authors. Journal of Medical Virology published by Wiley Periodicals, Inc.     

In Vitro and in Vivo Stimulation of Murine Lymphocytes by Human Respiratory Syncytial Virus Strains

Respiratory syncytial virus (RSV) strains of subtype A (A2, WV9894, and WV12138) and of subtype B (WV1293, WV4843, and WV6873) are mitogenic in vitro for unprimed BALB/c spleen cells. The virus also triggered splenocytes in vitro to secrete immunoglobulins. Plaque-purified and UV-irradiated materials of both RSV subtypes produced comparable levels of DNA synthesis. Infectious materials of both subtypes also induced pronounced responses. Lymphocyte activation with UV-inactivated RSV strain A2 was dose-dependent and maximal responses occurred after 4-5 days of incubation. The virus preparations were mitogenic for spleen cells depleted of T lymphocytes by treatment with anti-Thy 1.2 and complement and for lymphocytes of congenitally athymic mice (nu-nu). They were also mitogenic for highly purified T lymphocytes separated by panning of spleen cells on anti-mouse Ig-coated Petri dishes, suggesting that both B and T lymphocytes respond to the mitogenic activity of RSV. Moreover, mice infected intranasally with RSV strain A2 generated local as well as peripheral cellular and humoral responses.     

Isolation and characterization of a chimpanzee monoclonal antibody to the G glycoprotein of human respiratory syncytial virus.

Respiratory syncytial virus (RSV) is the most common cause of serious lower respiratory tract disease in infants and young children. In this study a hybridoma line secreting a chimpanzee monoclonal antibody that neutralizes RSV was isolated. Two chimpanzees were immunized with recombinant vaccinia viruses that express the RSV F or G surface glycoprotein and 1 month later were infected intranasally with the wild-type RSV strain A2. Peripheral blood lymphocytes obtained from the animals were transformed with Epstein-Barr virus, and lymphoblastoid cell lines that secreted anti-RSV antibodies were identified by an RSV antigen-binding enzyme-linked immunosorbent assay. Supernatants from RSV antibody-secreting lymphoblastoid cell lines were tested for in vitro virus neutralization before being fused to the heteromyeloma cell GLI-H7. A chimpanzee antibody [immunoglobulin G3(lambda) subclass] produced from a hybridoma line designated E1.4/2 was shown to bind to the RSV G glycoprotein and neutralize a panel of subgroup A viruses, but not subgroup B viruses, at low (nanomolar) concentrations. Mice passively immunized with this antibody were partially resistant to RSV strain A2 challenge. The usefulness of such antibodies in immunoprophylaxis and immunotherapy of RSV infection is discussed.     

Formalin-inactivated respiratory syncytial virus vaccine induces antibodies to the fusion glycoprotein that are deficient in fusion-inhibiting activity.

The fusion (F) glycoprotein of respiratory syncytial virus (RSV) induces neutralizing antibodies and antibodies that inhibit fusion of infected cells (FI antibody). It was previously shown that infants and children immunized with Formalin-inactivated RSV 20 years ago developed antibodies that bound to the F glycoprotein but were deficient in neutralizing activity. A reexamination of these sera indicated that they were also deficient in FI activity. Thus, Formalin-inactivated RSV vaccine stimulated an unbalanced immune response in which an unusually large proportion of the induced antibodies were directed against nonprotective epitopes rather than against the epitopes that induce functional antibodies, i.e., neutralizing and FI antibodies. This deficiency in stimulation of functional antibodies probably decreased the protective efficacy of the vaccine and could have contributed to potentiation of disease in the vaccines during subsequent RSV infection.     

Respiratory syncytial virus specific serum antibodies in infants under six months of age: Limited serological response upon infection

The decline of maternal respiratory syncytial virus (RSV) specific serum antibodies was studied in 45 children during the first 6 months of life, using a virus neutralization assay and competition ELISAs measring fusion protein and glycoprotein specific antibodies. In all children RSV neutralizing antibodies were demonstrated at birth, with titers ranging from 33 to 1382. The calculated mean half life of these antibodies was 26 days. Furthermore, in a group of 38 children with suspected RSV infection, all younger than 6 months of age on admission, the diagnostic value of serological assays was evaluated. In 32 children RSV infection was confirmed by virus isolation, direct immune fluorescence and RT-PCR. In 7 patients of this group a significant titer rise in virus neutralization assay was demonstrated. Six additional RSV infected children could be identified by showing the presence of RSV-specific IgM or IgA serum antibodies or by showing an increase in fusion protein or glycoprotein specific antibodies. All serological tests together identified 13 (41%) of the 32 RSV infected patients. It is concluded that in children of this age group, which represent the majority of patients hospitalized with RSV infections, serological assays not only have a limited diagnostic value but are of limited value for sero-epidemiological studies. J. Med. Virol. 52:97–104, 1997. © 1997 Wiley-Liss, Inc.     

重庆地区急性呼吸道感染患儿呼吸道合胞病毒流行特征及其G基因序列分析

目的 分析重庆地区2008-2009年度急性呼吸道感染住院患儿呼吸道合胞病毒(respiratory syncytial virus,RSV)的亚型流行情况,并了解优势流行株BA株的G蛋白基因特征.方法 采集2008年4月-2009年3月全年于重庆医科大学附属儿童医院因急性呼吸道感染住院的508例患儿鼻咽深部分泌物,用RT-PCR方法检测RSV并进行亚型鉴定,选取29例B亚型和10例A亚型RSV阳性标本,用RT-PCR的方法扩增全长G蛋白并测序.结果 在508例标本中,RSV阳性126例(24.8%),其中检测出A亚型43例(34.1%),B亚型80例(63.5%),A、B亚型混合感染3例(2.4%).所测的10株A亚型的G基因与标准株A2的核苷酸同源性为91.4%～92.0%,均属GA2基因型;29株B亚型的G基因与标准株CH18537的核苷酸同源性为92.0%～93.0%,其中19株均为具有60个高度重复核苷酸插入的BA株.B亚型流行株与CH18537标准株相比,G基因有多种核苷酸变异如缺失、插入等,尤其在G蛋白近C端1/3处的高变区.结论 2008-2009年RSV仍是重庆地区儿童急性呼吸道感染的主要病原,与既往两年A亚型优势流行不同,2008-2009年度B亚型毒株流行占优;近年新发现的BA株可能已成为本地区优势流行株,BA株G基因变异是否导致G蛋白功能增强,进而促进其优势流行尚有待研究.     

Immune responses to labial infection of BALB/c mice with herpes simplex virus type 1.

The kinetics of appearance of five humoral antibody responses (micro-neutralization assay [NT], complement fixation [CF], enzyme-linked immunosorbent assay [ELISA], radioimmunoassay [RIA], antibody-dependent cell-mediated cytotoxicity [ADCC]), were compared during labial infection of BALB/c mice with herpes simplex virus type 1 strain Patton. The ELISA/RIA antibody responses were present in most mice by day 5 after infection, at the beginning of the herpetic lip lesions; antibody effective in ADCC showed identical early kinetics. In contrast, NT/CF antibodies were not detected in most mice until day 10, at the time of resolution of the herpetic lip lesions. The humoral immune responses persisted for at least 6 months after infection. The NT and CF responses were closely correlated in time of appearance and titers (r = 0.9), as were the ELISA and RIA responses (r = 0.99). However, there was little correlation between NT/CF and ELISA/RIA responses (r = 0.02). The kinetics of the delayed type hypersensitivity response showed similar kinetics of appearance to the ELISA/RIA/ADCC humoral responses, and peaked similarly, but waned gradually over 2 months. The importance of antibody in protection against labial herpes simplex virus type 1 infection was demonstrated by the ability of passively transferred convalescent serum (that produced a minimum NT titer of 10 in recipient mice) to protect against development of herpetic lesions and death.     

中国HIV-1 B'/C亚型感染者对异体病毒中和作用与疾病进展关系研究

目的 探讨中国HIV-1 B'/C亚型感染者对异体病毒中和作用与疾病进展的关系.方法 根据CD4 T淋巴细胞数量和有尤临床症状将HIV-1 B'/C亚型感染者分为HIV慢性感染组和AIDS组.将HIV-1感染者血清稀释(1/10～1/320)后,与在基因结构特点上同源性很低的3株HIV-1作用,以检测其中和作用.同时以正常人血清加病毒悬液为对照孔,能够抑制对照孔50%病毒复制的血清为中和作用阳性.将某个HIV-1感染者血浆能够中和异体病毒的个数占3个异体病毒的百分率定义为HIV-1感染者中和异体病毒的宽度;将某个HIV-1感染者血浆中和3个异体病毒抗体滴度的几何平均滴度定义为HIV-1感染者中和异体病毒的强度.结果 HIV-1慢性感染组与AIDS组之间中和异体病毒的宽度和强度差异有统计学意义,HIV-1慢性感染组显著高于AIDS组.HIV-1慢性感染组中和异体病毒的宽度和强度与病毒载量呈正相关,而AIDS组巾和异体病毒的宽度和强度与病毒载量没有显著的相关性.HIV-1慢性感染组和AIDS组中和异体病毒的宽度和强度与CD4 T淋巴细胞数均没有显著的相关性.结论 中国HIV-1B'/C亚型感染者不同疾病进展阶段针对异体病毒中和作用能力不同,HIV慢性感染组显著高于AIDS组,当疾病进展到AIDS期时,失去对异体病毒的中和作用,提示针对异体病毒的中和抗体与疾病进程有关.     

Biological challenges and technological opportunities for respiratory syncytial virus vaccine development

Respiratory syncytial virus (RSV) is an important cause of respiratory disease causing high rates of hospitalizations in infants, significant morbidity in children and adults, and excess mortality in the elderly. Major barriers to vaccine development include early age of RSV infection, capacity of RSV to evade innate immunity, failure of RSV-induced adaptive immunity to prevent reinfection, history of RSV vaccine-enhanced disease, and lack of an animal model fully permissive to human RSV infection. These biological challenges, safety concerns, and practical issues have significantly prolonged the RSV vaccine development process. One great advantage compared to other difficult viral vaccine targets is that passively administered neutralizing monoclonal antibody is known to protect infants from severe RSV disease. Therefore, the immunological goals for vaccine development are to induce effective neutralizing antibody to prevent infection and to avoid inducing T-cell response patterns associated with enhanced disease. Live-attenuated RSV and replication-competent chimeric viruses are in advanced clinical trials. Gene-based strategies, which can control the specificity and phenotypic properties of RSV-specific T-cell responses utilizing replication-defective vectors and which may improve on immunity from natural infection, are progressing through preclinical testing. Atomic level structural information on RSV envelope glycoproteins in complex with neutralizing antibodies is guiding design of new vaccine antigens that may be able to elicit RSV-specific antibody responses without induction of RSV-specific T-cell responses. These new technologies may allow development of vaccines that can protect against RSV-mediated disease in infants and establish a new immunological paradigm in the host to achieve more durable protection against reinfection.     

Chimeric subgroup A respiratory syncytial virus with the glycoproteins substituted by those of subgroup B and RSV without the M2-2 gene are attenuated in African green monkeys

Using the existing reverse genetics system developed for the subgroup A respiratory syncytial virus (RSV), a chimeric virus (designated rA-G(B)F(B)) that expresses subgroup B-specific antigens was constructed by replacing the G and F genes of the A2 strain with those of the 9320 strain of subgroup B RSV. rA-G(B)F(B) grew well in tissue culture, but it was attenuated in the respiratory tracts of cotton rats and African green monkeys. To further attenuate this chimeric RSV, the M2-2 open reading frame was removed from rA-G(B)F(B). rA-G(B)F(B)DeltaM2-2 was highly attenuated in replication in the respiratory tracts of the infected monkeys, but it provided complete protection against wild-type subgroup B RSV challenge following two doses of infection. In this study, rA2DeltaM2-2 (a recombinant A2 RSV that lacks the M2-2 gene) was also evaluated in African green monkeys. The replication of rA2DeltaM2-2 was highly restricted in both the upper and lower respiratory tracts of the infected monkeys and it induced titers of serum anti-RSV neutralizing antibody that were slightly lower than those induced by wild-type rA2. When rA2DeltaM2-2-infected monkeys were challenged with wild-type A2 virus, the replication of the challenge virus was reduced by approximately 100-fold in the upper respiratory tract and 45,000-fold in the lower respiratory tracts. rA2DeltaM2-2 and rA-G(B)F(B)DeltaM2-2 could represent a bivalent RSV vaccine composition for protection against multiple strains from the two RSV subgroups.