Comparative study of influenza virus replication in MDCK cells and in primary cells derived from adenoids and airway epithelium.

Although clinical trials with human subjects are essential for determination of safety, infectivity, and immunogenicity, it is desirable to know in advance the infectiousness of potential candidate live attenuated influenza vaccine strains for human use. We compared the replication kinetics of wild-type and live attenuated influenza viruses, including H1N1, H3N2, H9N2, and B strains, in Madin-Darby canine kidney (MDCK) cells, primary epithelial cells derived from human adenoids, and human bronchial epithelium (NHBE cells). Our data showed that despite the fact that all tissue culture models lack a functional adaptive immune system, differentiated cultures of human epithelium exhibited the greatest restriction for all H1N1, H3N2, and B vaccine viruses studied among three cell types tested and the best correlation with their levels of attenuation seen in clinical trials with humans. In contrast, the data obtained with MDCK cells were the least predictive of restricted viral replication of live attenuated vaccine viruses in humans. We were able to detect a statistically significant difference between the replication abilities of the U.S. (A/Ann Arbor/6/60) and Russian (A/Leningrad/134/17/57) cold-adapted vaccine donor strains in NHBE cultures. Since live attenuated pandemic influenza vaccines may potentially express a hemagglutinin and neuraminidase from a non-human influenza virus, we assessed which of the three cell cultures could be used to optimally evaluate the infectivity and cellular tropism of viruses derived from different hosts. Among the three cell types tested, NHBE cultures most adequately reflected the infectivity and cellular tropism of influenza virus strains with different receptor specificities. NHBE cultures could be considered for use as a screening step for evaluating the restricted replication of influenza vaccine candidates.

Seasonal maintenance of influenza vaccine-induced antibody response in kidney transplant recipients.

BACKGROUND/AIMS: Although annual influenza vaccination is recommended for kidney transplant recipients, efficacy as reflected by serum antibody titers has not been well studied beyond 1 month in kidney transplant recipients. METHODS: We performed a single-center prospective cohort study of 51 kidney transplant recipients and 102 healthy controls receiving the 2006-2007 influenza vaccine. Anti-hemagglutinin antibody titers to A/H1N1, A/H3N2, and B were measured before and 1 month after vaccination, and again at the end of influenza season. The primary outcome was the proportion of participants maintaining seroprotection (antibody titer ≥1:32) for the duration of the influenza season after influenza vaccination. RESULTS: Median follow-up time was 175 and 155 days in the transplant and control groups, respectively. For types A/H1N1 and B, a similar high proportion of the transplant and control groups (88.5 and 81.6% vs. 83.7 and 74.2% for A/H1N1 and B, respectively) maintained seroprotection. For type A/H3N2, significantly less of the transplant group (66.7%) versus the control group (90%) maintained a protective influenza vaccine response (odds ratio 0.21, 95% confidence interval 0.07-0.64). This difference disappeared in adjusted analyses. Actual geometric mean titers decreased significantly within both groups (p < 0.001) but this did not differ between groups. CONCLUSIONS: Once they have developed protective vaccine-induced antibody responses to influenza vaccine, kidney transplant recipients are able to maintain adequate protective levels of antibody compared with healthy controls.

Detection of viruses in human adenoid tissues by use of multiplex PCR.

By PCR, we detected a high frequency of viruses in adenoids obtained from children without acute respiratory symptoms. Our results suggest that persistent/latent viral infection in the respiratory tract confounds interpretation of the association of pathogen detection by PCR with acute respiratory infection in these sources.

Decreased antibody response to influenza vaccination in kidney transplant recipients: a prospective cohort study.

BACKGROUND: Antibody response to the inactivated influenza vaccine is not well described in kidney transplant recipients administered newer, but commonly used, immunosuppression medications. We hypothesized that kidney transplant recipient participants administered tacrolimus-based regimens would have decreased antibody response compared with healthy controls. STUDY DESIGN: Prospective cohort study of 53 kidney transplant recipients and 106 healthy control participants during the 2006-2007 influenza season. All participants received standard inactivated influenza vaccine. SETTING & PARTICIPANTS: Kidney transplant recipients administered tacrolimus-based regimens at a single academic medical center and healthy controls. PREDICTOR: Presence of kidney transplant. OUTCOMES: Proportion of participants achieving seroresponse (4-fold increase in antibody titer) and seroprotection (antibody titer > or = 1:32) 1 month after vaccination. MEASUREMENTS: Antibody titers before and 1 month after vaccination by means of hemagglutinin inhibition assays for influenza types A/H1N1, A/H3N2, and B. RESULTS: A smaller proportion of the transplantation group compared with the healthy control group developed the primary outcomes of seroresponse or seroprotection for all 3 influenza types at 1 month after vaccination. The response to influenza type A/H3N2 was statistically different; the transplantation group had 69% decreased odds of developing seroresponse (95% confidence interval, 0.16 to 0.62; P = 0.001) and 78% decreased odds of developing seroprotection (95% confidence interval, 0.09 to 0.53; P = 0.001) compared with healthy controls. When participants less than 6 months from the time of transplantation were considered, this group had a significantly decreased response to the vaccine compared with healthy controls. LIMITATIONS: Decreased sample size, potential for confounders, outcome measure used is the standard but does not give information about vaccine efficacy. CONCLUSIONS: Kidney transplant recipients, especially within 6 months of transplantation, had diminished antibody response to the 2006-2007 inactivated influenza vaccine.

Antibody responses after inactivated influenza vaccine in young children.

BACKGROUND: The frequency and duration of antibody responses after trivalent inactivated influenza vaccine (TIV) in young children are not well defined and assume greater importance with the expanded recommendations for vaccine use in children aged 6 months-5 years. METHODS: Forty-three children aged 6-23 months were vaccinated with TIV in the fall of 2002. At enrollment the majority of children were seronegative to one or more of the vaccine antigens and had no previously documented influenza. Postvaccination sera were collected in the subsequent fall and winter seasons. Acute antibody responses to TIV were determined using standardized hemagglutination inhibition (HAI) and neutralization assays. In calculating the duration of responses, sequential sera were analyzed to the last available sera, to the point at which antibody became undetectable, or to intercurrent influenza infection. RESULTS: Forty-three subjects contributed 121 sera that were analyzed for HAI responses to TIV. Four-fold HAI rises after 2 doses of TIV in naive individuals were seen in 13 (72%) to H3N2, 22 (92%) to H1N1, and 15 (60%) to influenza B. Fewer 4-fold rises were seen in those with preexisting antibody. The results of microneutralization assays to H3N2 correlated well with HAI results. The time for antibody to decay to one-half of the postvaccination titer (t1/2) was approximately 126 days for H1N1 and 258 days for H3N2. CONCLUSIONS: Although not all children responded with 4-fold rises in antibody or achieved the putative protective titer of > or =1:32, the half-life of antibody suggested that children immunized in the fall should have immune responses sustained throughout the ensuing influenza season.

Duration of virus shedding after trivalent intranasal live attenuated influenza vaccination in adults.

OBJECTIVE: To characterize the probability and duration of viral shedding among adults given trivalent live attenuated influenza vaccine (LAIV). DESIGN: Prospective surveillance study. METHODS: Nasal wash samples were collected from adult volunteers at baseline and on days 3, 7, and 10 and between days 17 and 21 following intranasal LAIV vaccination. The presence, titer, and identification of each specific strain of influenza virus shed were determined by standard methodology. RESULTS: Twenty subjects received LAIV. No samples were positive for influenza virus at baseline. After LAIV vaccination, influenza virus was recovered from 10 of 20 vaccinees on day 3, from 1 of 18 vaccinees on day 7, and from none of the samples on days 10 or 17 through 21. Vaccinees who shed vaccine virus were significantly younger than those who did not (mean age, 26.4 vs 38.6 years; P < .01). Although the presence of specific mucosal immunoglobulin A to influenza B was associated with significantly less shedding of influenza B after vaccination (P = .02), associations of shedding with other measures of immunity were not detected. CONCLUSION: The duration of shedding of vaccine virus after LAIV in adults i s limited and may be associatedwith an individual's prior influenza vaccination history.

Serologic imprint of dengue virus in urban Haiti: characterization of humoral immunity to dengue in infants and young children.

Dengue is endemic to Haiti but not recognized as an important illness in the autochthonous population. To evaluate the prevalence of antibodies to dengue virus (DENV), serum samples from infants and young children 7-36 months of age (n = 166) were assayed by plaque reduction neutralization assays to each DENV serotype. Dengue virus serotype 1 had infected 40% of this study population, followed by serotype 2 (12%), serotype 3 (11%), and serotype 4 (2%). Fifty-three percent of infants and young children less than 12 months of age had already experienced DENV infection, and the seroprevalence of antibody to DENV increased to 65% by 36 months. Heterotypic antibody responses were an important component of the total dengue immunity profile.

Phase 1 trial of the dengue virus type 4 vaccine candidate rDEN4{Delta}30-4995 in healthy adult volunteers.

rDEN4Delta30-4995 is a live attenuated dengue virus type 4 (DENV4) vaccine candidate specifically designed as a further attenuated derivative of the rDEN4Delta30 parent virus. In a previous study, 5 of 20 vaccinees who received 10(5) plaque-forming units (PFU) of rDEN4Delta30 developed a transient elevation of the serum alanine aminotransferase (ALT) level and an asymptomatic maculopapular rash developed in 10 of 20. In the current study, 28 healthy adult volunteers were randomized to receive 10(5) PFU of rDEN4Delta30-4995 (20) or placebo (8) as a single subcutaneous injection. The vaccine was safe, well-tolerated, and immunogenic. An asymptomatic generalized maculopapular rash and elevations in ALT levels were observed in 10% of the rDEN4Delta30-4995 vaccinees. None of the rDEN4Delta30-4995 vaccinees became viremic, yet 95% developed a four-fold or greater increase in neutralizing antibody titers. Thus, rDEN4Delta30-4995 was demonstrated to be safe, highly attenuated, and immunogenic. However, an asymptomatic localized erythematous rash at the injection site was seen in 17/20 rDEN4Delta30-4995 vaccinees. Therefore, alternative DENV4 vaccine strains were selected for further clinical development.

Effective delivery of IgG-antibodies into infected cells via dendritic molecular transporter conjugate IgGMT.

IgG antibody-transporter conjugates enable intracellular uptake of biologically active IgG antibodies that inhibit viral mediated syncytia formation in respiratory syncytial virus green fluorescent protein (RSV-GFP) infected human epithelial cells (HEp-2).

The interferon antagonist NS2 protein of respiratory syncytial virus is an important virulence determinant for humans.

BACKGROUND: Respiratory syncytial virus (RSV) is targeted for vaccine development, because it causes severe respiratory tract illness in the elderly, young children, and infants. A primary strategy has been to derive live attenuated viruses for use in intranasally administered vaccines that will induce a protective immune response. In the present study, the NS2 gene, whose encoded protein antagonizes the host's interferon- alpha / beta response, was deleted from RSV vaccine candidates by use of reverse genetics. METHODS: Three NS2 gene-deleted RSV vaccine candidates were studied: rA2cp Delta NS2, rA2cp248/404 Delta NS2, and rA2cp530/1009 Delta NS2. rA2cp Delta NS2, which had the fewest attenuating mutations, was evaluated in adults and RSV-seropositive children. rA2cp248/404 Delta NS2 and rA2cp530/1009 Delta NS2 were evaluated in adults and RSV-seropositive and RSV-seronegative children. RESULTS: At a high dose (10(7.0) pfu), rA2cp Delta NS2 was not shed by adults, and only 13% of them had an immune response. The other vaccine candidates, rA2cp248/404 Delta NS2 and rA2cp530/1009 Delta NS2, had greatly decreased infectivity in RSV-seronegative children, compared with that of their immediate parent strains, which possess an intact NS2 gene. CONCLUSIONS: Deletion of the NS2 gene attenuates RSV in subjects of all ages studied. This validates the strategy of developing live respiratory tract virus vaccines in which the virus's ability to inhibit the human innate immune system is blocked. rA2cp248/404 Delta NS2 should be studied in children at a higher input titer, because it was more infectious and immunogenic than was rA2cp530/1009 Delta NS2.

Growth of respiratory syncytial virus in primary epithelial cells from the human respiratory tract.

Respiratory syncytial virus (RSV) is the most important cause of lower respiratory tract disease in infants and children. To study RSV replication, we have developed an in vitro model of human nasopharyngeal mucosa, human airway epithelium (HAE). RSV grows to moderate titers in HAE, though they are significantly lower than those in a continuous epithelial cell line, HEp-2. In HAE, RSV spreads over time to form focal collections of infected cells causing minimal cytopathic effect. Unlike HEp-2 cells, in which wild-type and live-attenuated vaccine candidate viruses grow equally well, the vaccine candidates exhibit growth in HAE that parallels their level of attenuation in children.

Thermostabilization of egg grown influenza viruses.

The observation that the addition of deuterium oxide to tissue culture cell harvests stabilized trivalent oral poliovirus vaccine prompted us to examine the effect of deuterium oxide on stabilization of other licensed and experimental live viral vaccines. The most striking effect afforded by deuterium oxide was on stabilization of live, attenuated influenza A and B vaccine candidates grown in the allantoic cavity of embryonated eggs. Thermostabilization with deuterium oxide is much greater than seen with standard stabilization of these live influenza vaccines with sucrose-phosphate-glutamate. Subsequently, we have shown that a similar, stabilization is provided by diluting egg allantoic fluid in water or minimal essential medium. The mechanism of action has been explored but remains uncertain. The implications of being able to stabilize influenza after harvesting from eggs have practical application for utilization of live influenza vaccines and provides a possible way to increase and standardize the potency of inactivated vaccines that may partially degrade in the inimical environment of allantoic fluid during growth and before final vaccine purification and stabilization.

Cleavage of influenza a virus hemagglutinin in human respiratory epithelium is cell associated and sensitive to exogenous antiproteases.

Proteolytic cleavage of the hemagglutinin (HA) of human influenza viruses A/Aichi/2/68 (H3N2) and A/WSN/34 (H1N1) from HA0 to HA1/HA2 was studied in primary human adenoid epithelial cells (HAEC). HAEC contain a mixture of ciliated and nonciliated secretory cells and mimic the epithelium membrane of the human respiratory tract. Pulse-chase labeling with [(35)S]methionine and Western blot analysis with anti-HA antibodies of cellular and virion polypeptides showed that HAEC cleaved newly synthesized HA0 to HA1/HA2 ("cleavage from within") and significant amounts of cleaved HA accumulated within cells. It was also shown that HAEC was able to cleave HA0 of incoming virions ("cleavage from without"), whereas the HA0 of nonabsorbed virions free in extracellular fluid were not cleaved, supporting the conclusion that HA0 cleavage in HAEC is cell associated. Low-molecular-weight inhibitors of serine proteases, aprotinin and leupeptin, when added to influenza virus-infected HAEC suppressed HA0 cleavage and reduced the amount of cleaved HA1/HA2 both in cells and in progeny virions and thus diminished the infectivity of the virus. In contrast, the addition of fetal bovine serum, containing a number of high-molecular-weight antiproteases that compete for proteases in the extracellular environment, did not inhibit influenza virus growth in HAEC. These data suggest that in human respiratory epithelium the cleavage of influenza virus HA containing a single arginine in the proteolytic site (i) is a cell-associated process accomplished by serine-type protease(s) and (ii) is sensitive to low-molecular-weight exogenous inhibitors of serine proteases.

Role of complement in neutralization of respiratory syncytial virus.

Serum neutralizing antibody titers to respiratory syncytial virus (RSV) are higher when assayed with guinea pig complement. A number of different mechanisms have been suggested for enhancement of neutralization by complement. The most straightforward is that complement-antibody complexes present a greater steric hindrance to viral entry than with antibody alone. To define the implications of measuring serum neutralizing antibody with and without complement, sera from adults, young children, infants, and cord bloods were run in plaque neutralization assays with representative viruses of the RSV A and B subgroups. Although titers of neutralizing antibody were higher in the presence of complement, the addition of complement did not increase the ability to detect antibody rises after natural infection. Some of the complement effect may be attributable to an inhibition of RSV replication by complement alone. While these observations do not address the role for complement in the pathogenesis of RSV infection, they suggest that neutralization assays performed without complement may be most reflective of physiologic conditions in the respiratory tract.

Oral epithelial cells are susceptible to cell-free and cell-associated HIV-1 infection in vitro.

Epithelial cells lining the oral cavity are exposed to HIV-1 through breast-feeding and oral-genital contact. Genital secretions and breast milk of HIV-1-infected subjects contain both cell-free and cell-associated virus. To determine if oral epithelial cells can be infected with HIV-1 we exposed gingival keratinocytes and adenoid epithelial cells to cell-free virus and HIV-1-infected peripheral blood mononuclear cells and monocytes. Using primary isolates we determined that gingival keratinocytes are susceptible to HIV-1 infection via cell-free CD4-independent infection only. R5 but not X4 viral strains were capable of infecting the keratinocytes. Further, infected cells were able to release infectious virus. In addition, primary epithelial cells isolated from adenoids were also susceptible to infection; both cell-free and cell-associated virus infected these cells. These data have potential implications in the transmission of HIV-1 in the oral cavity.