Respiratory syncytial virus (RSV) is a leading cause of hospitalization in infants. A formalin-inactivated RSV vaccine was used to immunize children in 1966 and elicited non-protective, pathogenic antibody. Two immunized infants died and 80% were hospitalized after subsequent RSV exposure. No vaccine was licensed since. A widely accepted hypothesis attributed vaccine failure to formalin disruption of protective antigens. Instead, we show that lack of protection was not due to alterations caused by formalin, but to low antibody avidity for protective epitopes. Lack of antibody affinity maturation followed poor Toll-like receptor stimulation. This study explains why the inactivated RSV vaccine failed to protect and consequently led to severe disease, hampering vaccine development for forty-two years. Also, it suggests that inactivated RSV vaccines may be rendered safe and effective by inclusion of TLR-agonists in their formulation. In addition, it identifies affinity maturation as a critical factor for the safe immunization of infants.
Pandemic influenza viruses often cause severe disease in middle-aged adults without preexistent co-morbidities. The mechanism of illness associated with severe disease in this age group is not well understood1–10. Here, we demonstrate preexisting serum antibody that cross-reacts with, but does not protect against 2009 H1N1 influenza virus in middle-aged adults. Non-protective antibody is associated with immune complex(IC)-mediated disease after infection. High titers of serum antibody of low avidity for H1-2009 antigen, and low avidity pulmonary ICs against the same protein were detected in severely ill patients. Moreover, C4d deposition - a sensitive marker of complement activation mediated by ICs- was present in lung sections of fatal cases. Archived lung sections from adults with confirmed fatal influenza 1957 H2N2 infection revealed a similar mechanism of illness. These observations provide a novel biological mechanism for the unusual age distribution of severe cases during influenza pandemics.
Rationale: Human rhinoviruses (HRV) are the leading cause of upper respiratory infections and have been postulated to trigger asthma exacerbations. However, whether HRV are detected during crises because upper respiratory infections often accompany asthma attacks, or because they specifically elicit exacerbations, is unclear. Moreover, although several hypotheses have been advanced to explain virus-induced exacerbations, their mechanism remains unclear. Objectives: To determine the role of HRV in pediatric asthma exacerbations and the mechanisms mediating wheezing. Methods: We prospectively studied 409 children with asthma presenting with upper respiratory infection in the presence or absence of wheezing. Candidate viral and immune mediators of illness were compared among children with asthma with different degrees of severity of acute asthma. Measurements and Main Results: HRV infections specifically associated with asthma exacerbations, even after adjusting for relevant demographic and clinical variables defined a priori (odds ratio, 1.90; 95% confidence interval, 1.21-2.99; P ¼ 0.005). No difference in virus titers, HRV species, and inflammatory or allergic molecules was observed between wheezing and nonwheezing children infected with HRV. Type III IFN-l 1 levels were higher in wheezing children infected with HRV compared with nonwheezing (P , 0.001) and increased with worsening symptoms (P , 0.001). Moreover, after adjusting for IFN-l 1 , children with asthma infected with HRV were no longer more likely to wheeze than those who were HRV-negative (odds ratio, 1.18; 95% confidence interval, 0.57-2.46; P ¼ 0.66). Conclusions: Our findings suggest that HRV infections in children with asthma are specifically associated with acute wheezing, and that type III IFN-l 1 responses mediate exacerbations caused by HRV. Modulation of IFN-l 1 should be studied as a therapeutic target for exacerbations caused by HRV.Keywords: asthma; interferon-l; rhinovirus; children; asthma exacerbation Asthma exacerbations are the main cause of hospitalization in children, and occur in association with respiratory viral infections (1, 2). Human rhinoviruses (HRV) are frequently isolated in the upper airways of children during respiratory infections and during asthma attacks, and have been postulated to trigger these crises (3, 4). However, whether HRV are detected during asthma crises because they are the most frequent cause of upper respiratory infections (URI; which accompany asthma attacks), or because they can specifically elicit asthma exacerbations is unclear. To our knowledge, no pediatric study has compared the viral etiology of URI in patients with asthma with and without wheezing to investigate the specific association between HRV URI and asthma attacks.Several hypotheses have been advanced to explain the mechanisms that trigger asthma crises during respiratory infections (4-7). Focused mainly on HRV-associated episodes, two nonexclusive theories attribute asthma attacks to direct viral injury and immune-mediated exacerbations ...
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