Here, we studied how HBoV induces Th1-like (IFN-γ) and Th2-like Selumetinib manufacturer cytokine (IL-10 and IL-13) responses in asymptomatic adults. These responses were mediated by CD4-positive Th cells. We observed that among B19-seropositive
subjects, IFN-γ, IL-10 and IL-13 responses with HBoV and B19 VP2 VLP antigens were similar in magnitude. We found this surprising, as HBoV infections are acquired during the first years of life, and almost 100% of adults are seropositive [5, 22]. The epidemiology of B19 is different, and only about 50–70% of adults are seropositive [38, 39]. The magnitude of Th-cell responses is known to decline with time [24, 40], explaining why B19-specific proliferation responses were stronger than the HBoV-specific ones. Because some of our subjects nevertheless showed very strong HBoV-specific Th-cell reactivity, it is likely that HBoV-specific Th cells may be boosted after primary infection either with HBoV reinfections or with other, cross-reactive viruses [41].
We found B19 virus-specific response patterns to be statistically independent of each other, whereas a very strong interdependence was observed with HBoV. The reason for lack of the significance with B19 was that there were many individuals responding strongly with only one of the two parameters studied, not with its ‘pair’ (cytokine or proliferation response). These Alpelisib nmr types of responses were Cediranib (AZD2171) less abundant with HBoV, and therefore significant correlations were readily found with all the HBoV-specific response pairs. Therefore, at the collective level, B19-specific Th-cell immunity appears to be more divergent (in terms of cytokine response patterns) than the HBoV-specific one. This possibility needs to be studied further with B19- and HBoV-specific Th-cell lines and intracellular cytokine staining. Ours is the first in vitro study investigating B19- and HBoV-specific IL-13 immune responses in healthy individuals. IL-13 responses were detectable with both antigens. IL-13 is a multifunctional
cytokine [32], and there are ample data to suggest that IL-13 is an important contributor to respiratory symptoms and pathology including asthma [32, 42]. Interestingly, Christelle et al. recently proposed that HBoV is linked with asthma exacerbations in young children [43]. We propose that studying HBoV-specific IL-13 responses in (young) asthmatics and in age-matched control group might further elucidate the possible role of HBoV in asthma. We are grateful to all voluntary members for donating blood samples and Sari Pakkanen (Department of Bacteriology and Immunology, University of Helsinki) for sample collection. This study was supported by Helsinki University Central Hospital Research and Education Fund, the Academy of Finland (project 1122539), the Sigrid Jusélius Foundation, the Medical Society of Finland (FLS) and the Centre for International Mobility (CIMO).