Interpretation of the viral pathogenicity data employing mAb 67 1

Interpretation of the viral pathogenicity data employing mAb 67.11 is further complicated by the fact that even in the in vitro DAA assay, its effect was a relatively modest one. A closer look at the data however show that mAb 67.5, despite having comparatively poor DAA inhibitory activity than 67.9, is equally efficient in inhibiting the AZD6244 manufacturer lesion formation. Moreover, both these antibodies display similar affinities for VCP (Fig. 1 and Table 1). Thus, it is likely that cofactor activity is a major contributor to VCP-mediated enhancement of

VACV pathogenesis. Monkeypox virus strains like Central African (Congo basin) strain encodes a complement regulator (ORF D14L), while the West African strain lacks this protein [28]. A comparison of the West African strain versus the Congo basin strain shows the latter to be more virulent than the former [28] suggesting that complement evasion may play a role in poxvirus pathogenesis. Intriguingly, the Congo basin strain encodes

a protein (MOPICE) that contains only cofactor activity and lack the decay activity [21]. Thus, these observations also provide support to our proposal that the cofactor activity of VCP could play a major role in the poxvirus pathogenesis. Although smallpox has been eradicated from the globe, the recent upsurge in terrorism has increased the concern of usage of variola virus as a biological weapon and has resulted in development of new generation vaccines [11]. The important question therefore is should VCP be present in the Oxygenase new generation vaccine vectors? We show here that disabling of complement UMI-77 regulatory activities of VCP by neutralizing mAbs result in reduction of VACV lesion size in rabbits and this reduction is dependent on the presence of host complement (Fig. 6). Although our study does not define the mechanism responsible for this, clearly there are two possibilities: (i) the lack of VCP-mediated host complement regulation could result in complement-mediated neutralization of VACV in the presence of antibodies that are produced against

VACV during the infection and (ii) the lack of VCP-mediated complement regulation could enhance the protective immune response against VACV. Both these probabilities have been established by earlier studies. In support of the first possibility, in vitro studies have shown that complement has the ability to neutralize both MV [36] and [37] and EV [37] in the presence of anti-VACV antibodies. And an in vivo study has demonstrated complement to be protective against poxvirus infection [58]. Similarly, in support of the second alternative, a recent study has elegantly shown that infection of VCP-null VACV in mice results in enhanced T cells at the site of infection, enhanced neutralizing antibody responses and reduced viral titers [38].

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