Dendritic cells (DCs) play crucial roles in innate and adaptive immune responses, rendering them critical targets for virus infections. Porcine circovirus type 2 (PCV2) is associated with the development of postweaning multisystemic wasting syndrome (PMWS) in piglets. We demonstrate here that 80 to 90% of monocyte-derived and bone marrow-derived DCs interact with PCV2 similar to the early stages of an infection. There was no evidence for virus replication, but the virus did persist in DCs without loss of infectivity nor the induction of cell death. This could reflect an abortive infection, but there was no evidence of virus uncoating-the infectivity remained intact for at least 5 days. Alternatively, the results may reflect DC endocytosis of antigenic material. However, there was no modulation of DC surface major histocompatibility complex class I and class II, CD80/86, CD25, CD16, or CD14. Furthermore, infected DC did not transmit virus to syngeneic T lymphocytes, even when the latter were activated. Such coculture did not induce PCV2 replication or death of the lymphocytes or DCs. These results demonstrate that PCV2 can persist in DCs in the absence of virus replication or degradation. Such a silent virus infection presents a novel mechanism of not only immune evasion but also escaping the DC degradation pathway. Because of their migratory capacity, infection of DCs thus provides a potent vehicle for transport of the virus throughout the host without the need for replication. In addition, the lymphopenia seen in PMWS is not a direct effect of the virus on lymphocytes but would require additional events, as proposed by others.
Calretinin-22k (CR-22k. Together, our data suggest the presence of an allosteric conformational unit encompassing sites I-III for CR-22k and I-IV for CR, with a very similar conformation and conformational changes for both proteins. In the allosteric unit of CR, site IV is fully active, whereas in CR-22k this site has a 80-fold decreased affinity, due to the decreased amphiphilic properties of the C-terminal helix of this site. Some very specific Ca 2؉ -dependent conformational changes suggest that both CR and CR-22k belong to the "sensor"-type family of Ca 2؉ -binding proteins.
Summary
Viral interactions with dendritic cells (DCs) have important consequences for immune defence function. Certain single‐stranded DNA viruses that associate with a number of species, including humans and pigs, exhibit interesting characteristics in this context. Porcine circovirus type 2 (PCV2) can persist within myeloid DCs in the absence of virus replication. Internalization was observed with both conventional blood DCs and plasmacytoid DCs [natural interferon‐producing cells (NIPCs)], as well as DC precursors. This PCV2–DC interaction neither induced nor inhibited DC differentiation. The maturation of myeloid DCs induced by a cocktail of interferon‐α/tumour necrosis factor‐α (IFN‐α/TNF‐α), and the ability to process and present antigen to T lymphocytes, remained intact in the presence of PCV2. The virus was clearly internalized by the DCs, a process noted with both mature and immature cells. This suggested a non‐macropinocytic uptake, confirmed by an insensitivity to wortmannin but sensitivity to cytochalasin D, chlorpromazine and bafilomycin. Nevertheless, PCV2 was immunomodulatory, being effected through the reaction of NIPC to danger signals. When NIPCs responded to the CpG‐oligonucleotide (CpG‐ODN), their costimulatory function which induces myeloid DC maturation was clearly impaired by the presence of PCV2. This was caused by a PCV2‐induced inhibition of the IFN‐α and TNF‐α normally produced following interaction with CpG‐ODN. Thus, the immunomodulatory activity of PCV2 is mediated through the disruption of NIPC function. This would impair the maturation of associated myeloid DC and have major implications for the efficient recognition of viral and bacterial danger signals, favouring the establishment of infections additional to that of PCV2.
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