Different passages of the vaccinia virus strain Ankara (CVA wild-type) during attenuation to MVA (modified vaccinia virus Ankara) have been analysed to detect alterations in the genome. Physical maps for the restriction enzymes HindlII and XhoI have been established. Six major deletions relative to the wildtype strain CVA could be localized. They reduce the size of the entire genome from 208 kb (CVA wild-type) to 177 kb for the MVA strain. Four deletions occurred during the first 382 passages and the resulting variant (CVA 382) displays an attenuated phenotype similar to that of the MVA strain. The deletions are located in both terminal fragments, affect two-thirds of the host range gene K1L and eliminate 3.5 kb of a highly conserved region in the HindlII A fragment. During the next 190 passages leading to MVA two additional deletions appeared. Again, one is located in the left terminal fragment, and the other includes the A-type inclusion body gene. Neither of the deletions appear to participate in further attenuation of the virus. Rescue of the partially deleted host range region with the corresponding wild-type DNA restored the ability of the attenuated strains MVA and CVA 382 to grow in some non-permissive tissue cultures. Nevertheless, the complete host range of the wild-type strain was not recovered. Also, plaque-forming behaviour and reduced virulence were not influenced. From the data presented it may be concluded that the partially deleted host range gene is not solely responsible for attenuation.
Although desirable for safety reasons, the host range restrictions of modified vaccinia virus Ankara (MVA) make it less applicable for general use. Propagation in primary chicken embryo fibroblasts (CEF) requires particular cell culture experience and has no pre-established record of tissue culture reproducibility. We investigated a variety of established cell lines for productive virus growth and recombinant gene expression. Baby hamster kidney cells (BHK), a well-characterized, easily maintained cell line, supported MVA growth and as proficient expression of the E. coli lacZ reporter gene as the highly efficient CEF, whereas other cell lines were non-permissive or allowed only very limited MVA replication. Importantly, no virus production occurred in patient-derived infected primary human cells. These results emphasize the safety and now improved accessibility of MVA for the development of expression vectors and live recombinant vaccines.
The dynamics of plasma viremia were explored in a group of 12 simian immunodeficiency virus (SIV)infected rhesus macaques (Macaca mulatta) that had received prior immunization with either nonrecombinant or trivalent (gag-pol, env) SIV-recombinant vaccinia viruses. Three distinct patterns of viral replication observed during and following primary viremia accounted for significant differences in survival times. Highlevel primary plasma viremia with subsequently increasing viremia was associated with rapid progression to AIDS (n ؍ 2). A high-level primary plasma virus load with a transient decline and subsequent progressive increase in viremia in the post-acute phase of infection was associated with progression to AIDS within a year (n ؍ 6). Low levels of primary plasma viremia followed by sustained restriction of virus replication were associated with maintenance of normal lymphocyte subsets and intact lymphoid architecture (n ؍ 4), reminiscent of the profile observed in human immunodeficiency virus type 1-infected long-term nonprogressors. Three of four macaques that showed this pattern had been immunized with an SIV recombinant derived from the attenuated vaccinia virus, modified vaccinia virus Ankara. These data link the dynamics and extent of virus replication to disease course and suggest that sustained suppression of virus promotes long-term, asymptomatic survival of SIV-infected macaques. These findings also suggest that vaccine modulation of host immunity may have profound beneficial effects on the subsequent disease course, even if sterilizing immunity is not achieved.
Recombinant vaccinia viruses are extremely valuable tools for research in molecular biology and immunology. The extension of vaccinia vector technology to replication-deficient and safety-tested virus strains such as modified vaccinia virus Ankara (MVA) have made this versatile eukaryotic expression system even more attractive for basic and clinical research. Here, we report on easily obtaining recombinant MVA using stringent growth selection on rabbit kidney RK-13 cells. We describe the construction and use of new MVA vector plasmids that carry an expression cassette of the vaccinia virus host range gene, K1L, as a transient selectable marker. These plasmids allow either stable insertion of additional recombinant genes into the MVA genome or precisely targeted mutagenesis of MVA genomic sequences. Repetitive DNA sequences flanking the K1L gene were designed to remove the marker gene from the viral genome by homologous recombination under nonselective growth conditions. The convenience of this new selection technique is demonstrated by isolating MVA recombinants that produce green fluorescent protein and by generating MVA deletion mutants.
Migration of leukocytes to the site of microbial infection is important for the development of effective host immunity. Recombinant modified vaccinia virus Ankara is frequently used as a viral vector vaccine in preclinical and clinical studies. In comparison to other vaccinia virus strains, modified vaccinia virus Ankara robustly induces chemokine expression and rapid attraction of leukocytes. In particular, chemokine (C-C motif) ligand 2 (CCL2) has been shown to be critical for leukocyte recruitment to the lung. In this study, MVA-induced CCL2 expression in murine macrophages was dependent on type I interferon receptor and not Toll-like receptor-2. The critical role of type I interferon receptor signaling for CCL2 production in the lung was confirmed in type I interferon receptor-deficient mice (Ifnar1(-/-)). In addition, comparing Ifnar1(-/-) and Ccl2(-/-) mice with wild-type mice, we observed a similar impairment in the recruitment of natural killer and T cells to the lung after intranasal infection with modified vaccinia virus Ankara. Conversely, neutrophil recruitment was not affected in Ifnar1(-/-) and Ccl2(-/-) mice. We conclude that type I interferons, besides their known antiviral properties, can initiate the recruitment and activation of leukocytes via induction of chemokine expression including CCL2.
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