Brigitte Rupp scite author profile

Understanding the mechanisms that help promote protective immune responses to pathogens is a major challenge in biomedical research and an important goal for the design of innovative therapeutic or vaccination strategies. While natural killer (NK) cells can directly contribute to the control of viral replication, whether, and how, they may help orchestrate global antiviral defense is largely unknown. To address this question, we took advantage of the well-defined molecular interactions involved in the recognition of mouse cytomegalovirus (MCMV) by NK cells. By using congenic or mutant mice and wild-type versus genetically engineered viruses, we examined the consequences on antiviral CD8 T cell responses of specific defects in the ability of the NK cells to control MCMV. This system allowed us to demonstrate, to our knowledge for the first time, that NK cells accelerate CD8 T cell responses against a viral infection in vivo. Moreover, we identify the underlying mechanism as the ability of NK cells to limit IFN-α/β production to levels not immunosuppressive to the host. This is achieved through the early control of cytomegalovirus, which dramatically reduces the activation of plasmacytoid dendritic cells (pDCs) for cytokine production, preserves the conventional dendritic cell (cDC) compartment, and accelerates antiviral CD8 T cell responses. Conversely, exogenous IFN-α administration in resistant animals ablates cDCs and delays CD8 T cell activation in the face of NK cell control of viral replication. Collectively, our data demonstrate that the ability of NK cells to respond very early to cytomegalovirus infection critically contributes to balance the intensity of other innate immune responses, which dampens early immunopathology and promotes optimal initiation of antiviral CD8 T cell responses. Thus, the extent to which NK cell responses benefit the host goes beyond their direct antiviral effects and extends to the prevention of innate cytokine shock and to the promotion of adaptive immunity.

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Role of human cytomegalovirus UL131A in cell type-specific virus entry and release

Adler

et al. 2006

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The human cytomegalovirus (HCMV) genes UL128, UL130 and UL131A are essential for endothelial cell infection. Complementation of the defective UL131A gene of the non-endotheliotropic HCMV strain AD169 with wild-type UL131A in cis in an ectopic position restored endothelial cell tropism. The UL131A protein was found in virions in a complex with gH. Coinfection of fibroblasts with UL131A-negative and -positive viruses restored the endothelial cell tropism of UL131A-negative virions by complementing the virions with UL131A protein. Virus entry into endothelial cells, but not into fibroblasts, was blocked by an antipeptide antiserum to pUL131A. AD169, cis-complemented with wild-type UL131A, showed an impaired release of infectious particles from fibroblasts. A comparable defect in virus release was observed when UL131A was expressed ectopically in a virus background already expressing an intact copy of UL131A. In contrast, virus release from infected endothelial cells was not affected by UL131A. These data suggest a dual role for pUL131A in virus entry and virus exit from infected cells.

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Conditional Cytomegalovirus Replication In Vitro and In Vivo

Rupp

Ruzsics

Sacher

et al. 2005

J Virol

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We have established a conditional gene expression system for cytomegalovirus which allows regulation of genes independently from the viral replication program. Due to the combination of all elements required for regulated expression in the same viral genome, conditional viruses can be studied in different cell lines in vitro and in the natural host in vivo. The combination of a self-sufficient tetracycline-regulated expression cassette and Flp recombinase-mediated insertion into the viral genome allowed fast construction of recombinant murine cytomegaloviruses carrying different conditional genes. The regulation of two reporter genes, the essential viral M50 gene and a dominant-negative mutant gene (m48.2) encoding the small capsid protein, was analyzed in more detail. In vitro, viral growth was regulated by the conditional expression of M50 by 3 orders of magnitude and up to a millionfold when the dominant-negative small capsid protein mutant was used. In vivo, viral growth of the dominant-negative mutant was reduced to detection limits in response to the presence of doxycycline in the organs of mice. We believe that this conditional expression system is applicable to genetic studies of large DNA viruses in general.

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Random Screening for Dominant-Negative Mutants of the Cytomegalovirus Nuclear Egress Protein M50

Rupp

Ruzsics

Buser

et al. 2007

J Virol

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Inactivation of gene products by dominant-negative (DN) mutants is a powerful tool to assign functions to proteins. Here, we present a two-step procedure to establish a random screen for DN alleles, using the essential murine cytomegalovirus gene M50 as an example. First, loss-of-function mutants from a linker-scanning library were tested for inhibition of virus reconstitution with the help of FLP-mediated ectopic insertion of the mutants into the viral genome. Second, DN candidates were confirmed by conditional expression of the inhibitory proteins in the virus context. This allowed the quantification of the inhibitory effect, the identification of the morphogenesis block, and the construction of DN mutants with improved activity. Based on these observations a DN mutant of the homologous gene (UL50) in human cytomegalovirus was predicted and constructed. Our data suggest that a proline-rich sequence motif in the variable region of M50/UL50 represents a new functional site which is essential for nuclear egress of cytomegalovirus capsids.

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Reversible expression of tryptases in continuous L138.8A mast cells

2000

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It has been established that mast cells can alter their expression of granule chymases and tryptases in vivo. In vitro, a reversible cytokine regulation has so far only been demonstrated for chymases. We now show a reversible and cytokine‐regulated expression of the tryptases MMCP‐6 and MMCP‐7 and of the chymases MMCP‐1, MMCP‐2 and MMCP‐4 in the continuous murine mast cell line L138.8A. The L138.8A mast cells lacked expression of mRNA for mast cell‐specific proteases when cultured in IL‐3, and only 49% and 41% of the cells were c‐kit+ and FcϵRI+, respectively, by flow cytometry. Kit‐ligand/stem cell factor induced synthesis of the chymase MMCP‐4 and the tryptases MMCP‐6 and MMCP‐7 and increased the fraction of c‐kit+ and FcϵRI+ L138.8A cells to >70%. Kit‐ligand‐induced tryptase expression was suppressed in the presence of IL‐3 or IL‐9, and reversed after withdrawal of kit‐ligand. IL‐9 or IL‐3/IL‐10 promoted the formation of Alcian blue+ granules and increased the fraction of c‐kit+ and FcϵRI+ L138.8A cells to >90%. IL‐9 further induced the expression of the chymases MMCP‐1, MMCP‐2 and MMCP‐4. Thus, the immature mast cell line L138.8A has the capacity to modulate both tryptase and chymase expression and represents the first model system to analyze the molecular regulation of tryptase expression in vitro.

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Brigitte Rupp

Natural Killer Cells Promote Early CD8 T Cell Responses against Cytomegalovirus

Role of human cytomegalovirus UL131A in cell type-specific virus entry and release

Conditional Cytomegalovirus Replication In Vitro and In Vivo

Random Screening for Dominant-Negative Mutants of the Cytomegalovirus Nuclear Egress Protein M50

Reversible expression of tryptases in continuous L138.8A mast cells

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