Manabu Ato scite author profile

After pulmonary virus infection, virus-binding B cells ectopically accumulate in the lung. However, their contribution to protective immunity against reinfecting viruses remains unknown. Here, we show the phenotypes and protective functions of virus-binding memory B cells that persist in the lung following pulmonary infection with influenza virus. A fraction of virus-binding B-cell population in the lung expressed surface markers for splenic mature memory B cells (CD73, CD80, and CD273) along with CD69 and CXCR3 that are up-regulated on lung effector/memory T cells. The lung B-cell population with memory phenotype persisted for more than 5 mo after infection, and on reinfection promptly differentiated into plasma cells that produced virus-neutralizing antibodies locally. This production of local IgG and IgA neutralizing antibody was correlated with reduced virus spread in adapted hosts. Our data demonstrates that infected lungs harbor a memory B-cell subset with distinctive phenotype and ability to provide protection against pulmonary virus reinfection.

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Epidemiology of Pulmonary Nontuberculous Mycobacterial Disease, Japan1

Namkoong¹,

Kurashima²,

Morimoto³

et al. 2016

Emerg. Infect. Dis.

383

236

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The immunopathology of experimental visceral leishmaniasis

Kaye

Svensson

Ato

et al. 2004

Immunological Reviews

209

215

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Experimental murine infection with the parasites that cause human visceral leishmaniasis (VL) results in the establishment of infection in the liver, spleen, and bone marrow. In most strains of mice, parasites are eventually cleared from the liver, and hepatic resistance to infection results from a coordinated host response involving a broad range of effector and regulatory pathways targeted within defined tissue structures called granulomas. In contrast, parasites persist in the spleen and bone marrow by mechanisms that are less well understood. Parasite persistence is accompanied by the failure of granuloma formation and by a variety of pathologic changes, including splenomegaly, disruption of lymphoid tissue microarchitecture, and enhanced hematopoietic activity. Here, we review the salient features of these distinct tissue responses and highlight the varied roles that cytokines of the tumor necrosis factor family play in immunity to this infection. In addition, we also discuss recent studies aimed at understanding how splenomegaly affects the survival and function of memory cells specific for heterologous antigens, an issue of considerable importance for our understanding of the disease-associated increase in secondary infections characteristic of human VL.

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Highly Frequent Mutations in Negative Regulators of Multiple Virulence Genes in Group A Streptococcal Toxic Shock Syndrome Isolates

et al. 2010

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Streptococcal toxic shock syndrome (STSS) is a severe invasive infection characterized by the sudden onset of shock and multiorgan failure; it has a high mortality rate. Although a number of studies have attempted to determine the crucial factors behind the onset of STSS, the responsible genes in group A Streptococcus have not been clarified. We previously reported that mutations of csrS/csrR genes, a two-component negative regulator system for multiple virulence genes of Streptococcus pyogenes, are found among the isolates from STSS patients. In the present study, mutations of another negative regulator, rgg, were also found in clinical isolates of STSS patients. The rgg mutants from STSS clinical isolates enhanced lethality and impaired various organs in the mouse models, similar to the csrS mutants, and precluded their being killed by human neutrophils, mainly due to an overproduction of SLO. When we assessed the mutation frequency of csrS, csrR, and rgg genes among S. pyogenes isolates from STSS (164 isolates) and non-invasive infections (59 isolates), 57.3% of the STSS isolates had mutations of one or more genes among three genes, while isolates from patients with non-invasive disease had significantly fewer mutations in these genes (1.7%). The results of the present study suggest that mutations in the negative regulators csrS/csrR and rgg of S. pyogenes are crucial factors in the pathogenesis of STSS, as they lead to the overproduction of multiple virulence factors.

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Defective CCR7 expression on dendritic cells contributes to the development of visceral leishmaniasis

et al. 2002

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Interaction between dendritic cells (DCs) and T cells is essential for the generation of cell-mediated immunity. Here we show that DCs from mice with chronic Leishmania donovani infection fail to migrate from the marginal zone to the periarteriolar region of the spleen. Stromal cells were fewer, which was associated with loss of CCL21 and CCL19 expression. The residual stromal cells and endothelium produced sufficient CCL21 to direct the migration of DCs transferred from naïve mice. However, DCs from infected mice had impaired migration both in naïve recipients and in vitro, in response to CCL21 and CCL19. Defective localization was attributable to tumor necrosis factor-alpha-dependent, interleukin 10-mediated inhibition of CCR7 expression. Effective immunotherapy was achieved with CCR7-expressing DCs, without the need to identify protective Leishmania antigens. Thus defective DC migration plays a major role in the pathogenesis of this disease and the immunosuppression is mediated, at least in part, through the spatial segregation of DCs and T cells.

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Manabu Ato

Memory B cells in the lung participate in protective humoral immune responses to pulmonary influenza virus reinfection

Epidemiology of Pulmonary Nontuberculous Mycobacterial Disease, Japan1

The immunopathology of experimental visceral leishmaniasis

Highly Frequent Mutations in Negative Regulators of Multiple Virulence Genes in Group A Streptococcal Toxic Shock Syndrome Isolates

Defective CCR7 expression on dendritic cells contributes to the development of visceral leishmaniasis

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