Maria Regina D’Império Lima scite author profile

The spleen is one of the major immunological sites for maintaining blood homeostasis. Previous studies showed that heterogeneous splenic macrophage populations contribute in complimentary ways to control blood-borne infections and induce effective immune responses. Marginal metallophilic macrophages (MMMΦs) and marginal zone macrophages (MZMΦs) are cells with great ability to internalize blood-borne pathogens such as virus or bacteria. Their localization adjacent to T- and B-cell-rich splenic areas favors the rapid contact between these macrophages and cells from adaptive immunity. Indeed, MMMΦs and MZMΦs are considered important bridges between innate and adaptive immunity. Although red pulp macrophages (RpMΦs) are mainly considered scavengers for senescent erythrocytes, several data indicate a role for RpMΦs in control of infections such as blood-stage malaria as well as in the induction of innate and adaptive immunity. Here, we review current data on how different macrophage subsets recognize and help eliminate blood-borne pathogens, and, in turn, how the inflammatory microenvironment in different phases of infection (acute, chronic, and after pathogen clearance) influences macrophage function and survival.

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Polyclonal Lymphocyte Responses to Murine Trypanosoma cruzi Infection

Minóprio

et al. 1986

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Lymphoid activity was studied in spleen and lymph node cells from Trypanosoma cruzi-infected mice. Blast transformation in each lymphocyte class was assessed by dual parameter analysis for size and surface markers by both FACS and conventional immunofluorescence, while proliferative activity was measured by tritiated thymidine uptake, autoradiography, and analysis of DNA content in single cells. Acute infection results in rapid blast transformation and proliferative activity of all three lymphocyte classes (Ig+, L3T4+, and Lyt 2+). At 2 weeks of infection most cells in these organs are enlarged and more than half are dividing. By 2 and 6 months after infection (chronic phase of resistant strains), large numbers of activated B lymphocytes and, to a lesser extent, of Lyt 2+ T cells are still detected. Similar results were obtained in C57BL/6 (resistant) and C3H/HeJ (susceptible) mouse strains. The implications of this massive polyclonal lymphocyte response to the parasite for the physiopathology of acute and chronic infection are discussed.

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Predictive Criteria to Study the Pathogenesis of Malaria-Associated ALI/ARDS in Mice

Ortolan

Sercundes

Barboza

et al. 2014

Mediators of Inflammation

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Malaria-associated acute lung injury/acute respiratory distress syndrome (ALI/ARDS) often results in morbidity and mortality. Murine models to study malaria-associated ALI/ARDS have been described; we still lack a method of distinguishing which mice will develop ALI/ARDS before death. This work aimed to characterize malaria-associated ALI/ARDS in a murine model and to demonstrate the first method to predict whether mice are suffering from ALI/ARDS before death. DBA/2 mice infected with Plasmodium berghei ANKA developing ALI/ARDS or hyperparasitemia (HP) were compared using histopathology, PaO2 measurement, pulmonary X-ray, breathing capacity, lung permeability, and serum vascular endothelial growth factor (VEGF) levels according to either the day of death or the suggested predictive criteria. We proposed a model to predict malaria-associated ALI/ARDS using breathing patterns (enhanced pause and frequency respiration) and parasitemia as predictive criteria from mice whose cause of death was known to retrospectively diagnose the sacrificed mice as likely to die of ALI/ARDS as early as 7 days after infection. Using this method, we showed increased VEGF levels and increased lung permeability in mice predicted to die of ALI/ARDS. This proposed method for accurately identifying mice suffering from ALI/ARDS before death will enable the use of this model to study the pathogenesis of this disease.

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Influence of Acute-Phase Parasite Load on Pathology, Parasitism, and Activation of the Immune System at the Late Chronic Phase of Chagas’ Disease

Marinho¹,

Lima²,

Grisotto

et al. 1999

Infect Immun

121

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To obtain low and high parasite loads in the acute phase of Chagas’ disease, A/J mice were infected with 103 or 105 Trypanosoma cruzi trypomastigotes of the Y strain and treated on day 6 with benznidazol. One year later, chronically infected mice were screened for subpatent parasitemias, tissue pathology, and immune response. Mice infected with the high parasite inoculum showed higher levels of chronic parasitemias, heart and striated muscle inflammation, and activation of the immune system than did mice infected with the low inoculum. Concerning the activation of the immune system, the main findings for high-dose-infected mice were (i) increased numbers of splenocytes, with preferential expansion of CD8+ and B220− CD5− cells, many of them bearing a macrophage phenotype; (ii) higher frequencies of B (B220+), CD4+, and CD8+ large lymphocytes; (iii) a shift of CD4+ cells towards a CD45RBLow phenotype; (iv) increased frequencies of both CD45RBLow and CD45RBHigh large CD4+cells; (v) augmented numbers of total immunoglobulin (Ig)-secreting cells, with predominance of IgG2a-producing cells; and (vi) increased production of gamma interferon and interleukin 4. In addition, these mice presented lower IgM and higher IgG2a and IgG1 parasite-specific serum antibody levels. Our results indicate that the parasite load at the acute phase of T. cruzi infection influences the activation of the immune system and development of Chagas’ disease pathology at the late chronic phase of the disease.

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Cytosolic flagellin-induced lysosomal pathway regulates inflammasome-dependent and -independent macrophage responses

Lage

Buzzo

Amaral³

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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NAIP5/NLRC4 (neuronal apoptosis inhibitory protein 5/nucleotide oligomerization domain-like receptor family, caspase activation recruitment domain domain-containing 4) inflammasome activation by cytosolic flagellin results in caspase-1-mediated processing and secretion of IL-1β/IL-18 and pyroptosis, an inflammatory cell death pathway. Here, we found that although NLRC4, ASC, and caspase-1 are required for IL-1β secretion in response to cytosolic flagellin, cell death, nevertheless, occurs in the absence of these molecules. Cytosolic flagellin-induced inflammasome-independent cell death is accompanied by IL-1α secretion and is temporally correlated with the restriction of Salmonella Typhimurium infection. Despite displaying some apoptotic features, this peculiar form of cell death do not require caspase activation but is regulated by a lysosomal pathway, in which cathepsin B and cathepsin D play redundant roles. Moreover, cathepsin B contributes to NAIP5/NLRC4 inflammasome-induced pyroptosis and IL-1α and IL-1β production in response to cytosolic flagellin. Together, our data describe a pathway induced by cytosolic flagellin that induces a peculiar form of cell death and regulates inflammasome-mediated effector mechanisms of macrophages.

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