Apoptotic CD8 T-lymphocytes disable macrophage-mediated immunity to Trypanosoma cruzi infection

Cabral-Piccin, Mariela Pires; Guillermo, Landi V. C.; Vellozo, Natália S.; Filardy, Alessandra A.; Pereira-Marques, Sâmara T; Rigoni, Thaís S; Pereira-Manfro, Wânia F.; DosReis, George A.; Lopes, Marcela F.

doi:10.1038/cddis.2016.135

Cited by 21 publications

(35 citation statements)

References 56 publications

(83 reference statements)

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“…We found that neutrophils exposed to both isolates display higher percentage of apoptosis compared with non-infected ones. Interestingly, Freire-de-Lima and colleagues demonstrated that macrophages in contact with apoptotic cells favor the intracellular parasite growth and increase parasitemia [ 44 , 45 ]. More recently, it was demonstrated that apoptotic neutrophils increase T .…”

Section: Discussionmentioning

confidence: 99%

“…cruzi replication in macrophages. They also showed that blocking apoptosis through anti-FasL treatment can restrict parasite growth and increase NO production [ 45 ]. Our analysis also showed that the higher the intensity of CFSE expression, indicating interaction with a higher number of parasites, the higher the expression of cytokines and the occurrence of apoptosis.…”

Section: Discussionmentioning

confidence: 99%

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Distinct Trypanosoma cruzi isolates induce activation and apoptosis of human neutrophils

et al. 2017

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Neutrophils are critical players in the first line of defense against pathogens and in the activation of subsequent cellular responses. We aimed to determine the effects of the interaction of Trypanosoma cruzi with human neutrophils, using isolates of the two major discrete type units (DTUs) associated with Chagas’ disease in Latin America (clone Col1.7G2 and Y strain, DTU I and II, respectively). Thus, we used CFSE-stained trypomastigotes to measure neutrophil-T. cruzi interaction, neutrophil activation, cytokine expression and death, after infection with Col1.7G2 and Y strain. Our results show that the frequency of CFSE+ neutrophils, indicative of interaction, and CFSE intensity on a cell-per-cell basis were similar when comparing Col1.7G2 and Y strains. Interaction with T. cruzi increased neutrophil activation, as measured by CD282, CD284, TNF and IL-12 expression, although at different levels between the two strains. No change in IL-10 expression was observed after interaction of neutrophils with either strain. We observed that exposure to Y and Col1.7G2 caused marked neutrophil death. This was specific to neutrophils, since interaction of either strain with monocytes did not cause death. Our further analysis showed that neutrophil death was a result of apoptosis, which was associated with an upregulation of TNF-receptor, TNF and FasLigand, but not of Fas. Induction of TNF-associated neutrophil apoptosis by the different T. cruzi isolates may act as an effective common mechanism to decrease the host’s immune response and favor parasite survival.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Distinct Trypanosoma cruzi isolates induce activation and apoptosis of human neutrophils

et al. 2017

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“…Mouse experiments support the concept that phagocyte uptake of apoptotic T lymphocytes results in the establishment of an anti-inflammatory response dictated by TGF-β and prostaglandin PGE2 that fuels parasite persistence and disease ( 126 ). Treatment of T. cruzi infected mice with inhibitors of apoptosis reversed the anti-inflammatory phenotype and reduced ex vivo parasite replication ( 123 , 127 ), consistent with efferocytosis of apoptotic cells reducing macrophage anti-parasite activity and enhancing parasite persistence and disease.…”

Section: Efferocytosis In Pathogen Control and Its Subversion By Pathmentioning

confidence: 62%

“…Trypanosma cruzi infection induces lymphocyte apoptosis in both experimentally infected mice ( 122 , 123 ) and infected humans ( 124 ), and disease severity correlated with the degree of ex vivo apoptosis observed ( 124 , 125 ). Mouse experiments support the concept that phagocyte uptake of apoptotic T lymphocytes results in the establishment of an anti-inflammatory response dictated by TGF-β and prostaglandin PGE2 that fuels parasite persistence and disease ( 126 ).…”

Section: Efferocytosis In Pathogen Control and Its Subversion By Pathmentioning

confidence: 98%

Efferocytosis of Pathogen-Infected Cells

Karaji

Sattentau

2017

Front. Immunol.

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The prompt and efficient clearance of unwanted and abnormal cells by phagocytes is termed efferocytosis and is crucial for organism development, maintenance of tissue homeostasis, and regulation of the immune system. Dying cells are recognized by phagocytes through pathways initiated via “find me” signals, recognition via “eat me” signals and down-modulation of regulatory “don’t eat me” signals. Pathogen infection may trigger cell death that drives phagocytic clearance in an immunologically silent, or pro-inflammatory manner, depending on the mode of cell death. In many cases, efferocytosis is a mechanism for eliminating pathogens and pathogen-infected cells; however, some pathogens have subverted this process and use efferocytic mechanisms to avoid innate immune detection and assist phagocyte infection. In parallel, phagocytes can integrate signals received from infected dying cells to elicit the most appropriate effector response against the infecting pathogen. This review focuses on pathogen-induced cell death signals that drive infected cell recognition and uptake by phagocytes, and the outcomes for the infected target cell, the phagocyte, the pathogen and the host.

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“…TGF-β promotes in macrophages the L -arginine metabolism by arginase to synthesize polyamines which functions as a growth factor for parasites ( 66 ). Another work found that blocking apoptosis of CD8 + T cells in cocultures, infected macrophages increase NO levels and M1 features leading to restrict intracellular parasite growth ( 67 ). In addition, while coculture of apoptotic neutrophils induce an M2-like phenotype in infected macrophages, live neutrophils via elastase induce M1 macrophages with NO and TNF production that allow to control T. cruzi replication ( 68 ).…”

Section: Relevance To Cardiovascular Pathologiesmentioning

confidence: 99%

New Insights into the Immunobiology of Mononuclear Phagocytic Cells and Their Relevance to the Pathogenesis of Cardiovascular Diseases

et al. 2018

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Macrophages are the primary immune cells that reside within the myocardium, suggesting that these mononuclear phagocytes are essential in the orchestration of cardiac immunity and homeostasis. Independent of the nature of the injury, the heart triggers leukocyte activation and recruitment. However, inflammation is harmful to this vital terminally differentiated organ with extremely poor regenerative capacity. As such, cardiac tissue has evolved particular strategies to increase the stress tolerance and minimize the impact of inflammation. In this sense, growing evidences show that mononuclear phagocytic cells are particularly dynamic during cardiac inflammation or infection and would actively participate in tissue repair and functional recovery. They respond to soluble mediators such as metabolites or cytokines, which play central roles in the timing of the intrinsic cardiac stress response. During myocardial infarction two distinct phases of monocyte influx have been identified. Upon infarction, the heart modulates its chemokine expression profile that sequentially and actively recruits inflammatory monocytes, first, and healing monocytes, later. In the same way, a sudden switch from inflammatory macrophages (with microbicidal effectors) toward anti-inflammatory macrophages occurs within the myocardium very shortly after infection with Trypanosoma cruzi, the causal agent of Chagas cardiomyopathy. While in sterile injury, healing response is necessary to stop tissue damage; during an intracellular infection, the anti-inflammatory milieu in infected hearts would promote microbial persistence. The balance of mononuclear phagocytic cells seems to be also dynamic in atherosclerosis influencing plaque initiation and fate. This review summarizes the participation of mononuclear phagocyte system in cardiovascular diseases, keeping in mind that the immune system evolved to promote the reestablishment of tissue homeostasis following infection/injury, and that the effects of different mediators could modulate the magnitude and quality of the immune response. The knowledge of the effects triggered by diverse mediators would serve to identify new therapeutic targets in different cardiovascular pathologies.

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Apoptotic CD8 T-lymphocytes disable macrophage-mediated immunity to Trypanosoma cruzi infection

Cited by 21 publications

References 56 publications

Distinct Trypanosoma cruzi isolates induce activation and apoptosis of human neutrophils

Distinct Trypanosoma cruzi isolates induce activation and apoptosis of human neutrophils

Efferocytosis of Pathogen-Infected Cells

New Insights into the Immunobiology of Mononuclear Phagocytic Cells and Their Relevance to the Pathogenesis of Cardiovascular Diseases

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