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9 results on '"Rosas, Marcela"'

1. Tissue‐resident macrophages actively suppress IL‐1beta release via a reactive prostanoid/IL‐10 pathway.

Author

Ipseiz, Natacha, Pickering, Robert J, Rosas, Marcela, Tyrrell, Victoria J, Davies, Luke C, Orr, Selinda J, Czubala, Magdalena A, Fathalla, Dina, Robertson, Avril AB, Bryant, Clare E, O'Donnell, Valerie, and Taylor, Philip R

Subjects
PERITONEAL macrophages, MACROPHAGES, MOLECULAR recognition, INFLAMMATION, PROSTACYCLIN, TRANSCRIPTION factors
Abstract

The alarm cytokine interleukin‐1β (IL‐1β) is a potent activator of the inflammatory cascade following pathogen recognition. IL‐1β production typically requires two signals: first, priming by recognition of pathogen‐associated molecular patterns leads to the production of immature pro‐IL‐1β; subsequently, inflammasome activation by a secondary signal allows cleavage and maturation of IL‐1β from its pro‐form. However, despite the important role of IL‐1β in controlling local and systemic inflammation, its overall regulation is still not fully understood. Here we demonstrate that peritoneal tissue‐resident macrophages use an active inhibitory pathway, to suppress IL‐1β processing, which can otherwise occur in the absence of a second signal. Programming by the transcription factor Gata6 controls the expression of prostacyclin synthase, which is required for prostacyclin production after lipopolysaccharide stimulation and optimal induction of IL‐10. In the absence of secondary signal, IL‐10 potently inhibits IL‐1β processing, providing a previously unrecognized control of IL‐1β in tissue‐resident macrophages. Synopsis: The interleukin‐1β (IL‐1β) is a potent cytokine, present in the early stages of inflammation and playing a role in autoinflammatory syndromes. Its production requires two independent signals, the first leading to the production of its pro‐form (pro‐IL‐1β) and the second to its maturation and release. Here we identified an additional mechanism, actively suppressing IL‐1β production, thereby contributing to the control of inflammation. In response to inflammatory signals (lipopolysaccharide), resident peritoneal macrophages engage ata6‐dependant prostacyclin (PGI2) production.PGI2 signals back to the macrophages to induce IL‐10 production.IL‐10 actively blocks IL‐1β processing.In the absence of a secondary signal, the lack of either PGI2 or IL‐10 is sufficient to trigger IL‐1β maturation and release. [ABSTRACT FROM AUTHOR]

Published
2020
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2. IL-10 differentially controls the infiltration of inflammatory macrophages and antigen-presenting cells during inflammation.

Author

Liao, Chia‐Te, Rosas, Marcela, Davies, Luke C., Giles, Peter J., Tyrrell, Victoria J., O'Donnell, Valerie B., Topley, Nicholas, Humphreys, Ian R., Fraser, Donald J., Jones, Simon A., and Taylor, Philip R.

Abstract

The inflammatory activation and recruitment of defined myeloid populations is essential for controlling the bridge between innate and adaptive immunity and shaping the immune response to microbial challenge. However, these cells exhibit significant functional heterogeneity and the inflammatory signals that differentially influence their effector characteristics are poorly characterized. In this study, we defined the phenotype of discrete subsets of effective antigen-presenting cells (APCs) in the peritoneal cavity during peritonitis. When the functional properties of these cells were compared to inflammatory monocyte-derived macrophages we noted differential responses to the immune-modulatory cytokine IL-10. In contrast to the suppressive actions of IL-10 on inflammatory macrophages, the recruitment of APCs was relatively refractory and we found no evidence for selective inhibition of APC differentiation. This differential response of myeloid cell subsets to IL-10 may thus have limited impact on development of potentially tissue-damaging adaptive immune responses, while restricting the magnitude of the inflammatory response. These findings may have clinical relevance in the context of peritoneal dialysis patients, where recurrent infections are associated with immune-mediated membrane dysfunction, treatment failure, and increased morbidity. [ABSTRACT FROM AUTHOR]

Published
2016
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3. Macrophage heterogeneity and acute inflammation.

Author

Liddiard, Kate, Rosas, Marcela, Davies, Luke C., Jones, Simon A., and Taylor, Philip R.

Abstract

In this Viewpoint, we concentrate on the aspects of macrophage biology that we believe are fundamental for an appropriate contextual understanding of macrophage function during acute inflammation. These are the different origins of macrophage populations (and the implications of this for the renewal of these populations in the adult); and the impact of specific homeostatic or disease-associated microenvironments upon cellular heterogeneity, activation and effector functions. [ABSTRACT FROM AUTHOR]

Published
2011
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4. A quantifiable proliferative burst of tissue macrophages restores homeostatic macrophage populations after acute inflammation.

Author

Davies, Luke C., Rosas, Marcela, Smith, Paul J., Fraser, Donald J., Jones, Simon A., and Taylor, Philip R.

Abstract

Macrophage (MØ) biology is routinely modelled in the peritoneal cavity, a vascular tissue readily infiltrated by leukocytes during inflammation. After several decades of study, no consensus has emerged regarding the importance of in situ proliferation versus peripheral monocyte recruitment for the maintenance of tissue resident MØs. By applying specific measures of mitosis, we have monitored tissue MØ proliferation during newborn development, adulthood and acute resolving inflammation in young adult mice. Despite the vascular nature of the tissue and ease of peripheral leukocyte entry, tissue MØs in the newborn increase in number by local proliferation. On the contrary, in the adult, tissue MØ proliferation is considerably reduced and most likely provides homeostatic control of cell numbers. Importantly, during an acute inflammatory response, when substantial numbers of inflammatory MØs are recruited from the circulation, tissue-resident MØs survive and then undergo a transient and intense proliferative burst in situ to repopulate the tissue. Our data indicate that local proliferation is a general mechanism for the self-sufficient renewal of tissue MØs during development and acute inflammation and not one restricted to non-vascular tissues, which has implications for the therapeutic modulation of MØ activity during the resolution of inflammation. [ABSTRACT FROM AUTHOR]

Published
2011
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5. In vivo functional analysis and genetic modification of in vitro-derived mouse neutrophils.

Author

McDonald, Jacqueline U., Cortini, Andrea, Rosas, Marcela, Fossati-Jimack, Liliane, Ling, Guang Sheng, Lewis, Kimberley J., Dewitt, Sharon, Liddiard, Kate, Brown, Gordon D., Jones, Simon A., Hallett, Maurice B., Botto, Marina, and Taylor, Philip R.

Subjects
NEUTROPHILS, INFLAMMATION, TRANSGENIC organisms, CONDITIONAL immortality, ANIMAL models in research
Abstract

Mature neutrophils are notoriously shortlived immune cells that cannot be genetically manipulated. Analysis of gene function therefore requires genetically modified animals, which is expensive, time-consuming, and costly in animal life. Analysis of gene function in neutrophils in a physiologically relevant context thus represents a significant problem in the field. We sought to overcome this obstruction in the field by developing a strategy for the analysis of gene function in neutrophils in a physiologically relevant context. Here, we demonstrate the functional relevance of in vitro conditional-Hoxb8 immortalized precursor-derived neutrophils. In vitro-derived neutrophils functionally resembled primary neutrophils, but critically, neutrophils generated in this way can be adoptively transferred into live animals and tracked during inflammatory responses using single-cell analysis to define functional attributes. We have validated this approach using CD11b-deficient neutrophils and replicated the key findings observed in gene-targeted animals and in naturally CD11b-deficient humans. Furthermore, we show that by retroviral transduction, one can generate stable alterations in the precursor cell lines and thus a continuous supply of functionally altered neutrophils. This novel technological advance offers for the first time the possibility of applying higher-throughput genetic modification and in vivo functional analysis to the neutrophil-lineage. [ABSTRACT FROM AUTHOR]

Published
2011
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8. Cytokine mediated suppression of TF-1 apoptosis requires PI3K activation and inhibition of Bim expression

Author

Rosas, Marcela, Birkenkamp, Kim U., Lammers, Jan-Willem J., Koenderman, Leo, and Coffer, Paul J.

Subjects
*CELLULAR immunity, *PROTEIN kinases, *CELL culture, *TRANSCRIPTION factors
Abstract

Abstract: Phosphatidylinositol 3-kinase (PI3K) and its effector protein kinase B (PKB/c-akt) have been implicated as critical mediators of cytokine-induced survival signals. In this study, we have utilized an IL-5 dependent hematopoietic cell line (TF-1) to investigate the signaling events involved in cytokine-dependent erythroblast survival. We demonstrate that IL-5 rescues TF-1 cells from apoptosis through a PI3K/PKB-dependent signaling pathway. Cytokine-withdrawal leads to activation of the Forkhead transcription factor FOXO3a and subsequent expression of the pro-apoptotic Bcl-2 family member Bim. Bim is itself sufficient to induce apoptosis in these cells. Importantly, activation of an inducible active FOXO3a mutant is alone sufficient for upregulation of Bim expression and induction of apoptosis. These data define a mechanism by which survival factors inhibit the default apoptotic pathway and can regulate TF-1 erythroblast survival. [Copyright &y& Elsevier]

Published
2005
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