Activation of macrophages during wound healing

Bannon, Pauline

January 2011

Wound repair is a complex series of events that begins immediately after wounding, and can continue for a number of months to years. Various physiological and mechanical factors may impair the healing response, resulting in a chronic wound, characterised by a sustained inflammatory response. One of the main cells involved in both the inflammatory phase and proliferation phase of wound healing is the macrophage. There are thought to be different activation states which allow the macrophage to be involved in the two different phases of wound healing, namely the classically activated macrophage and the alternatively activated macrophage. Changes in the number of classically activated/alternatively activated macrophages in the wound is likely to have an effect on wound healing. Therefore a more thorough understanding of macrophage activation states during wound healing would broaden the understanding of the role of this cell in this process. The overall aim of this project was to investigate whether diabetic bone marrow progenitor cells or macrophages respond to activation stimuli differently in comparison to wild type cells. The hypothesis of this thesis is that diabetic macrophages will not respond to appropriate stimuli and thus alternative and classical macrophages will not behave 'appropriately', resulting in impaired healing. The results of this thesis indicate that impaired wound healing in the diabetic environment may be due to both the diabetic wound environment itself and intrinsic differences in diabetic macrophages. This work indicates that signals from the wound environment activates and influences macrophages, as these cells do not express activation markers until they enter the wound environment. However, the culture system devised in this study indicates that even before activation with signals they would receive in the wound environment, diabetic cells are more pro-inflammatory and have impaired migration. In addition, these macrophages respond differently to activation supporting the hypothesis that the macrophages are intrinsically different and that diabetic cells do not behave 'appropriately' which could contribute to impaired wound healing.

Investigating the Role of Dectin-1 as a Marker of Profibrotic Macrophages in the Progression of Pulmonary Fibrosis / Alternatively activated macrophage markers and idiopathic pulmonary fibrosis

Patel, Hemisha

January 2018

An estimated 45% of all deaths can be attributed to various chronic fibroproliferative diseases. Idiopathic pulmonary fibrosis (IPF) is the most common form of interstitial lung disease which is characterized by progressive decline in lung function. While the pathogenesis of IPF is not fully understood, alternatively activated macrophages (M2) have been implicated as a key contributor to the fibrotic process. The plasticity of macrophages in vivo challenges the ability to specifically target the M2 macrophage phenotype across species. Previous bioinformatic analysis from our lab identified Dectin-1/Clec7a as a unique marker of M2 macrophages in both human and murine model systems. The expression of the transmembrane receptor Dectin-1 has not been elucidated in the context of pulmonary fibrosis. To prevent the progression of fibrosis by targeting alternatively activated macrophages, we investigated the expression of Dectin-1 in IPF and an experimental model of fibrotic lung disease. Our data demonstrated that while protein expression of Dectin-1 was increased in archived lung tissues of patients with IPF, mRNA expression of this receptor was downregulated in the tissues of these IPF patients. Gene expression of Dectin-1 was shown to be increased in monocyte-derived macrophages, further suggesting a circulatory component contributing to lung fibrosis. As expected, we confirmed that Dectin-1 was highly expressed past the injury phase of the bleomycin-model of induced pulmonary fibrosis which aligns with the increased immune infiltrates at this time point. Preliminary work into the time dependency of the resolution phase of the bleomycin-induced model of lung fibrosis was shown. All in all, our data suggests that Dectin-1 may be a useful marker in characterizing and differentiating phenotypes of macrophages implicated in the fibrotic process. Future efforts aim to gain insight into the functional requirement of Dectin-1 in the alternative activation of profibrotic macrophages to identify novel therapeutic targets for fibrotic lung disease. / Thesis / Master of Science (MSc)

interstitial lung diseases

macrophages

alternatively activated macrophages

idiopathic pulmonary fibrosis

dectin-1

clec7a

fibrosis

The Role of Resistin-like Molecule Alpha in Oncostatin M-mediated Lung Inflammation

Ho, Lilian

January 2019

Resistin-like molecule alpha (RELMα) is a secreted protein implicated in murine models of allergen-induced asthma, bleomycin-induced pulmonary fibrosis, and helminth infection. Transient pulmonary overexpression of Oncostatin M by Adenovirus vector (AdOSM) induces lung inflammation biased toward Th2 cytokines, eosinophil and alternatively activated (AA/M2) macrophage accumulation. In AdOSM-treated C57Bl/6 and BALB/c mice, we observed RELMα mRNA and protein markedly induced. RELMα is recognized as a marker of AA/M2 macrophages, and we observed by chromogenic in situ hybridization that RELMα mRNA co-expresses with the macrophage marker CD68, and RELMα mRNA was also highly induced in columnar airway epithelial cells upon AdOSM treatment. Assessing IL-6 as a comparator gp130 cytokine, AdIL-6 induced RELMα at significantly lower levels, however maximal induction of RELMα by AdOSM in C57Bl/6 mice required IL-6, assessed in IL-6–/– mice. Maximal induction of RELMα by AdOSM also required IL-33 in C57Bl/6 mice but not in BALB/c mice, assessed in IL-33–/– mice. We investigated functions of RELMα in response to OSM, in RELMα–/– mice. Inflammatory cell infiltration and Th2-associated cytokine responses were not altered in RELMα–/– in comparison to wildtype mice. However, RELMα-deficiency resulted in less accumulation of CD206+ AA/M2 macrophages, IFNγ+ Th1 cells in the lung, reduced induction of extracellular matrix gene mRNAs for COL1A1, COL3A1, MMP13, TIMP1, and reduced parenchymal alpha smooth muscle actin. RELMα–/– mice also showed less airway epithelial hyperplasia, increased epithelial cell damage/death (assessed morphologically) and increased LDH and soluble CK18 in response to AdOSM. Our findings suggest that RELMα does not modulate Th2 cytokines, but does participate in matrix deposition, airway remodelling mechanisms, and protection from inflammation-induced damage due to OSM-overexpression in lungs of C57Bl/6 mice. / Dissertation / Master of Science (MSc)

gp130 cytokines

pulmonary inflammation

resistin-like molecule alpha

alternatively activated macrophages

extracellular matrix

TARGET IDENTIFICATION THROUGH THE TRANSCRIPTOMIC CHARACTERIZATION OF PROFIBROTIC MONOCYTES/MACROPHAGES IN IDIOPATHIC PULMONARY FIBROSIS / CHARACTERIZING MONOCYTES/MACROPHAGES IN PULMONARY FIBROSIS

Vierhout, Megan

January 2020

Idiopathic pulmonary fibrosis (IPF) is a disease of unknown pathogenesis characterized by scarring of the lung and declining respiratory function. Originating from bone marrow, circulating monocytes can be recruited into the lung tissue and polarized toward the alternatively activated (M2) profibrotic macrophage phenotype. Recent literature has shown that cluster of differentiation 14 positive (CD14+) monocytes are more abundant in IPF patient blood and are associated with disease outcome and acute exacerbation. Additionally, a 52-gene risk profile from peripheral blood mononuclear cells for outcome prediction in IPF was recently published. Here, we began by characterizing macrophages in human IPF lung tissue. We then assembled a biobank and examined transcriptomic characteristics of blood-derived circulating monocytes from IPF patients. Various histological assessments were completed on a tissue microarray including lung biopsies from 24 IPF patients and 17 controls, to characterize M2 macrophage expression in human tissue. Whole blood samples were collected from 50 IPF patients and 12 control subjects. CD14+ monocytes were isolated and mRNA was extracted for bulk RNA sequencing. Data were analyzed for differential expression (DE), and Gene Set Enrichment Analysis (GSEA) was performed to examine enrichment of the previously published 52-gene risk profile in our dataset. We found that M2 macrophage expression was increased in IPF lung tissue compared to controls. CD14+ monocyte levels were significantly elevated in IPF patients in our cohort compared to control participants, and was negatively correlated with forced vital capacity (FVC). DE analysis comparing IPF and control monocytes yielded a 35-gene signature, with 16 up-regulated genes and 19 down-regulated genes. When comparing the signature related to long transplant-free survival from the published dataset to our data, GSEA demonstrated that this signature is enriched in donors from our dataset, supporting concurrence between the meanings of the two datasets. Overall, these results provide insight to identify targets to modulate monocyte/macrophage function in IPF and potentially affect progressive disease. / Thesis / Master of Science (MSc) / Idiopathic pulmonary fibrosis (IPF) is a disease of unknown cause that results in excessive scarring of the lungs and progressive impairment in lung function. We believe that white blood cells called monocytes and macrophages play a key role in the development and progression of this disease. Overall, it is thought that monocytes, which circulate in the blood, enter the lung tissue and become macrophages. These macrophages then lead to the formation of scar tissue, which is characteristic to IPF. In order to better understand how these cells contribute to IPF, we studied their properties in blood and lung biopsies from IPF patients. We found significant differences between monocytes/macrophages in IPF than those in healthy controls, that may help explain disease progression. We hope that these findings will provide insight into causes of the IPF, and potential avenues for therapeutic intervention.

idiopathic pulmonary fibrosis

interstitial lung disease

monocytes

macrophages

alternatively activated macrophages

transcriptomic analysis

molecular phenotyping

O papel da arginase na cisticercose experimental por Taenia crassiceps / Arginase activity is associated with fibrosis in experimental infection with Taenia crassiceps, but does not play a major role in resistance to infection

Moura, Vânia Beatriz Lopes

30 April 2010

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No. of bitstreams: 2 Dissertação - Vânia Beatriz Lopes Moura - 2010.pdf: 929596 bytes, checksum: 432fcdfb3a382e721d28d0a4c6c4642d (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2010-04-30 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / The role of arginase on experimental cysticercosis induced by Taenia crassiceps Murine infection by Taenia crassiceps cysticerci is used as an experimental model for human and animal cysticercosis. In this infection parasites can be found inside an inflammatory infiltrated enriched with macrophages. These macrophages can be divided in alternatively activated, that express high amount of the arginase enzyme and classically activated (CMø) that express high amount of induced nitric oxide sintase enzyme (iNOS). Arginase uses the substrate L-arginine to produce ornithine favoring the cellular proliferation and collagen synthesis. The iNOS uses the same substrate to synthesize nitric oxide (NO), which is a highly microbicide compound responsible for the cysticerci control. To observe if there is an association between macrophages expressing arginase and an increase of the susceptibility to T. crassiceps, BALB/c mice were infected IP with 10 cysticerci and followed up by 84 days. It was measured the number and stages of the cysticerci, profile of systemic cytokines, profile of the macrophages in inflamed tissue and collagen deposition over the peritoneum. Besides, infected mice were treated with arginase inhibitor or L-arginine and followed up by 56 days. The parasitic load was observed, which increased significantly after the 30th day. At the end of experimental period number of cysticerci was 1022 (±230). The serum interferon- (IFN-) of infected animals was higher than controls at the 28th day after infection and IL-4 at the 42th day. Macrophages were the major cells observed at the infected site, and the polimorphonuclear cells (PMN) picked at the 14th day after the infection, returning to the normal values at the 42th day. Cells carrying the marker CD301, present on AAMø, and high arginase activity increased in the early phase after infection. The presence of collagen in the peritoneum of infected animals decreased until 14th day after the infection, however, in the latest phases the collagen increases and become superior to the control. The treatment with the arginase inhibitor or L-arginine did not alter the profile of the infection; however the arginase inhibitor inhibited the deposition of collagen in the peritoneum. These results suggest that the enzyme arginase does not interfere with the control of the cysticerci during experimental infection with T. crassiceps cysticerci, but it is important for the formation of fibrosis in cysticercosis. / A infecção murina por cisticercos de Taenia crassiceps vem sendo utilizada como um modelo experimental para estudo da cisticercose humana e animal. Nesta infecção encontram-se parasitos presentes em um infiltrado inflamatório rico em macrófagos. Estes macrófagos podem ser divididos em alternativamente ativados (AAMØ), que expressam uma grande quantidade da enzima arginase ou classicamente ativados (CMØ,) que expressam uma grande quantidade da enzima óxido nítrico sintase induzida (iNOS). A arginase utiliza o substrato L-arginina para produção de ornitina, favorecendo a proliferação celular e a síntese de colágeno. A iNOS utiliza o mesmo substrato para síntese de óxido nítrico (NO) que é um gás microbicida responsável pelo controle dos cisticercos. Para observar se há uma associação entre a presença de macrófagos expressando arginase com aumento da susceptibilidade à infecção por T. crassiceps, camundongos BALB/c foram infectados IP com 10 cisticercos e acompanhados diariamente por 84 dias. Foi avaliado o número dos cisticercos, o perfil sistêmico de citocinas, o perfil dos macrófagos do infiltrado e a deposição de colágeno no peritônio ao longo da infecção. Adicionalmente, os camundongos infectados foram tratados com inibidor de arginase ou com L-arginina. A carga parasitária aumentou significativamente após o 30º dia, atingindo 1022 (±230) cisticercos no final do período experimental. O interferon γ (IFNγ) sérico dos animais infectados foi superior ao dos controles no 28o dia após a infecção e a IL-4 no 42o dia. Os macrófagos foram predominantes durante todo período experimental e os polimorfonucleares (PMN) apresentaram um pico no 14o dia após a infecção, retornando aos valores normais no 42o dia. Células portando o marcador CD301 presente em AAMø e com alta atividade da enzima arginase aumentaram nas duas primeiras semanas após a infecção mantendo-se alta por todo período experimental. A presença de colágeno no peritônio dos animais infectados diminuiu até 14o dia após a infecção, porém, nas fases mais tardias o colágeno aumentou tornando-se superior ao dos controles. O tratamento com o inibidor da arginase ou L-arginina não alterou o perfil da infecção, porém, o inibidor de arginase inibiu a deposição de colágeno no peritônio. Estes resultados sugerem que a enzima arginase não interfere no controle dos cisticercos durante a infecção experimental por cisticercos de T. crassiceps, mas ela é importante na formação de fibrose característica da cisticercose.

Colágeno

Taenia crassiceps

Cisticercose

Macrófagos alternativamente ativado

Collagen

Taenia crassiceps

Cysticercosis

Alternatively activated macrophages

The Role of the Unfolded Protein Response and Alternatively Activated Macrophages in Pulmonary Fibrosis. / THE UNFOLDED PROTEIN RESPONSE, ALTERNATIVELY ACTIVATED MACROPHAGES, AND IPF

Tandon, Karun

January 2017

Fibroproliferative disorders are the leading cause of morbidity and mortality worldwide, with one specific group of fibroproliferative disorders being interstitial lung diseases (ILD). Idiopathic pulmonary fibrosis is the most common ILD; however its pathogenesis is not entirely understood. What is known is that there is repetitive cellular injury preceding the fibrotic remodeling in the lungs that contributes to the irreversible deposition of extracellular matrix (ECM) proteins. Myofibroblasts that accumulate at the site of injury are thought to be the key drivers of ECM deposition and are often associated in the disease. Although it is poorly understood how these immune cells differentiate in the lung, one hypothesis suggests the role of alternatively activated profibrotic macrophages in this process. The data presented in this thesis suggest that there are a presence of UPR and macrophage proteins in the lungs of IPF patients and the UPR may be necessary in the polarization of alternatively activated macrophages. / Thesis / Master of Science (MSc)

Idiopathic Pulmonary Fibrosis

M2 macrophages

Alternatively Activated Macrophages

Interstitial Lung Disease

Nintedanib

Fibroblasts

Myofibroblasts

Unfolded Protein Response

IRE1

XBP1

ER stress