Efferocytosis and Outside-In Signaling by Cardiac Phagocytes. Links to Repair, Cellular Programming, and Intercellular Crosstalk in Heart

DeBerge, Matthew; Zhang, Shuang; Glinton, Kristofor; Grigoryeva, Luba; Hussein, Islam T. M.; Vorovich, Esther; Ho, Karen J.; Luo, Xunrong; Thorp, Edward B.

doi:10.3389/fimmu.2017.01428

Cited by 26 publications

(16 citation statements)

References 247 publications

(297 reference statements)

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“…Furthermore, molecules released by neutrophils such as neutrophil gelatinase‐associated lipocalin can enhance efferocytosis by increasing the expression of the phosphatidylserine receptor MER proto‐oncogene, tyrosine kinase on macrophages . More recently, necroptosis, a regulated, nonapoptotic form of necrotic cell death has been shown to cause expression of “eat me signals” by neutrophils, thus enhancing efferocytosis by macrophages and improving the outcome after myocardial injury …”

Section: Neutrophil–macrophage Cooperation During Tissue Repairmentioning

confidence: 99%

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Neutrophil–macrophage cooperation and its impact on tissue repair

Bouchery

Harris

2019

Immunol Cell Biol

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Immune cells are rapidly recruited to a site of injury or infection. Although the importance of phagocytic immune cells in clearing bacteria has long been appreciated, the advent of technologies allowing more in‐depth analysis of cellular function, such as intravital microscopy and the use of genetically modified animal models, has allowed much deeper insight into the complex roles of these cells play during tissue repair. Many immune cells contribute to the repair process; however, this review will concentrate on the involvement of the phagocytes, namely macrophages and neutrophils, with a particular focus on our more recent understanding of how interactions between these two cell types impact on the final outcome of tissue repair.

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Section: Neutrophil–macrophage Cooperation During Tissue Repairmentioning

confidence: 99%

“…44 More recently, necroptosis, a regulated, nonapoptotic form of necrotic cell death has been shown to cause expression of "eat me signals" by neutrophils, thus enhancing efferocytosis by macrophages and improving the outcome after myocardial injury. 45,46…”

Section: Efferocytosismentioning

confidence: 99%

Neutrophil–macrophage cooperation and its impact on tissue repair

Bouchery

Harris

2019

Immunol Cell Biol

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“…These traits are significantly correlated with increased blood glucose levels ( Jakelic et al, 1995 ) and reversed by decreasing blood glucose levels in both humans ( Jakelic et al, 1995 ) and rats ( Alba-Loureiro et al, 2006 ). Normally in injured tissue, macrophages engulf apoptotic cells and cellular debris to reduce inflammation, a phenomenon called efferocytosis ( DeBerge et al, 2017 ). Several molecular processes contribute to this mechanism and in particular the metalloproteinase disintegrin and metalloproteinase domain-containing protein 9 (ADAM-9) was shown to be upregulated in macrophages under conditions of high glucose, secondary to decreased expression of miR-126, which increased MER proto-oncogene, tyrosine kinase (MerTK) cleavage to ultimately reduce efferocytosis ( Suresh Babu et al, 2016 ).…”

Section: Leukocytes In Diabetic Cardiomyopathymentioning

confidence: 99%

The Role of Leukocytes in Diabetic Cardiomyopathy

Bajpai

Tilley

2018

Front. Physiol.

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Diabetes is predominant risk factor for cardiovascular diseases such as myocardial infarction and heart failure. Recently, leukocytes, particularly neutrophils, macrophages, and lymphocytes, have become targets of investigation for their potential role in a number of chronic inflammatory diseases such as diabetes and heart failure. While leukocytes contribute significantly to the progression of diabetes and heart failure individually, understanding their participation in the pathogenesis of diabetic heart failure is much less understood. The present review summarizes the role of leukocytes in the complex interplay between diabetes and heart failure, which is critical to the discovery of new targeted therapies for diabetic cardiomyopathy.

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“…These cardiac myofibroblasts secrete MFG-E8 promoting efferocytosis and acquisition of anti-inflammatory properties ( 58 ). Communication between professional and non-professional phagocytes likely coordinates phagocytosis of dying cells in the vicinity of the damage ( 59 ). As a prototypic example, in epithelial tissue, following clearance of apoptotic cells, macrophages release soluble growth factors, such as insulin-like growth factor 1, which redirect the phagocytosis of neighbor epithelial cells toward uptake of smaller vesicular components ( 60 ).…”

Section: Cardiomyocytes and Outside-in Signaling Within Cardiac Macromentioning

confidence: 99%

Cardiomyocytes and Macrophages Discourse on the Method to Govern Cardiac Repair

Gomez

Duval

Silvestre

2018

Front. Cardiovasc. Med.

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In response to pathophysiological stress, the cardiac tissue undergoes profound remodeling process that incorporates the elimination of dying resident cells, compensatory hypertrophy of functional cardiomyocytes, growth and remodeling of the vascular compartment and formation of a fibrotic scar. Accumulating evidences indicate that cardiac remodeling is, at least in part, controlled by a complex crosstalk between cardiomyocytes and macrophages. The strategic location of abundant macrophages to the proximity of cardiomyocytes suggest that they could regulate the fate of cardiomyocytes in the injured heart. As such, macrophages appear as critical support cells for cardiomyocytes and play central roles in cardiac hypertrophy, fibrosis and remodeling. Notably, the cardiac tissue expands heterogeneous population of cardiac macrophages through local proliferation of resident macrophage as well as recruitment and differentiation of blood-derived monocytes. It has also been suggested that cardiac-resident macrophages display distinct functional properties from that of monocyte-derived macrophages in cardiac tissue. Furthermore, macrophages are an overflowing source of biological entities with non-canonical roles on cardiac conduction or cardiomyocyte proliferation by regulating action potential diffusion or cardiac cell cycle reentry. Alternatively, stressed cardiomyocytes can trigger the release of a broad repertoire of instructive signals that can regulate macrophage number, skew their phenotype and therefore direct their beneficial or deleterious actions. In this review, we highlight recent discoveries describing how the intricate dialogue between cardiomyocytes and macrophages can shape the deleterious or healing signaling mechanisms in the injured cardiac tissue.

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Efferocytosis and Outside-In Signaling by Cardiac Phagocytes. Links to Repair, Cellular Programming, and Intercellular Crosstalk in Heart

Cited by 26 publications

References 247 publications

Neutrophil–macrophage cooperation and its impact on tissue repair

Neutrophil–macrophage cooperation and its impact on tissue repair

The Role of Leukocytes in Diabetic Cardiomyopathy

Cardiomyocytes and Macrophages Discourse on the Method to Govern Cardiac Repair

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