The Evolving Roles of Cardiac Macrophages in Homeostasis, Regeneration, and Repair

Alvarez‐Argote, Santiago; O’Meara, Caitlin C.

doi:10.3390/ijms22157923

Cited by 39 publications

(27 citation statements)

References 116 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Phagocytosis by polymorphonuclear leukocytes was found to be induced post MI. These findings further confirmed the role of cardiac macrophages in homeostasis, regeneration, and repair after ischaemic events [ 18 ]. The second postulation was established to modulate MMP and its proteolytic products to regulate cardiac remodelling.…”

Section: Inflammation and Cardiovascular Diseasessupporting

confidence: 79%

Inflammatory Burden and Immunomodulative Therapeutics of Cardiovascular Diseases

Kao

Huang

2022

IJMS

View full text Add to dashboard Cite

Phenotyping cardiovascular illness and recognising heterogeneities within are pivotal in the contemporary era. Besides traditional risk factors, accumulated evidence suggested that a high inflammatory burden has emerged as a key characteristic modulating both the pathogenesis and progression of cardiovascular diseases, inclusive of atherosclerosis and myocardial infarction. To mechanistically elucidate the correlation, signalling pathways downstream to Toll-like receptors, nucleotide oligomerisation domain-like receptors, interleukins, tumour necrosis factor, and corresponding cytokines were raised as central mechanisms exerting the effect of inflammation. Other remarkable adjuvant factors include oxidative stress and secondary ferroptosis. These molecular discoveries have propelled pharmaceutical advancements. Statin was suggested to confer cardiovascular benefits not only by lowering cholesterol levels but also by attenuating inflammation. Colchicine was repurposed as an immunomodulator co-administered with coronary intervention. Novel interleukin-1β and −6 antagonists exhibited promising cardiac benefits in the recent trials as well. Moreover, manipulation of gut microbiota and associated metabolites was addressed to antagonise inflammation-related cardiovascular pathophysiology. The gut-cardio-renal axis was therein established to explain the mutual interrelationship. As for future perspectives, artificial intelligence in conjunction with machine learning could better elucidate the sequencing of the microbiome and data mining. Comprehensively understanding the interplay between the gut microbiome and its cardiovascular impact will help identify future therapeutic targets, affording holistic care for patients with cardiovascular diseases.

show abstract

Section: Inflammation and Cardiovascular Diseasessupporting

confidence: 79%

Inflammatory Burden and Immunomodulative Therapeutics of Cardiovascular Diseases

Kao

Huang

2022

IJMS

View full text Add to dashboard Cite

show abstract

“…However, the crosstalk between cardiac cells and macrophages is essential for cardiac homeostasis [7,11,47,[53][54][55]. In addition to their multifaceted roles in ECM modulation, cardiac electrical conduction and mitochondrial homeostasis [56][57][58], we reinforce the importance of anti-inflammatory macrophages in regulating proliferative cell fate. The present in vitro results suggest that macrophage plasticity and anti-inflammatory environment are both necessary for modifying cardiomyoblast cell size and proliferation.…”

Section: Cardiomyoblast Fatementioning

confidence: 57%

Fibrin, Bone Marrow Cells and Macrophages Interactively Modulate Cardiomyoblast Fate

et al. 2022

View full text Add to dashboard Cite

Interactions between macrophages, cardiac cells and the extracellular matrix are crucial for cardiac repair following myocardial infarction (MI). We hypothesized that cell-based treatments might modulate these interactions. After validating that bone marrow cells (BMC) associated with fibrin lowered the infarct extent and improved cardiac function, we interrogated the influence of fibrin, as a biologically active scaffold, on the secretome of BMC and the impact of their association on macrophage fate and cardiomyoblast proliferation. In vitro, BMC were primed with fibrin (F-BMC). RT-PCR and proteomic analyses showed that fibrin profoundly influenced the gene expression and the secretome of BMCs. Consequently, the secretome of F-BMC increased the spreading of cardiomyoblasts and showed an alleviated immunomodulatory capacity. Indeed, the proliferation of anti-inflammatory macrophages was augmented, and the phenotype of pro-inflammatory switched as shown by downregulated Nos2, Il6 and IL1b and upregulated Arg1, CD163, Tgfb and IL10. Interestingly, the secretome of F-BMC educated-macrophages stimulated the incorporation of EdU in cardiomyoblasts. In conclusion, our study provides evidence that BMC/fibrin-based treatment improved cardiac structure and function following MI. In vitro proofs-of-concept reveal that the F-BMC secretome increases cardiac cell size and promotes an anti-inflammatory response. Thenceforward, the F-BMC educated macrophages sequentially stimulated cardiac cell proliferation.

show abstract

“…In particular, cardiac remodeling is a complex inflammatory syndrome where Mφ play a determinant role. Mφ reside in the tissue in the absence of injury and inflammation, but also play a major role following myocardial stress, where they can be protective or harmful [ 136 , 137 ]. Mφ influence tissue homeostasis, repair and regeneration in response to injury and modulating cardiac hypertrophy and HF [ 138 , 139 , 140 ].…”

Section: Innate Immunity Cardiac Remodeling and Hfmentioning

confidence: 99%

“…Strikingly, recent mapping and genetic depletion studies allowed to begin to decipher the functional roles of various Mφ populations and identify functions far beyond a phagocytic and immunologic role, e.g., maintaining mitochondrial function, facilitating cardiac conduction, and promoting coronary development and lymphangiogenesis [ 136 , 163 ].…”

Section: Macrophages Subsets and Cardiac Remodelingmentioning

confidence: 99%

Early Protective Role of Inflammation in Cardiac Remodeling and Heart Failure: Focus on TNFα and Resident Macrophages

Besse

Nadaud

Balse

et al. 2022

Cells

View full text Add to dashboard Cite

Cardiac hypertrophy, initiated by a variety of physiological or pathological stimuli (hemodynamic or hormonal stimulation or infarction), is a critical early adaptive compensatory response of the heart. The structural basis of the progression from compensated hypertrophy to pathological hypertrophy and heart failure is still largely unknown. In most cases, early activation of an inflammatory program reflects a reparative or protective response to other primary injurious processes. Later on, regardless of the underlying etiology, heart failure is always associated with both local and systemic activation of inflammatory signaling cascades. Cardiac macrophages are nodal regulators of inflammation. Resident macrophages mostly attenuate cardiac injury by secreting cytoprotective factors (cytokines, chemokines, and growth factors), scavenging damaged cells or mitochondrial debris, and regulating cardiac conduction, angiogenesis, lymphangiogenesis, and fibrosis. In contrast, excessive recruitment of monocyte-derived inflammatory macrophages largely contributes to the transition to heart failure. The current review examines the ambivalent role of inflammation (mainly TNFα-related) and cardiac macrophages (Mφ) in pathophysiologies from non-infarction origin, focusing on the protective signaling processes. Our objective is to illustrate how harnessing this knowledge could pave the way for innovative therapeutics in patients with heart failure.

show abstract

The Evolving Roles of Cardiac Macrophages in Homeostasis, Regeneration, and Repair

Cited by 39 publications

References 116 publications

Inflammatory Burden and Immunomodulative Therapeutics of Cardiovascular Diseases

Inflammatory Burden and Immunomodulative Therapeutics of Cardiovascular Diseases

Fibrin, Bone Marrow Cells and Macrophages Interactively Modulate Cardiomyoblast Fate

Early Protective Role of Inflammation in Cardiac Remodeling and Heart Failure: Focus on TNFα and Resident Macrophages

Contact Info

Product

Resources

About