Targeting macrophage necroptosis for therapeutic and diagnostic interventions in atherosclerosis

Karunakaran, Denuja; Geoffrion, Michèle; Wei, Lihui; Gan, Wei; Richards, Laura M.; Shangari, Prakriti; deKemp, Ella; Beanlands, Rachelle A; Perisic, Ljubica; Maegdefessel, Lars; Hedin, Ulf; Sad, Subash; Guo, Liang; Kolodgie, Frank D.; Virmani, Renu; Ruddy, Terrence D.; Rayner, Katey J.

doi:10.1126/sciadv.1600224

Cited by 234 publications

(261 citation statements)

References 51 publications

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“…Earlier reports indicate that, NF-kB inhibition is known to reduce necroptosis and formation of inflammasomes [68][69][70][71]. It is notable in this regard that, Karunkaran et al state, i.e., "necroptic cell death is activated in human advanced atherosclerotic plaques" [79], fits in well with our findings. Their studies have shown that, macrophages residing within the plaques were increased in RIPK3 concentration.…”

supporting

confidence: 93%

Regulated RIPK3 Necroptosis is Produced in Cardiovascular Tissues and Cells in Dietary Magnesium Deficiency: Roles of Cytokines and Their Potential Importance in Inflammation and Atherogenesis

Altura¹,

Shah²,

Shah³

et al. 2017

J Med Surg Pathol

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supporting

confidence: 93%

Regulated RIPK3 Necroptosis is Produced in Cardiovascular Tissues and Cells in Dietary Magnesium Deficiency: Roles of Cytokines and Their Potential Importance in Inflammation and Atherogenesis

Altura¹,

Shah²,

Shah³

et al. 2017

J Med Surg Pathol

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“…Progression to plaque necrosis is a key process because of the highly inflammatory and plaque-destabilizing nature of the necrotic core (26). Data from human and mouse studies suggest that plaque necrosis results from 2 complementary processes, postapoptotic necrosis secondary to defective efferocytosis as examined here (2, 3) and a primary cell necrosis process called necroptosis (27,28). While the current study is focused on an efferocytosis defect in phagocytes themselves, a recent study showed that some apoptotic cells in human and mouse lesions inappropriately retain CD47, which blocks their engulfment by normal phagocytes (29).…”

Section: Resultsmentioning

confidence: 80%

“…internalized by normal phagocytes (28). Defects in multiple steps of efferocytosis, together with activation of necroptotic pathways in advanced plaques, would create a "perfect storm" for the development of plaque necrosis.…”

Section: Author Contributionsmentioning

confidence: 99%

MerTK receptor cleavage promotes plaque necrosis and defective resolution in atherosclerosis

Cai

Thorp²,

Doran

et al. 2017

Journal of Clinical Investigation

181

188

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“…Once infiltrated into the subendothelial space, some immune cells will unlimitedly take up lipids to continuously enlarge plaque [21]. The death of macrophage could induce plaque necrosis in advanced plaques, which may result in plaques instability and thus cause plaque rupture.…”

Section: Let-7g and Inflammationmentioning

confidence: 99%

“…The death of macrophage could induce plaque necrosis in advanced plaques, which may result in plaques instability and thus cause plaque rupture. Therefore, strategies to prevent macrophages apoptosis may stabilize the vulnerable plaques and reduce the life-threatening complications [21]. In addition, the interplays among immune cells, endothelial cells, platelets and smooth muscle cells facilitate the progres-sion of the atherosclerotic plaques [22] [23].…”

Section: Let-7g and Inflammationmentioning

confidence: 99%

MicroRNA Let-7g and Atherosclerosis Plaque Stabilization

Yin¹,

Zhang²,

Hou³

et al. 2017

WJCD

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Vascular atherosclerotic vulnerable plaque rupture is the primary cause of acute myocardial infarctions and strokes. Thus, stabilization of vulnerable plaques is of important clinical endeavor to decrease the fatal risk of atherosclerosis. Inflammatory infiltration, apoptosis of endothelial cells (ECs) and vascular smooth muscle cells (VSMCs), destruction of extracellular matrix (ECM) or collagen, and neovascularization all contribute to the formation and stability of plaque. Let-7g, one miRNA of let-7 family, is related to retardation of the progress of vulnerable atherosclerosis plaque. First of all, let-7g induced preservation on vascular diseases through regulating on the intracellular Ca 2+ -activated protein kinase C-oxLDL-LOX-1 pathway, which resulted in reduced leukocyte adhesion to and migration across endothelium. Over expression of let-7g negatively regulated apoptosis in the ECs by targeting lectin-like oxidized LDL receptor-1(LOX-1)/CASP3 expression, therefore made the fibrous cap of plaque integrated and thick, increased the density of vascular atherosclerotic plaque. In addition, let-7g might stabilize the atherosclerotic plaque through other aspects. In this review, we focus on current and potential importance of let-7g on the stabilization of atherosclerosis plaque which might lead to the future development of an alternative strategy of CAD.

show abstract

Targeting macrophage necroptosis for therapeutic and diagnostic interventions in atherosclerosis

Abstract: Necroptosis promotes necrotic core and vulnerable atherosclerosis in humans and mice and is a prospective therapeutic and diagnostic tool.

Cited by 234 publications

References 51 publications

Regulated RIPK3 Necroptosis is Produced in Cardiovascular Tissues and Cells in Dietary Magnesium Deficiency: Roles of Cytokines and Their Potential Importance in Inflammation and Atherogenesis

Regulated RIPK3 Necroptosis is Produced in Cardiovascular Tissues and Cells in Dietary Magnesium Deficiency: Roles of Cytokines and Their Potential Importance in Inflammation and Atherogenesis

MerTK receptor cleavage promotes plaque necrosis and defective resolution in atherosclerosis

MicroRNA Let-7g and Atherosclerosis Plaque Stabilization

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