<i>RIPK1</i>
            Expression Associates With Inflammation in Early Atherosclerosis in Humans and Can Be Therapeutically Silenced to Reduce NF-κB Activation and Atherogenesis in Mice

Karunakaran, Denuja; Nguyen, My-Anh; Geoffrion, Michèle; Vreeken, Dianne; Lister, Zachary; Cheng, Henry S.; Otte, Nicola; Essebier, Patricia; Wyatt, Hailey; Kandiah, Joshua W.; Jung, Richard G.; Alenghat, Francis J.; Mompeón, Ana; Lee, Richard; Pan, Calvin; Gordon, Emma; Rasheed, Adil; Lusis, Aldons J.; Liu, Peter; Matic, Ljubica; Hedin, Ulf; Fish, Jason E.; Guo, Liang; Kolodgie, Frank D.; Virmani, Renu; Gils, J.M. van; Rayner, Katey J.

doi:10.1161/circulationaha.118.038379

Cited by 113 publications

(84 citation statements)

References 63 publications

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“…Taking advantage of ApoE SA / SA mice, a new model combining both hypercholesterolemia and hypertension that rapidly develops atherosclerosis (manuscript under submission), we examined the impact of RIPK1 inhibition on advanced atherosclerosis. Here, we report that RIPK1 inhibition protected against early atherosclerosis, confirming a recent observation ( 14 ), however, surprisingly, it promoted atherogenesis in late stage. This reflects a dual action of RIPK1 in inflammation and cholesterol metabolism related to foam cell formation.…”

Section: Discussionsupporting

confidence: 92%

“…Due to its crucial role in cell death and inflammation, RIPK1 has implicated as a potential therapeutic target for cardiovascular diseases. RIPK1 is expressed in human and mouse atherosclerosis lesions ( 14 ), highly in macrophages ( 15 ). RIPK1 Inhibition is protective in myocardial infarction ( 16 ) and early atherosclerosis ( 17 ) in mice.…”

Section: Introductionmentioning

confidence: 99%

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Stage-Dependent Impact of RIPK1 Inhibition on Atherogenesis: Dual Effects on Inflammation and Foam Cell Dynamics

Zhang

Huang

et al. 2021

Front. Cardiovasc. Med.

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Objective: Atherosclerosis is an arterial occlusive disease with hypercholesterolemia and hypertension as common risk factors. Advanced-stage stenotic plaque, which features inflammation and necrotic core formation, is the major reason for clinical intervention. Receptor interacting serine/threonine-protein kinase 1 (RIPK1) mediates inflammation and cell death and is expressed in atherosclerotic lesions. The role of RIPK1 in advanced-stage atherosclerosis is unknown.Approach and Results: To investigate the effect of RIPK1 inhibition in advanced atherosclerotic plaque formation, we used ApoESA/SA mice, which exhibit hypercholesterolemia, and develop angiotensin-II mediated hypertension upon administration of doxycycline in drinking water. These mice readily develop severe atherosclerosis, including that in coronary arteries. Eight-week-old ApoESA/SA mice were randomized to orally receive a highly selective RIPK1 inhibitor (RIPK1i, GSK547) mixed with a western diet, or control diet. RIPK1i administration reduced atherosclerotic plaque lesion area at 2 weeks of treatment, consistent with suppressed inflammation (MCP-1, IL-1β, TNF-α) and reduced monocyte infiltration. However, administration of RIPK1i unexpectedly exacerbated atherosclerosis at 4 weeks of treatment, concomitant with increased macrophages and lipid deposition in the plaques. Incubation of isolated macrophages with oxidized LDL resulted in foam cell formation in vitro. RIPK1i treatment promoted such foam cell formation while suppressing the death of these cells. Accordingly, RIPK1i upregulated the expression of lipid metabolism-related genes (Cd36, Ppara, Lxrα, Lxrb, Srebp1c) in macrophage foam cells with ABCA1/ABCG1 unaltered. Furthermore, RIPK1i treatment inhibited ApoA1 synthesis in the liver and reduced plasma HDL levels.Conclusion: RIPK1 modulates the development of atherosclerosis in a stage-dependent manner, implicating both pro-atherosclerotic (monocyte infiltration and inflammation) and anti-atherosclerotic effects (suppressing foam cell accumulation and promoting ApoA1 synthesis). It is critical to identify an optimal therapeutic duration for potential clinical use of RIPK1 inhibitor in atherosclerosis or other related disease indications.

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Stage-Dependent Impact of RIPK1 Inhibition on Atherogenesis: Dual Effects on Inflammation and Foam Cell Dynamics

Zhang

Huang

et al. 2021

Front. Cardiovasc. Med.

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“…Karunakaran et al identi ed RIPK1 as a central driver of in ammation in atherosclerosis by its ability to activate the NF-κB pathway and promote in ammatory cytokine release. RIPK1 will be a promising therapeutic target to reduce residual in ammation in patients at high risk of coronary artery disease [11].…”

Section: Discussionmentioning

confidence: 99%

Six Hub Genes Associated with Erectile Dysfunction And Acute Myocardial Infarction Based On GEO

Ang

Wang

et al. 2021

Preprint

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Background: Erectile dysfunction(ED) is a common male sexual dysfunction that significantly affects quality of life in men and induce a significant public health problem. Nowadays, vascular dysfunction is known as a common cause of ED. Acute myocardial infarction (AMI) became co-morbidity with ED as vascular event. The increasing number of males with both diseases is a public health problem that deserves our attention.Results: Seven commom genes of DEGs were obtained in ED and AMI. Fifteen terms mainly including I−kappaB kinase/NF−kappaB signaling et al and five KEGG pathways mainly including Toll−like receptor signaling pathway were also obtained. Further, the diagnostic value of top 6 hub genes were identified. Conclusion: The hub genes IKBKG, RIPK1, TNF, RPS27A, TLR2, and TNFAIP3 were selected and their diagnostic values were validated. They may play an important potential role in the occurrence and offer viable targets for treating inflammation-mediated vascular dysfunction in the ED and AMI.

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“…As the disease continues, these foam cells undergo apoptosis, causing the accumulation of extracellular lipids to form lipid-rich plaque cores, enlarged lipid or necrotic cores, that protrude into the artery. In advanced stages of atherosclerosis, the apoptosis of SMCs and the decomposition of collagen and elastin (exacerbated by the inflammatory process ( Karunakaran et al, 2021 )) cause rupture of the fibrous cap around the lipid core and incite coagulation factors to interact with tissue factors, leading to thrombus formation and associated complications ( Figure 1 ).…”

Section: Formation and Progression Of Atherosclerosismentioning

confidence: 99%

Chinese Herbal Medicines and Active Metabolites: Potential Antioxidant Treatments for Atherosclerosis

et al. 2021

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Atherosclerosis is a complex chronic disease that occurs in the arterial wall. Oxidative stress plays a crucial role in the occurrence and progression of atherosclerotic plaques. The dominance of oxidative stress over antioxidative capacity generates excess reactive oxygen species, leading to dysfunctions of the endothelium and accelerating atherosclerotic plaque progression. Studies showed that Chinese herbal medicines and traditional Chinese medicine (TCM) might regulate oxidative stress; they have already been used to treat diseases related to atherosclerosis, including stroke and myocardial infarction. This review will summarize the mechanisms of oxidative stress in atherosclerosis and discuss studies of Chinese herbal medicines and TCM preparations treating atherosclerosis, aiming to increase understanding of TCM and stimulate research for new drugs to treat diseases associated with oxidative stress.

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RIPK1 Expression Associates With Inflammation in Early Atherosclerosis in Humans and Can Be Therapeutically Silenced to Reduce NF-κB Activation and Atherogenesis in Mice

Cited by 113 publications

References 63 publications

Stage-Dependent Impact of RIPK1 Inhibition on Atherogenesis: Dual Effects on Inflammation and Foam Cell Dynamics

Stage-Dependent Impact of RIPK1 Inhibition on Atherogenesis: Dual Effects on Inflammation and Foam Cell Dynamics

Six Hub Genes Associated with Erectile Dysfunction And Acute Myocardial Infarction Based On GEO

Chinese Herbal Medicines and Active Metabolites: Potential Antioxidant Treatments for Atherosclerosis

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