Resolvin D1 Polarizes Primary Human Macrophages toward a Proresolution Phenotype through GPR32

Schmid, Mattia; Gemperle, Corinne; Rimann, Nicole; Hersberger, Martin

doi:10.4049/jimmunol.1501701

Cited by 90 publications

(89 citation statements)

References 44 publications

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“…For instance, it was recently shown that RvD1 blunts macrophage chemotaxis toward CCL2, while enhancing phagocytic function. In human macrophages, RvD1 potently blocks production of pro-inflammatory cytokines (e.g., IL-1β, IL-8 and CCL2) in a GPR32-dependent manner, which could help to prevent further recruitment of inflammatory monocytes 142 . In inflamed obese adipose tissue, RvD1 decreases the proportion of inflammatory macrophages and enhances macrophage phagocytosis and expression of arginase 1 143, 144 .…”

Section: Cellular Actions Of Resolvins In the Context Of Cvdmentioning

confidence: 99%

Resolution of Acute Inflammation and the Role of Resolvins in Immunity, Thrombosis, and Vascular Biology

Sansbury

Spite

2016

Circulation Research

171

103

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Acute inflammation is a host-protective response that is mounted in response to tissue injury and infection. Initiated and perpetuated by exogenous and endogenous mediators, acute inflammation must be resolved for tissue repair to proceed and for homeostasis to be restored. Resolution of inflammation is an actively regulated process governed by an array of mediators as diverse as those that initiate inflammation. Among these, resolvins have emerged as a genus of evolutionarily conserved pro-resolving mediators that act on specific cellular receptors to regulate leukocyte trafficking and blunt production of inflammatory mediators, while promoting clearance of dead cells and tissue repair. Given that chronic unresolved inflammation is emerging as a central causative factor in the development of cardiovascular diseases, an understanding of the endogenous processes that govern normal resolution of acute inflammation is critical for determining why sterile maladaptive cardiovascular inflammation perpetuates. Here, we provide an overview of the process of resolution with a focus on the enzymatic biosynthesis and receptor-dependent actions of resolvins and related pro-resolving mediators in immunity, thrombosis and vascular biology. We discuss how nutritional and current therapeutic approaches modulate resolution and propose that harnessing resolution concepts could potentially lead to the development of new approaches for treating chronic cardiovascular inflammation in a manner that is not host-disruptive.

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Section: Cellular Actions Of Resolvins In the Context Of Cvdmentioning

confidence: 99%

Resolution of Acute Inflammation and the Role of Resolvins in Immunity, Thrombosis, and Vascular Biology

Sansbury

Spite

2016

Circulation Research

171

103

View full text Add to dashboard Cite

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“…RvD1 effects on macrophages seem to be transmitted by G protein-coupled receptor 32(GPR32) and the FPR2/ALX receptor [84,92,93]. …”

Section: Molecules Involved In Resolution Of Inflammationmentioning

confidence: 99%

Pro-Resolving Molecules—New Approaches to Treat Sepsis?

Buechler

Pohl

Aslanidis

2017

IJMS

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Inflammation is a complex response of the body to exogenous and endogenous insults. Chronic and systemic diseases are attributed to uncontrolled inflammation. Molecules involved in the initiation of inflammation are very well studied while pathways regulating its resolution are insufficiently investigated. Approaches to down-modulate mediators relevant for the onset and duration of inflammation are successful in some chronic diseases, while all of them have failed in sepsis patients. Inflammation and immune suppression characterize sepsis, indicating that anti-inflammatory strategies alone are inappropriate for its therapy. Heme oxygenase 1 is a sensitive marker for oxidative stress and is upregulated in inflammation. Carbon monoxide, which is produced by this enzyme, initiates multiple anti-inflammatory and pro-resolving activities with higher production of omega-3 fatty acid-derived lipid metabolites being one of its protective actions. Pro-resolving lipids named maresins, resolvins and protectins originate from the omega-3 fatty acids eicosapentaenoic acid and docosahexaenoic acid while lipoxins are derived from arachidonic acid. These endogenously produced lipids do not simply limit inflammation but actively contribute to its resolution, and thus provide an opportunity to combat chronic inflammatory diseases and eventually sepsis.

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“…29,37,38,47,49,51 Resolvins have direct actions on the recruitment and migration of neutrophils and macrophages, underlying the resolution phase of inflammation 48,51–53 , and they also alter peripheral and central nervous system responses to inflammation and injury, through direct actions on neurons and glia. 65 Since the drugs that are traditionally used to treat inflammatory and post-operative pain, namely opiates and cyclo-oxygenase-2 (COX-2) inhibitors, have unwanted side effects, there is a need to find new approaches and compounds that will be more selective in their actions and have fewer adverse actions.…”

Section: Discussionmentioning

confidence: 99%

“…The primary target is one of the GPCRs known to bind resolvins; for RvD1 the receptor in rodents is ALX/FPR2 11,15,42,48 and for RvD2 the receptor is GPR18. 10 In macrophages RvD2 activation of GPR18 stimulates intracellular increases in cAMP without increasing intracellular Ca 2+ while RvD1 activation of ALX/FPR2 stimulates phosphorylation rather than increase in intracellular Ca 2+ or cAMP.…”

Section: Discussionmentioning

confidence: 99%

Prevention of Chronic Post-Thoracotomy Pain in Rats By Intrathecal Resolvin D1 and D2: Effectiveness of Perioperative and Delayed Drug Delivery

Wang

Strichartz

2017

The Journal of Pain

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Thoracotomy results in a high frequency of chronic post-operative pain. Resolvins are endogenous molecules, synthesized and released by activated immune cells, effective against inflammatory and neuropathic pain. Different resolvins have differential actions on selective neuronal and glial receptors and enzymes. This paper examines the ability of intrathecal Resolvin D1 (RvD1) and Resolvin D2 (RvD2) to reduce chronic postthoracotomy pain in rats. Thoracotomy, involving intercostal incision and rib retraction, resulted in a decrease in the mechanical force threshold to induce nocifensive behavior, an enlargement of the pain-sensitive area, and an increase in the fraction of rats showing nocifensive behavior, all for at least 5 weeks. The qualitative nature of the behavioral responses to tactile stimulation changed dramatically after thoracotomy, including the appearance of vigorous behaviors, such as turning, shuddering, and squealing, all absent in naive rats. Intrathecal delivery of RvD1 (30ng/30µL), at surgery or 4 days later, halved the spread of the mechano-sensitive area, lowered by 60% the percent of rats with tactile hypersensitivity, and reduced the drop in threshold for a nocifensive response, along with a reduction in the occurrence of vigorous nocifensive responses. RvD2’s actions on threshold changes were statistically the same. These findings suggest that intrathecal resolvins, delivered pre-operatively or several days later, can prevent chronic post-operative hyperalgesia.

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Resolvin D1 Polarizes Primary Human Macrophages toward a Proresolution Phenotype through GPR32

Cited by 90 publications

References 44 publications

Resolution of Acute Inflammation and the Role of Resolvins in Immunity, Thrombosis, and Vascular Biology

Resolution of Acute Inflammation and the Role of Resolvins in Immunity, Thrombosis, and Vascular Biology

Pro-Resolving Molecules—New Approaches to Treat Sepsis?

Prevention of Chronic Post-Thoracotomy Pain in Rats By Intrathecal Resolvin D1 and D2: Effectiveness of Perioperative and Delayed Drug Delivery

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