Neuroprotectin/protectin D1: endogenous biosynthesis and actions on diabetic macrophages in promoting wound healing and innervation impaired by diabetes

Hong, Song; Tian, Haibin; Lü, Yan; Laborde, James Monroe; Muhale, Filipe; Wang, Quansheng; Alapure, Bhagwat V.; Serhan, Charles N.; Bazán, Nicolás G.

doi:10.1152/ajpcell.00270.2014

Cited by 46 publications

(42 citation statements)

References 83 publications

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“…Treatment with PEDF or DHA alone does not have a significant effect in corneal nerve regeneration (Cortina et al, 2010), demonstrating that the combination is necessary to synthetize NPD1 as well as possible other docosanoids. NPD1 is produced in tissues, such as the cornea, on demand after injury as a pro-resolving component to reduce inflammation (Hong et al, 2014; Schwab et al, 2007; Serhan et al, 2015). In a mouse model of influenza, NPD1 was shown to decrease viral replication, while in a human model of severe influenza, levels were inversely correlated with disease severity (Morita et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

PEDF plus DHA modulate inflammation and stimulate nerve regeneration after HSV-1 infection

Neumann

Kakazu

et al. 2017

Experimental Eye Research

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Herpes simplex virus type-1 (HSV-1) infection leads to impaired corneal sensation and, in severe cases, to corneal ulceration, melting and perforation. Here, we explore the potential therapeutic action of pigment epithelial-derived factor (PEDF) plus docosahexaenoic acid (DHA) on corneal inflammation and nerve regeneration following HSV-1 infection. Rabbits inoculated with 100,000 PFU/eye of HSV-1 strain 17Syn+ were treated with PEDF+DHA or vehicle. PEDF+DHA treatment resulted in a biphasic immune response with stronger infiltration of CD4+T cells, neutrophils and macrophages at 7-days post-treatment (p.t.) that was significantly decreased by 14 days, compared to the vehicle-treated group. Screening of 14 immune-related genes by q-PCR showed that treatment induced higher expression of IFN-γ and CCL20 and inhibition of IL-18 by 7 days in the cornea. PEDF+DHA-treated animals developed less dendritic corneal lesions, opacity and neovascularization. Corneal nerve density increased at 12-weeks p.t. with functional recovery of corneal sensation. Treatment with PEDF+DHA that was postponed by 3 weeks also showed increased nerve density when compared to vehicle. Our data demonstrate that PEDF+DHA promotes resolution of the inflammatory response to the virus and, most importantly, induces regeneration of damaged corneal nerves vital for maintaining ocular surface homeostasis.

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Section: Discussionmentioning

confidence: 99%

PEDF plus DHA modulate inflammation and stimulate nerve regeneration after HSV-1 infection

Neumann

Kakazu

et al. 2017

Experimental Eye Research

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“…Intradermal injection of lipid mediators derived from docosahexaenoic acid (DHA) including resolvins and protectins have been shown to induce an M2-like macrophage phenotype, promote resolution of inflammation, and accelerate wound healing in diabetic mice [85, 86]. Another anti-inflammatory lipid mediator, lipoxin-A4 has been shown to reduce inflammation and promote corneal wound healing in mice [87] and has been suggested as a potential anti-inflammatory therapy for tendon inflammation [88].…”

Section: Macrophage-based Therapies In Regenerative Medicinementioning

confidence: 99%

Macrophage-based therapeutic strategies in regenerative medicine

Spiller

Koh

2017

Advanced Drug Delivery Reviews

249

193

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Mounting evidence suggests that therapeutic cell and drug delivery strategies designed to actively harness the regenerative potential of the inflammatory response have great potential in regenerative medicine. In particular, macrophages have emerged as a primary target because of their critical roles in regulating multiple phases of tissue repair through their unique ability to rapidly shift phenotypes. Herein, we review macrophage-based therapies, focusing on the translational potential for cell delivery of ex vivo-activated macrophages and delivery of molecules and biomaterials to modulate accumulation and phenotype of endogenous macrophages. We also review current obstacles to progress in translating basic findings to therapeutic applications, including the need for improved understanding of context-dependent macrophage functions and the myriad factors that regulate macrophage phenotype; potential species-specific differences (e.g. humans versus mice); quality control issues; and the lack of standardized procedures and nomenclature for characterizing macrophages. Looking forward, the inherent plasticity of macrophages represents a daunting challenge for harnessing these cells in regenerative medicine therapies but also great opportunity for improving patient outcomes in a variety of pathological conditions.

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“…82 In addition, macrophages produce neuroprotectin/protectin D1, which has been implicated in accelerating diabetic wound healing. 83 Macrophages are also known to be a key source of NO, 84 which is mainly used for pathogen killing. However, NO also plays an important role in the early phase of wound healing by contributing to re-epithelialization, collagen deposition, and wound repair.…”

Section: Late Phase Of Wound Healingmentioning

confidence: 99%

Wound repair: role of immune–epithelial interactions

Leoni¹,

Neumann²,

et al. 2015

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The epithelium serves as a highly selective barrier at mucosal surfaces. Upon injury, epithelial wound closure is orchestrated by a series of events that emanate from the epithelium itself as well as by the temporal recruitment of immune cells into the wound bed. Epithelial cells adjoining the wound flatten out, migrate, and proliferate to rapidly cover denuded surfaces and re-establish mucosal homeostasis. This process is highly regulated by proteins and lipids, proresolving mediators such as Annexin A1 protein and resolvins released into the epithelial milieu by the epithelium itself and infiltrating innate immune cells including neutrophils and macrophages. Failure to achieve these finely tuned processes is observed in chronic inflammatory diseases that are associated with non-healing wounds. An improved understanding of mechanisms that mediate repair is important in the development of therapeutics aimed to promote mucosal wound repair.

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Neuroprotectin/protectin D1: endogenous biosynthesis and actions on diabetic macrophages in promoting wound healing and innervation impaired by diabetes

Cited by 46 publications

References 83 publications

PEDF plus DHA modulate inflammation and stimulate nerve regeneration after HSV-1 infection

PEDF plus DHA modulate inflammation and stimulate nerve regeneration after HSV-1 infection

Macrophage-based therapeutic strategies in regenerative medicine

Wound repair: role of immune–epithelial interactions

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