Extracellular Vesicle-Educated Macrophages Promote Early Achilles Tendon Healing

Chamberlain, Connie S.; Clements, Anna E. B.; Kink, John A.; Choi, Ugeun; Baer, Geoffrey S.; Halanski, Matthew A.; Hematti, Peiman; Vanderby, Ray

doi:10.1002/stem.2988

Cited by 140 publications

(180 citation statements)

References 67 publications

(75 reference statements)

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“…Our in vitro results further demonstrated that EVs can directly target macrophages and can block the inflammatory NF‐κB signaling in these cells. Consistent with these findings, a recent study showed that MSC‐derived EVs can drive macrophage differentiation toward the anti‐inflammatory M2 phenotype and that implantation of EV‐educated M2 macrophages can promote early tendon healing . In addition to macrophages, this study found that some ASC EVs were co‐localized with tenocytes near the injury center.…”

Section: Discussionsupporting

confidence: 81%

“…Although nearly all cells can produce EVs, the composition and function of EVs are cell‐type specific. MSC EVs from several origins including adipose tissue have recently been reported to modulate the macrophage inflammatory response and the function of MSC EVs may be further enhanced by priming MSCs with such inflammatory cytokine as interferon γ (IFNγ) . Therefore, EVs produced by ASCs may provide an alternative to ASCs as a new potent therapeutic agent for tendon injury.…”

mentioning

confidence: 99%

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Stem cell‐derived extracellular vesicles attenuate the early inflammatory response after tendon injury and repair

Shen

Yoneda

Abu‐Amer

et al. 2019

Journal Orthopaedic Research

164

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Adipose‐derived stem cells (ASCs) have the potential to enhance tendon repair via paracrine regulation of the inflammatory response to injury. Extracellular vesicles (EVs), which are secreted by ASCs, have shown promise in mediating this process. This study was designed to evaluate the effect of ASC EVs on early tendon healing using a mouse Achilles tendon injury and repair model. EVs were isolated from the conditioned medium of naïve and interferonγ‐primed ASCs and applied to the repair site via a collagen sheet. Tendon healing was assessed in nuclear factor‐κB (NF‐κB)‐luciferase reporter mice up to 7 days after suture repair. As anticipated, repair site NF‐κB activity increased greater than twofold following tendon repair. Treatment with EVs from primed but not naïve ASCs effectively suppressed the response. Accordingly, the pro‐inflammatory genes Il1b and Ifng were both dramatically increased in repaired tendons, while primed, but not naïve ASC EVs attenuated the response. Compared with control repairs, primed ASC EVs further reduced the rate of post‐repair tendon gap formation and rupture and facilitated collagen formation at the injury site. Additional experiments demonstrated that EVs target macrophages and that primed ASC EVs were most effective in blocking macrophage NF‐κB activity. Collectively, the findings of this study demonstrate that primed ASC EVs, similar to ASCs, attenuate the early tendon inflammatory response after injury via modulation of the macrophage inflammatory response. Statement of clinical significance: These findings introduce a new cell‐free therapy, derived from stem cells, for tendon repair with the potential for improved therapeutic efficacy and safety. © 2019 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 38:117–127, 2020

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Section: Discussionsupporting

confidence: 81%

mentioning

confidence: 99%

Stem cell‐derived extracellular vesicles attenuate the early inflammatory response after tendon injury and repair

Shen

Yoneda

Abu‐Amer

et al. 2019

Journal Orthopaedic Research

164

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“…Higher concentrations of MSC-derived EVs performed better than low concentrations and better than MSCs alone. As already shown [9,10,11], three studies have already been published on this topic, but direct comparisons with the present investigations are difficult given the different focus. The three previous studies focused largely on inflammatory mechanisms, and used different methodologies and different types of injury over different time periods.…”

Section: Plos Onementioning

confidence: 65%

“…Cell-free delivery of bioactive cargos by EV induces the same beneficial responses as stemcell transplantation, offering remarkable benefits over conventional cell-therapy: for example, EVs avoid the risk of tumorigenesis, and heterotopic ossification and calcification [3,4] and are immunologically unresponsive agents [7,8]. Finally EVs play a role in tendon-healing by modulating inflammatory responses [9,10,11].…”

Section: Introductionmentioning

confidence: 99%

Extracellular vesicles from rat-bone-marrow mesenchymal stromal/stem cells improve tendon repair in rat Achilles tendon injury model in dose-dependent manner: A pilot study

et al. 2020

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Mesenchymal stromal/stem cells (MSCs) are increasingly employed for tissue regeneration, largely mediated through paracrine actions. Currently, extracellular vesicles (EVs) released by MSCs are major mediators of these paracrine effects. We evaluated whether rat-bonemarrow-MSC-derived EVs (rBMSCs-EVs) can ameliorate tendon injury in an in vivo rat model. Pro-collagen1A2 and MMP14 protein are expressed in rBMSC-EVs, and are important factors for extracellular-matrix tendon-remodeling. In addition, we found pro-col-lagen1A2 in rBMSC-EV surface-membranes by dot blot. In vitro on cells isolated from Achilles tendons, utilized as rBMSC-EVs recipient cells, EVs at both low and high doses induce migration of tenocytes; at higher concentration, they induce proliferation and increase expression of Collagen type I in tenocytes. Pretreatment with trypsin abrogate the effect of EVs on cell proliferation and migration, and the expression of collagen I. When either low-or high-dose rBMSCs-EVs were injected into a rat-Achilles tendon injury-model (immediately after damage), at 30 days, rBMSC-EVs were found to have accelerated the remodeling stage of tendon repair in a dose-dependent manner. At histology and histomorphology evaluation, high doses of rBMSCs-EVs produced better restoration of tendon architecture, with optimal tendon-fiber alignment and lower vascularity. Higher EV-concentrations demonstrated greater expression of collagen type I and lower expression of

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“…Another possible strategy consists of polarizing macrophages to an M2 phenotype by incubating these cells with EVs from human BM-MSCs. These M2 macrophages may increase angiogenesis and repair in the above model of tendon transection [155].…”

Section: Skeletal Muscle and Tendon Repairmentioning

confidence: 95%

Extracellular Vesicles from Mesenchymal Stem Cells as Novel Treatments for Musculoskeletal Diseases

Alcaraz

Compañ

Guillén

2019

Cells

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Mesenchymal stem/stromal cells (MSCs) represent a promising therapy for musculoskeletal diseases. There is compelling evidence indicating that MSC effects are mainly mediated by paracrine mechanisms and in particular by the secretion of extracellular vesicles (EVs). Many studies have thus suggested that EVs may be an alternative to cell therapy with MSCs in tissue repair. In this review, we summarize the current understanding of MSC EVs actions in preclinical studies of (1) immune regulation and rheumatoid arthritis, (2) bone repair and bone diseases, (3) cartilage repair and osteoarthritis, (4) intervertebral disk degeneration and (5) skeletal muscle and tendon repair. We also discuss the mechanisms underlying these actions and the perspectives of MSC EVs-based strategies for future treatments of musculoskeletal disorders.

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Extracellular Vesicle-Educated Macrophages Promote Early Achilles Tendon Healing

Cited by 140 publications

References 67 publications

Stem cell‐derived extracellular vesicles attenuate the early inflammatory response after tendon injury and repair

Stem cell‐derived extracellular vesicles attenuate the early inflammatory response after tendon injury and repair

Extracellular vesicles from rat-bone-marrow mesenchymal stromal/stem cells improve tendon repair in rat Achilles tendon injury model in dose-dependent manner: A pilot study

Extracellular Vesicles from Mesenchymal Stem Cells as Novel Treatments for Musculoskeletal Diseases

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