Anna E. B. Clements scite author profile

Tendon healing follows a complex series of coordinated events, which ultimately produces a mechanically inferior tissue more scar‐like than native tendon. More regenerative healing occurs when anti‐inflammatory M2 macrophages play a more dominant role. Mesenchymal stromal/stem cells (MSCs) are able to polarize macrophages to an M2 immunophenotype via paracrine mechanisms. We previously reported that coculture of CD14+ macrophages (MQs) with MSCs resulted in a unique M2‐like macrophage. More recently, we generated M2‐like macrophages using only extracellular vesicles (EVs) isolated from MSCs creating “EV‐educated macrophages” (also called exosome‐educated macrophages [EEMs]), thereby foregoing direct use of MSCs. For the current study, we hypothesized that cell therapy with EEMs would improve in vivo tendon healing by modulating tissue inflammation and endogenous macrophage immunophenotypes. We evaluated effects of EEMs using a mouse Achilles tendon rupture model and compared results to normal tendon healing (without any biologic intervention), MSCs, MQs, or EVs. We found that exogenous administration of EEMs directly into the wound promoted a healing response that was significantly more functional and more regenerative. Injured tendons treated with exogenous EEMs exhibited (a) improved mechanical properties, (b) reduced inflammation, and (c) earlier angiogenesis. Treatment with MSC‐derived EVs alone were less effective functionally but stimulated a biological response as evidenced by an increased number of endothelial cells and decreased M1/M2 ratio. Because of their regenerative and immunomodulatory effects, EEM treament could provide a novel strategy to promote wound healing in this and various other musculoskeletal injuries or pathologies where inflammation and inadequate healing is problematic. Stem Cells 2019;37:652–662

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Immune modulation with primed mesenchymal stem cells delivered via biodegradable scaffold to repair an Achilles tendon segmental defect

Aktaş

Chamberlain

Saether

et al. 2016

Journal Orthopaedic Research

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Tendon healing is a complex coordinated series of events resulting in protracted recovery, limited regeneration, and scar formation. Mesenchymal stem cell (MSC) therapy has shown promise as a new technology to enhance soft tissue and bone healing. A challenge with MSC therapy involves the ability to consistently control the inflammatory response and subsequent healing. Previous studies suggest that preconditioning MSCs with inflammatory cytokines, such as IFN-γ, TNF-α, and IL-1β may accelerate cutaneous wound closure. The objective of this study was to therefore elucidate these effects in tendon. That is, the in vivo healing effects of TNF-α primed MSCs were studied using a rat Achilles segmental defect model. Rat Achilles tendons were subjected to a unilateral 3 mm segmental defect and repaired with either a PLG scaffold alone, MSC-seeded PLG scaffold, or TNF-α-primed MSC-seeded PLG scaffold. Achilles tendons were analyzed at 2 and 4 weeks post-injury. In vivo, MSCs, regardless of priming, increased IL-10 production and reduced the inflammatory factor, IL-1α. Primed MSCs reduced IL-12 production and the number of M1 macrophages, as well as increased the percent of M2 macrophages, and synthesis of the anti-inflammatory factor IL-4. Primed MSC treatment also increased the concentration of type I procollagen in the healing tissue and increased failure stress of the tendon 4 weeks post-injury. Taken together delivery of TNF-α primed MSCs via 3D PLG scaffold modulated macrophage polarization and cytokine production to further accentuate the more regenerative MSC-induced healing response. © 2016 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 35:269-280, 2017.

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Addition of Mineral‐Coated Microparticles to Soluble Interleukin‐1 Receptor Antagonist Injected Subcutaneously Improves and Extends Systemic Interleukin‐1 Inhibition

Clements

Leiferman

Chamberlain

et al. 2018

Advanced Therapeutics

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IL‐1 receptor antagonist (IL‐1Ra) inhibits the pro‐inflammatory activity of IL‐1β. However, its short in vivo half‐life and high dose required to inhibit IL‐1β may limit its use in all but a few clinical scenarios. This study examines whether the addition of mineral‐coated microparticles (MPs) to a solution of IL‐1Ra extends its ability to inhibit IL‐1β activity when administered as a subcutaneous injection. MPs efficiently bind proteins in solution and provide sustained protein delivery. In vitro assays demonstrate that IL‐1Ra released from MPs is biologically active and inhibits IL‐1β activity. When MPs are added to an IL‐1Ra solution and injected subcutaneously into a murine model, serum IL‐1Ra is elevated for a longer duration compared to the treatment with the IL‐1Ra solution alone. Further, the addition of MPs to the IL‐1Ra solution results in the inhibition of IL‐1β activity for 7 days. A novel MP formulation that layered IL‐1Ra throughout the coating extends inhibition of IL‐1β activity in vivo for at least 14 days, suggesting potential for long‐term IL‐1β inhibition. Overall addition of MPs to an IL‐1Ra solution injected subcutaneously prolongs the duration of elevated serum concentration of IL‐1Ra and extends its ability to inhibit IL‐1β activity.

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Agricultural fungicides inadvertently influence the fitness of Colorado potato beetles, Leptinotarsa decemlineata, and their susceptibility to insecticides

Clements

Schoville

Clements

et al. 2018

Sci Rep

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The Colorado potato beetle (CPB), Leptinotarsa decemlineata (Say), is an agricultural pest of solanaceous crops which has developed insecticide resistance at an alarming rate. Up to this point, little consideration has been given to unintended, or inadvertent effects that non-insecticide xenobiotics may have on insecticide susceptibility in L. decemlineata. Fungicides, such as chlorothalonil and boscalid, are often used to control fungal pathogens in potato fields and are applied at regular intervals when L. decemlineata populations are present in the crop. In order to determine whether fungicide use may be associated with elevated levels of insecticide resistance in L. decemlineata, we examined phenotypic responses in L. decemlineata to the fungicides chlorothalonil and boscalid. Using enzymatic and transcript abundance investigations, we also examined modes of molecular detoxification in response to both insecticide (imidacloprid) and fungicide (boscalid and chlorothalonil) application to more specifically determine if fungicides and insecticides induce similar metabolic detoxification mechanisms. Both chlorothalonil and boscalid exposure induced a phenotypic, enzymatic and transcript response in L. decemlineata which correlates with known mechanisms of insecticide resistance.

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Injectable biomaterials for delivery of interleukin-1 receptor antagonist: Toward improving its therapeutic effect

Clements

Murphy

2019

Acta Biomaterialia

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Anna E. B. Clements

Extracellular Vesicle-Educated Macrophages Promote Early Achilles Tendon Healing

Immune modulation with primed mesenchymal stem cells delivered via biodegradable scaffold to repair an Achilles tendon segmental defect

Addition of Mineral‐Coated Microparticles to Soluble Interleukin‐1 Receptor Antagonist Injected Subcutaneously Improves and Extends Systemic Interleukin‐1 Inhibition

Agricultural fungicides inadvertently influence the fitness of Colorado potato beetles, Leptinotarsa decemlineata, and their susceptibility to insecticides

Injectable biomaterials for delivery of interleukin-1 receptor antagonist: Toward improving its therapeutic effect

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