Topical α‐gal nanoparticles accelerate diabetic wound healing

Topical α‐gal nanoparticles accelerate diabetic wound healing

An inadequate response from macrophages, key orchestrators of the wound healing process, has been implicated in the pathophysiology of impaired healing in diabetes. This study explored the utility of nanoparticles presenting the α‐gal (Galα1‐3Galβ1‐4GlcNAc‐R) epitope to induce anti‐Gal antibody‐medi...

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Bibliographic Details
Published in:Experimental dermatology Vol. 29; no. 4; pp. 404 - 413
Main Authors: Kaymakcalan, Omer E., Abadeer, Andrew, Goldufsky, Josef W., Galili, Uri, Karinja, Sarah J., Dong, Xue, Jin, Julia L., Samadi, Arash, Spector, Jason A.
Format: Journal Article
Language:English
Published: Denmark Wiley Subscription Services, Inc 01-04-2020
Subjects:
animal model
Animal models
Beta cells
Diabetes
Diabetes mellitus
epidermis
Epitopes
keratinocytes
Macrophages
Nanoparticles
Recruitment
Rodents
Streptozocin
Vascularization
Wound healing
macrophages
wound healing
keratinocytes
animal model
epidermis
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Summary:An inadequate response from macrophages, key orchestrators of the wound healing process, has been implicated in the pathophysiology of impaired healing in diabetes. This study explored the utility of nanoparticles presenting the α‐gal (Galα1‐3Galβ1‐4GlcNAc‐R) epitope to induce anti‐Gal antibody‐mediated local transient recruitment of macrophages to accelerate wound closure and healing in a diabetic murine model. α1,3galactosyltrasferase knockout mice were stimulated to produce anti‐Gal antibodies and subsequently diabetes was induced by streptozotocin‐induced β‐cell destruction. Six mm full‐thickness skin wounds were made and α‐gal nanoparticles (AGN) were topically applied on postwounding days 0 and 1. Wounds were analysed histologically for macrophage invasion and markers of wound healing, including epithelialization, vascularization and granulation tissue deposition through postoperative day 12. We found that application of AGN transiently but significantly increased macrophage recruitment into the wounds of diabetic mice. Treated wounds demonstrated more rapid closure and enhanced wound healing as demonstrated by significantly accelerated rates of epithelialization, vascularization and granulation tissue deposition. Thus, topical treatment of full‐thickness wounds in diabetic mice with α‐gal nanoparticles induced a transient but significant increase in macrophage recruitment resulting in an accelerated rate of wound healing. Using α‐gal nanoparticles as a topical wound healing adjunct is a simple, safe and effective means of augmenting dysregulated macrophage recruitment present in the diabetic state.
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ISSN:0906-6705
1600-0625
DOI:10.1111/exd.14084