Abstract
Aim Abnormal scars such as hypertrophic scars (HSs) and keloids are excessively growing scars that exhibit chronic inflammation and capillary vasculogenesis. The lipid mediator sphingosine-1-phosphate (S1P) is important in inflammatory cell recruitment and angiogenesis. Fingolimod (FTY720) is an analog of S1P and thus functionally antagonizes S1P receptors and inhibits the enzyme that produces S1P. We examined the effects of topical FTY720 injections on mechanical force-induced HS progression. Methods Mechanical force-induced HSs were generated in C57BL6/J mice by suturing a dorsal incision and applying a stretching device on Days 6, 8, 10, and 12. On Days 8, 10, and 12, intracutaneous FTY720 (10 μM) or control vehicle injections were performed. On Day 14, scar tissues and blood were procured and subjected to histology and flow cytometry. Results Flow cytometry showed that FTY720 decreased the frequencies of macrophages with M2 predominance in the scars but had no effect on total, CD4+, or CD8a+ T cell frequencies. FTY720 also decreased the vascular endothelial cell frequencies in the scar along with the microvessels, as determined by immunohistochemistry. Compared to the vehicles, FTY720 treatment significantly reduced the gross scar area and the cross-sectional scar area on histology. On the other hand, FTY720 tended to reduce white blood cells and significantly reduced the lymphocyte frequencies in the blood. Conclusion Topical FTY720 induces M2 predominance and impairs angiogenesis. Therefore, its local immunosuppressive mechanisms differ from those of conventional immunosuppressive agents. Topical FTY720 can be a novel therapeutic option for abnormal scars that are difficult to control with corticosteroids. Its lymphocytopenic effects may be limited by careful optimization of the treatment regimen.
Highlights
Human hypertrophic scars (HSs) and keloids are fibroproliferative disorders of the skin that arise after wounding that impairs cutaneous integrity and induces deep dermal destruction
Since S1PR1 signaling is essential for angiogenesis [34], we examined the effect of local FTY720 injection on angiogenesis in the scars by flow cytometry and immunohistochemistry
S1P is indispensable for lymphocyte trafficking and systemic FTY720 treatments result in lymphocytopenia [39]
Summary
Human hypertrophic scars (HSs) and keloids are fibroproliferative disorders of the skin that arise after wounding that impairs cutaneous integrity and induces deep dermal destruction. The wounds may be generated by surgical procedures, burns, infections, or other causes of damage to the deep dermis. Both scar types are characterized by chronic inflammation and vasculogenesis [1]. Abnormal scars such as HSs and keloids often lead to contractures, symptoms such as pain or itch, cosmetic issues, and lifelong disability [2]. The pathogenesis of these abnormal scars involves repetitive or continuous mechanical stress [3]. The proangiogenic and fibroproliferative effects of the inflammation explain why the reticular layer of abnormal scars displays substantial vasculogenesis and collagen accumulation [5]
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