Abstract
Abstract Disclosure: M.A. Krause-Hauch: None. R. Patel: None. B. Osborne: None. P. Albear: None. N.A. Patel: None. Many patients struggle with chronic recalcitrant wounds that are the result of delayed healing. Underlying inflammation is one major risk factor for impaired dermal wound healing that may lead to pathologies such as infection and scarring. Adult human adipose stem cells (hASCs) have shown tremendous potential in regenerative medicine. The regenerative potential of hASCs is dependent on secreted bioactive material which is packaged and released in extracellular exosomes. We previously showed that hASC exosomes from the subcutaneous depot (sc) promoted repair in human dermal fibroblasts using in vitro assays. In this study, we evaluated exosomes derived from the omental depot (om) of hASC and compared its efficacy with sc-hASC. Our results show differences in levels of the long noncoding RNA (lncRNA) cargo between om-hASCexo and sc-hASCexo. Next, we evaluated their repair potential in a wound model in vivo. Male and female F344 rats were dorsally wounded via punch biopsy and silicone scaffolding was attached to prevent contraction. The wounds were then either not treated (control) or treated with 50μg om-hASCexo or sc-hASCexo every alternate day when each wound size was measured for 1 week to monitor healing progress. After 7 days, wounds treated with either om-hASCexo and sc-hASCexo closed significantly faster than untreated control wounds. While no difference was observed in closure percentage after 7 days for wounds treated with either om-hASCexo and sc-hASCexo, sc-hASCexo appeared to act faster earlier (1-2 days post wound) in the wound healing process while om-hASCexo acts faster during later stages (2-4 days post wound) of wound healing. The wound tissue was collected for biochemical and histological analysis. qPCR analysis on day 7 revealed that both om-hASCexo and sc-hASCexo treatment resulted in increased levels of Collagen 1 & 3 and MMP9, while levels of TGF-β decreased with treatment. These results indicate that om-hASCexo and sc-hASCexo enhanced the wound healing process while decreasing inflammation of the wound. To determine the differences between om-hASCexo and sc-hASCexo treatments on wound healing pathways, RNAseq was performed. Results show specificity in pathway activation and gene expression between the om-hASCexo and sc-hASCexo treatments. In conclusion, we have demonstrated that the regenerative mechanisms differ between the hASC depots from which exosomes are secreted. At a broader level, this finding may shed light on the body’s organ health and repair processes in normal or disease states. Presentation: 6/3/2024
Published Version
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