OBJECTIVES/HYPOTHESIS: To explore whether adipose-derived stem/stromal cells (ASCs) have therapeutic potential for treating scarred superficial lamina propria through the effects of secreted hepatocyte growth factor (HGF) on scar fibroblasts. STUDY DESIGN: In vitro study using coculture system. METHODS: Scar fibroblasts (SFs) were isolated from ferret vocal folds electrocauterized 2 weeks previously. ASCs were isolated from ferret lipoaspirated subcutaneous abdominal fat. For coculture experiments, the two cell types were combined in Transwell plates for 6 days, followed by 1 or 3 days of monoculture after removing the upper chamber. Assays were then performed on cells and media from the bottom chamber. We measured: 1) the production of hyaluronic acid (HA), collagen and HGF via enzyme-linked immunosorbent assays, 2) the expression of alpha-smooth muscle actin (alpha-SMA), 3) cell proliferation, and 4) apoptosis of SFs (2, 3, and 4 via flow cytometry). Other experiments examined the effects of HGF on SFs and the effects of HGF neutralization in the coculture system. RESULTS: Coculture led to significant decreases in SF collagen production (P < .05), cell proliferation (P < .05), and alpha-SMA expression (P < .05), whereas HA production increased (P < .05). Coculture also increased HGF secretion from ASCs (P < .05). Neutralization of HGF abolished the inhibitory effects of ASCs on SF collagen synthesis (P < .05). CONCLUSIONS: ASCs influence SFs to adopt a less fibrotic profile. It appears that HGF is at least one of the soluble factors responsible for this effect. Implanted ASCs could potentially ameliorate vocal fold scar by acting as long-term, intrinsic sources of HGF.
OBJECTIVES/HYPOTHESIS: To explore whether adipose-derived stem/stromal cells (ASCs) have therapeutic potential for treating scarred superficial lamina propria through the effects of secreted hepatocyte growth factor (HGF) on scar fibroblasts. STUDY DESIGN: In vitro study using coculture system. METHODS: Scar fibroblasts (SFs) were isolated from ferret vocal folds electrocauterized 2 weeks previously. ASCs were isolated from ferret lipoaspirated subcutaneous abdominal fat. For coculture experiments, the two cell types were combined in Transwell plates for 6 days, followed by 1 or 3 days of monoculture after removing the upper chamber. Assays were then performed on cells and media from the bottom chamber. We measured: 1) the production of hyaluronic acid (HA), collagen and HGF via enzyme-linked immunosorbent assays, 2) the expression of alpha-smooth muscle actin (alpha-SMA), 3) cell proliferation, and 4) apoptosis of SFs (2, 3, and 4 via flow cytometry). Other experiments examined the effects of HGF on SFs and the effects of HGF neutralization in the coculture system. RESULTS: Coculture led to significant decreases in SF collagen production (P < .05), cell proliferation (P < .05), and alpha-SMA expression (P < .05), whereas HA production increased (P < .05). Coculture also increased HGF secretion from ASCs (P < .05). Neutralization of HGF abolished the inhibitory effects of ASCs on SF collagen synthesis (P < .05). CONCLUSIONS: ASCs influence SFs to adopt a less fibrotic profile. It appears that HGF is at least one of the soluble factors responsible for this effect. Implanted ASCs could potentially ameliorate vocal fold scar by acting as long-term, intrinsic sources of HGF.
Authors: Camilo Mora-Navarro; Andreea Badileanu; Ana M Gracioso Martins; Emily W Ozpinar; Lewis Gaffney; Ian Huntress; Erin Harrell; Jeffrey R Enders; Xinxia Peng; Ryan C Branski; Donald O Freytes Journal: ACS Biomater Sci Eng Date: 2020-02-11
Authors: Joo Hyun Woo; Suzanne N King; Henry Hoffman; Seth Dailey; Sarah Wang; Michael B Christensen; Susan L Thibeault Journal: Otolaryngol Head Neck Surg Date: 2016-05-10 Impact factor: 3.497
Authors: Anete Branco; Stephanie M Bartley; Suzanne N King; Marie E Jetté; Susan L Thibeault Journal: Laryngoscope Date: 2015-09-07 Impact factor: 3.325