| Literature DB >> 33594326 |
Hyeran H Jeon1,2, Quan Yu2,3, Lukasz Witek4, Yongjian Lu2,5, Tianshou Zhang2,6, Olga Stepanchenko2, Victoria J Son2, Evelyn Spencer2, Temitope Oshilaja2, Min K Shin2, Faizan Alawi7, Paulo G Coelho4,8, Dana T Graves2.
Abstract
The forkhead box O1 (FOXO1) transcription factor plays a key role in wound healing process. Recently it has been reported that lineage-specific genetic ablation of FOXO1 significantly improves diabetic wound healing in a mouse model. To investigate the clinical usefulness of these findings, translational preclinical studies with a large animal model are needed. We report for the first time that the local application of a FOXO1 inhibitor (AS1842856) significantly improves connective tissue healing in a preclinical T2DM minipig model, reflected by increased collagen matrix formation, increased myofibroblast numbers, improved angiogenesis, and a shift in cell populations from pro-inflammatory (IL-1β+, TNF-α+ and iNOS+) to pro-healing (CD163+). Our results set up the basis for the clinical application of a FOXO1 antagonist in early diabetic wounds where there is impaired connective tissue healing. AJTREntities:
Keywords: Wound healing; diabetes; forkhead box O1 (FOXO1); hyperglycemia; inflammation skin; minipig
Year: 2021 PMID: 33594326 PMCID: PMC7868841
Source DB: PubMed Journal: Am J Transl Res ISSN: 1943-8141 Impact factor: 4.060