Litcius/Paper detail

MicroRNA-221-3p inhibits the inflammatory response of keratinocytes by regulating the DYRK1A/STAT3 signaling pathway to promote wound healing in diabetes

Keyan Hu, Lei Liu, Songtao Tang, Xin Zhang, Hongfeng Chang, Wenyang Chen, Taotao Fan, Lesha Zhang, Bing Shen, Qiu Zhang

2024Communications Biology37 citationsDOIOpen Access PDF

Abstract

Diabetic foot ulcer (DFU), a serious complication of diabetes, remains a clinical challenge. MicroRNAs affect inflammation and may have therapeutic value in DFU. Here, we find that an miR-221-3p mimic reduces the inflammatory response and increases skin wound healing rates in a mouse model of diabetes, whereas miR-221-3p knockout produced the opposite result. In human keratinocytes cells, miR-221-3p suppresses the inflammatory response induced by high glucose. The gene encoding DYRK1A is a target of miR-221-3p. High glucose increases the expression of DYRK1A, but silencing DYRK1A expression decreases high glucose-induced inflammatory cytokine release via dephosphorylation of STAT3, a substrate of DYRK1A. Application of miR-221-3p mimic to human keratinocytes cells not only decreases DYRK1A expression but also inhibits high glucose-induced production of inflammatory cytokines to promote wound healing. This molecular mechanism whereby miR-221-3p regulates inflammation through the DYRK1A/STAT3 signaling pathway suggests targets and therapeutic approaches for treating DFU.

Topics & Concepts

InflammationWound healingGene silencingmicroRNASTAT3Downregulation and upregulationDiabetes mellitusSignal transductionProinflammatory cytokineCancer researchCytokineCell biologyMedicineImmunologyPharmacologyChemistryBiologyEndocrinologyGeneBiochemistryWound Healing and TreatmentsDiabetic Foot Ulcer Assessment and ManagementMesenchymal stem cell research