Inhibition of microRNA‐222 up‐regulates TIMP3 to promotes osteogenic differentiation of MSCs from fracture rats with type 2 diabetes mellitus

Type 2 diabetes mellitus (T2DM) is the most common diabetes and has numerous complications. Recent studies demonstrated that T2DM compromises bone fracture healing in which miR‐222 might be involved. Furthermore, tissue inhibitor of metalloproteinase 3 (TIMP‐3) that is the target of miR‐222 accelerates fracture healing. Therefore, we assume that miR‐222 could inhibit TIMP‐3 expression. Eight‐week‐old rats were operated femoral fracture or sham, following the injection of streptozotocin (STZ) to induce diabetes one week later in fractured rats, and then, new generated tissues were collected for measuring the expression of miR‐222 and TIMP‐3. Rat mesenchymal stem cells (MSCs) were isolated and treated with miR‐222 mimic or inhibitor to analyse osteogenic differentiation. MiR‐222 was increased in fractured rats and further induced in diabetic rats. In contrast, TIMP‐3 was reduced in fractured and further down‐regulated in diabetic rats. Luciferase report assay indicated miR‐222 directly binds and mediated TIMP‐3. Furthermore, osteogenic differentiation was suppressed by miR‐222 mimic and promoted by miR‐222 inhibitor. miR‐222 is a key regulator that is promoted in STZ‐induced diabetic rats, and it binds to TIMP3 to reduce TIMP‐3 expression and suppressed MSCs’ differentiation.