Periodontitis is a common oral disease characterized by progressive alveolar bone resorption and inflammation of the periodontal tissues. Dimethyl fumarate (DMF) has been used in the treatment of various immune-inflammatory diseases due to its excellent anti-inflammatory and antioxidant functions. Here, we investigated for the first time the therapeutic effect of DMF on periodontitis. In vivo studies showed that DMF significantly inhibited periodontal destruction, enhanced mitophagy, and decreased the M1/M2 macrophage ratio. In vitro studies showed that DMF inhibited macrophage polarization toward M1 macrophages and promoted polarization toward M2 macrophages, with improved mitochondrial function, inhibited oxidative stress, and increased mitophagy in RAW 264.7 cells. Furthermore, DMF increased intracellular mitochondrial Tu translation elongation factor (TUFM) levels to maintain mitochondrial homeostasis, promoted mitophagy, and modulated macrophage polarization, whereas TUFM knockdown decreased the protective effect of DMF. Finally, mechanistic studies showed that DMF increased intracellular TUFM levels by protecting TUFM from degradation via the ubiquitin-proteasomal degradation pathway. Our results demonstrate for the first time that DMF protects mitochondrial function and inhibits oxidative stress through TUFM-mediated mitophagy in macrophages, resulting in a shift in the balance of macrophage polarization, thereby attenuating periodontitis. Importantly, this study provides new insights into the prevention of periodontitis.
Dimethyl Fumarate/pharmacology* ; Mitophagy/drug effects* ; Animals ; Mice ; Macrophages/metabolism* ; Periodontitis/prevention & control* ; RAW 264.7 Cells ; Oxidative Stress/drug effects* ; Peptide Elongation Factor Tu/metabolism* ; Mice, Inbred C57BL ; Male ; Mitochondria/drug effects*

Objective To investigate the effectiveness of optimized flow sensitive black blood(FSBB)imaging in detecting the number of branches and measuring the depth of lenticulostriate arteries(LSAs)in patients with acute ischemic stroke.Methods The ima-ging and clinical data of 39 patients with acute ischemic stroke who underwent vascular recanalization under digital subtraction angi-ography(DSA)were prospectively collected.All patients received 3.0T MR FSBB imaging within 48-96 hours postoperatively.The number and depth of LSAs branches on the affected side were observed,measured and recorded by the post-processing workstations for both FSBB and DSA images.The difference and correlation of the number and average depth of LSAs branches detected by FSBB and DSA were analyzed.The consistency of the average depth of LSAs branches detected by FSBB and DSA was evaluated.Results There was no statistically significant difference in the number and depth of bilateral LSAs branches detected by FSBB and DSA(P＞0.05).FSBB and DSA showed strong positive correlations in detecting the number and depth of LSAs branches(r=0.786,0.704;P＜0.05).The number of average depth difference of bilateral LSAs branches detected by FSBB and DSA exceeded the limit of agreement(LoA)was 3,accounting for 4.92％(＜5％).Conclusion Optimized FSBB imaging can be used to assess the detection of the number and depth measurement of LSAs branches in patients with acute ischemic stroke,showing good consistency with DSA.It provides valua-ble imaging evidence for the morphological assessment of LSAs in clinical practice.

Objective To investigate the effectiveness of optimized flow sensitive black blood(FSBB)imaging in detecting the number of branches and measuring the depth of lenticulostriate arteries(LSAs)in patients with acute ischemic stroke.Methods The ima-ging and clinical data of 39 patients with acute ischemic stroke who underwent vascular recanalization under digital subtraction angi-ography(DSA)were prospectively collected.All patients received 3.0T MR FSBB imaging within 48-96 hours postoperatively.The number and depth of LSAs branches on the affected side were observed,measured and recorded by the post-processing workstations for both FSBB and DSA images.The difference and correlation of the number and average depth of LSAs branches detected by FSBB and DSA were analyzed.The consistency of the average depth of LSAs branches detected by FSBB and DSA was evaluated.Results There was no statistically significant difference in the number and depth of bilateral LSAs branches detected by FSBB and DSA(P＞0.05).FSBB and DSA showed strong positive correlations in detecting the number and depth of LSAs branches(r=0.786,0.704;P＜0.05).The number of average depth difference of bilateral LSAs branches detected by FSBB and DSA exceeded the limit of agreement(LoA)was 3,accounting for 4.92％(＜5％).Conclusion Optimized FSBB imaging can be used to assess the detection of the number and depth measurement of LSAs branches in patients with acute ischemic stroke,showing good consistency with DSA.It provides valua-ble imaging evidence for the morphological assessment of LSAs in clinical practice.