Hysterectomy may impair ovarian blood supply and function. There is good correlation between Doppler parameters and endocrine parameters.
Periodontitis is a chronic infectious disease caused by bacterial irritation. As an essential component of the host immunity, macrophages are highly plastic and play a crucial role in inflammatory response. An appropriate and timely transition from proinflammatory (M1) to anti‐inflammatory (M2) macrophages is indispensable for treating periodontitis. As M2 macrophage‐derived exosomes (M2‐exos) can actively target inflammatory sites and modulate immune microenvironments, M2‐exos can effectively treat periodontitis. Excessive endoplasmic reticulum stress (ER stress) and unfolded protein response (UPR) are highly destructive pathological characteristics during inflammatory periodontal bone loss. Although melatonin has antioxidant and anti‐inflammatory effects, studies focusing on melatonin ER stress modulation remain limited. This study fabricates engineered M2‐exos loading with melatonin (Mel@M2‐exos) for treating periodontitis. As a result, M2‐exos drive an appropriate and timely macrophage reprogramming from M1 to M2 type, which resolves chronic inflammation and accelerated periodontal healing. Melatonin released from Mel@M2‐exos rescues the osteogenic and cementogenic differentiation capacity in inflammatory human periodontal ligament cells (hPDLCs) by reducing excessive ER stress and UPR. Injectable gelatin methacryloyl (GelMA) hydrogels with sustained‐release Mel@M2‐exos accelerate periodontal bone regeneration in rats with ligation‐induced periodontitis. Taken together, melatonin engineering M2 macrophage‐derived exosomes are promising candidates for inflammatory periodontal tissue regeneration.
The aberrant expression of secretory mucin MUC5AC has been documented during the tumourigenesis and progression of various cancers. However, little is currently known on the function of MUC5AC in lung adenocarcinoma. The present study focused on the tumour‐promoting role of MUC5AC and its regulatory mechanisms in lung adenocarcinoma. Firstly, MUC5AC expression was evaluated in NSCLC tissue microarrays by immunohistochemistry. Kaplan–Meier analysis were used to clarify the prognostic value of MUC5AC. Subsequently, small interfering RNA and small hairpin RNA were used to knockdown MUC5AC in lung ADC cell lines to elucidate its role in tumorigenesis and progression of lung adenocarcinoma via in vitro functional assays and xenograft mouse models. Finally, the regulatory mechanisms underlying p53/Sp1/MUC5AC axis were identified through dual‐luciferase report. We found that MUC5AC was upregulated in lung ADC tissues and cell lines, especially in KRAS‐mutant cases and correlated with poor prognosis. MUC5AC gene silencing resulted in reduced cell proliferation, invasion and migration. Furthermore, knockdown of MUC5AC led to reversion of the epithelial–mesenchymal transition. Additionally, downregulation of MUC5AC reduced tumourigenesis in mouse models. Finally, we found an antagonistic role between Sp1 and p53 in the regulation of MUC5AC gene expression. Our findings suggest that high MUC5AC expression promotes tumourigenesis and progression of lung ADC. Both p53 gene inactivation and Sp1 overexpression in lung ADC may enhance MUC5AC expression, especially in KRAS‐mutated cases. Given the paucity of efficient drug‐targeted approaches of KRAS‐driven lung ADCs, therapies directed at downstream effectors such as MUC5AC could have huge prospects.
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