https://www.selleckchem.com/products/trolox.html GABARAPL1, GABARAPL2, and ATG13 were obtained as co-expressed autogenes in the 3 data sets. They were all downregulated among OA synovial tissues compared with non-OA synovial tissues ( < 0.01). A protein-protein interaction network was constructed based on these 3 genes and included 63 genes. A functional analysis revealed that these genes were associated with autophagy-related functions. The top hub genes in the protein-protein interaction network were presented. Furthermore, 3 key modules were extracted to be core control modules. These results offer an important molecular understanding of the key transcriptional regulatory genes and modules based on the network of potential autophagy mechanisms in human OA. These results offer an important molecular understanding of the key transcriptional regulatory genes and modules based on the network of potential autophagy mechanisms in human OA. Allergic Fungal Rhinosinusitis (AFRS) is a non-invasive fungal disease that results from chronic allergic inflammation of the sinonasal mucosa. Failure to respond to mainstay medical therapies and sinus surgery leaves AFRS patients with limited alternatives and a decreased quality of life. Mepolizumab is a known IL-5 antagonist for patients with severe eosinophilic asthma. To identify the efficacy of mepolizumab on improving Modified Lund-Kennedy (MLK) endoscopic scores in recalcitrant AFRS patients with asthma. Retrospective chart review of 27 recalcitrant AFRS patients with asthma receiving a monthly mepolizumab injection between January 2017 and July 2019. Patients were evaluated endoscopically at baseline and at each follow-up visit every 6-8 weeks until their third visit. Secondary outcomes included SNOT-22 scores, serum eosinophil counts and the rate of prednisone rescues required in patients receiving mepolizumab compared to a retrospective control arm. Total median MLK scores improved significr to benefit the most. Adjunctive