Browsing by Subject "Allergic airway inflammation"

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    BATF Regulates T Regulatory Cell Functional Specification and Fitness of Triglyceride Metabolism in Restraining Allergic Responses
    (American Association of Immunologists, 2021) Xu, Chengxian; Fu, Yongyao; Liu, Sheng; Trittipo, Jack; Lu, Xiaoyu; Qi, Rong; Du, Hong; Yan, Cong; Zhang, Chi; Wan, Jun; Kaplan, Mark H.; Yang, Kai; Pediatrics, School of Medicine
    Preserving appropriate function and metabolism in regulatory T (Treg) cells is crucial for controlling immune tolerance and inflammatory responses. Yet how Treg cells coordinate cellular metabolic programs to support their functional specification remains elusive. In this study, we report that BATF couples the TH2-suppressive function and triglyceride (TG) metabolism in Treg cells for controlling allergic airway inflammation and IgE responses. Mice with Treg-specific ablation of BATF developed an inflammatory disorder characterized by TH2-type dominant responses and were predisposed to house dust mite-induced airway inflammation. Loss of BATF enabled Treg cells to acquire TH2 cell-like characteristics. Moreover, BATF-deficient Treg cells displayed elevated levels of cellular TGs, and repressing or elevating TGs, respectively, restored or exacerbated their defects. Mechanistically, TCR/CD28 costimulation enhanced expression and function of BATF, which sustained IRF4 activity to preserve Treg cell functionality. Thus, our studies reveal that BATF links Treg cell functional specification and fitness of cellular TGs to control allergic responses, and suggest that therapeutic targeting of TG metabolism could be used for the treatment of allergic disease.
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    Sex-Specific Anti-Inflammatory Effects of a Ketogenic Diet in a Mouse Model of Allergic Airway Inflammation
    (MDPI, 2025-03-26) Ekpruke, Carolyn D.; Borges-Sosa, Omar; Hassel, Christiane A.; Rousselle, Dustin; Dinwiddie, Lyidia; Babayev, Maksat; Bakare, Ahmed; Silveyra, Patricia; Medicine, School of Medicine
    Asthma, a chronic inflammatory airway disease, leads to airflow obstruction and exhibits sex differences in prevalence and severity. Immunomodulatory diets, such as the ketogenic diet (high fat, low carbohydrate, moderate protein), may offer complementary benefits in managing airway inflammation. While anti-inflammatory effects of ketogenic diets are documented in cardiovascular diseases, their impact on asthma, especially regarding sex-specific differences, remains unexplored. Few studies on diet and asthma have considered sex as a biological factor. To test the hypothesis that a ketogenic diet affects airway inflammation in a sex-specific manner, we used a mouse allergic airway inflammation model. Male and female C57BL/6J mice (3-4 weeks old, n = 5-6/group) were fed a ketogenic diet or normal chow for 12 weeks. From weeks 7 to 12, mice were challenged intranasally with house dust mite allergens (HDM) 5 days/week to induce airway inflammation. Lung tissue was analyzed 72 h post-exposure using flow cytometry to assess immune cell populations, and data were analyzed with two-way ANOVA. The ketogenic diet increased body weight in allergen-exposed mice, with a greater effect in males than females (p = 0.0512). Significant sex-diet interactions were noted for alveolar macrophages, CD103+, CD11B+, and plasmacytoid dendritic cells (p < 0.05). Eosinophil reductions were observed in males but not females on the ketogenic diet. The diet also increased NKT cells and decreased NK cells in males but not females (p < 0.001). These findings highlight sex-specific effects of ketogenic diets on lung immune responses, with stronger impacts in males.