In recent decades, the prevalence of obesity has been rising. One of the major characteristics of obesity is fat accumulation, including hyperplasia (increase in number) and hypertrophy (increase in size). After histological staining, it is critical to accurately measure the number and size of adipocytes for assessing the severity of obesity in a timely fashion. Manual measurement is accurate but time-consuming. Although commercially available adipocyte counting tools, including AdipoCount, Image-Pro Plus, and ImageJ were helpful, limitations still exist in accuracy and time consuming. In the present study, we introduced the protocol of combined usage of these tools and illustrated the process with histological staining slides from adipose tissues of lean and obese mice. We found that the adipocyte sizes quantified by the tool combination were comparable as manual measurement, whereas the combined methods were more efficient. Besides, the recognition effect of monochrome segmentation image is better than that of color segmentation image. Overall, we developed a combination method to measure adipocyte sizes accurately and efficiently, which may be helpful for experimental process in laboratory and also for clinic diagnosis.
Obesity, a metabolic disease caused by multiple factors, has become a global health problem. In addition to nutrient intake and sedentary lifestyle, environmental pollutants exposure has been shown to be involved in obesity epidemics. Antibiotics, a new type of environmental pollutant, have been widely used in animal husbandry, aquaculture and microorganism. However, the effects of antibiotics exposure on fat metabolism and metabolic diseases are largely unknown. Methods: We screened major types of antibiotics to examine their effects on the differentiation capacity and thermogenic functionality of brown and beige adipocytes, and found that azithromycin, one major kind of macrolide antibiotics suppressed brown and beige adipocyte functionality. We thus examined azithromycin accretion in adipose tissues of obese patients that correlates with BMI by high performance liquid chromatography-tandem mass spectrometry and systematically explore the influences of azithromycin on adiposity and metabolic performance in mice under high diet. Results: Azithromycin (macrolides) inhibits the mitochondrial and thermogenic gene programs of brown and beige adipocytes, thus disrupting their mitochondrial function and thermogenic response. Consistently, azithromycin treatment are more prone to diet-induced obesity in mice, and this was associated with impaired energy expenditure. Importantly, azithromycin is more accumulated in adipose tissue of obese patients and correlates with BMI and body weight. Mechanistically, we found that azithromycin inhibits mitochondria respiratory complex I protein levels and increases reactive oxidative species (ROS) levels, which causes damage of mitochondrial function in brown and beige adipocytes. The deleterious effects of azithromycin can be ameliorated by antioxidant N-acetyl-L-cysteine. Conclusions: Taken together, this work highlights the possible role of azithromycin in obesity epidemic and presents strategies for safe applications of antibiotics in the future.
Background: Activation of alpha-7 nicotinic acetylcholine receptor (α7nAChR) can inhibit the systemic inflammatory response and preserve intestinal barrier integrity. This study aimed at elucidating the molecular mechanisms by which α7nAChR activation could inhibit intestinal barrier injury and cholestatic liver fibrosis in mice induced by bile duct ligation (BDL).Methods: The intestine-specific HO-1 knockout VillinCreHmox1-/- and control Hmox1floxp/floxp C57BL/6 mice were subjected to BDL. The therapeutic effects of GST-21, a specific ligand for α7nAChR, on systemic and intestinal inflammation, intestinal barrier integrity, liver fibrosis and injury, HO-1 expression, STAT3, AKT and NF-kBp65 activation were examined in these mice and intestinal epithelial cells co-cultured with macrophages. Results: Compared with BDL mice, α7nAChR activation by GST-21 decreased intestinal and liver injury and fibrosis in BDL mice, accompanied by reducing serum cytokine responses. In addition, activation of α7nAChR preserved the tight junction protein expression and intestinal epithelial cell barrier integrity in BDL mice and epithelial cells co-cultured with macrophages. The therapeutic effects of α7nAChR activation were mediated by enhancing HO-1 expression, STAT3 phosphorylation, and reducing the NF-kBp65 activation in intestinal tissues and epithelial cells co-cultured with macrophages. Finally, activation of α7nAChR induced HO-1 expression and STAT3 phosphorylation in an interdependent manner, independent of the PI3K/AKT signaling. Conclusion: Activation of α7nAChR enhanced HO-1 expression and STAT3 signaling to inhibit NF-κB activation, preserving the intestinal barrier integrity, and reducing inflammation and liver fibrosis in cholestasis mice. Therefore, targeting α7nAChR may be a promising interventional strategy for primary biliary cholangitis.
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