Dietary 23-hydroxy ursolic acid protects against diet-induced weight gain and hyperglycemia by protecting monocytes and macrophages against nutrient stress-triggered reprogramming and dysfunction and preventing adipose tissue inflammation

The aim of this study was to determine whether the atheroprotective phytochemical 23-hydroxy ursolic acid protects against diet-induced obesity and hyperglycemia by preventing nutrient stress-induced monocyte reprogramming. After a two week run-in period on a defined, phytochemical-free low-fat maintenance diet, 12-week old female C57BL/6J mice were either kept on the maintenance diet for additional 13 weeks or switched to either a high-calorie diet, a high-calorie diet supplemented with either 0.05% 23-hydroxy ursolic acid or a high-calorie diet supplemented with 0.2% 23-hydroxy ursolic acid. Dietary supplementation with 23-hydroxy ursolic acid reduced weight gain and adipose tissue mass, prevented hyperglycemia, hyperleptinemia and adipose tissue inflammation, and preserved glucose tolerance. 23-Hydroxy ursolic acid also preserved blood monocyte mitogen-activated protein kinase phosphatase-1 activity, a biomarker of monocyte health, and reduced macrophage content in the adipose tissue. Targeted gene profiling by qRT-PCR using custom-designed TaqMan (R) Array Cards revealed that dietary 23-hydroxy ursolic acid converts macrophages into a transcriptionally hyperactive phenotype with enhanced antioxidant defenses and anti-inflammatory potential. In conclusion, our findings show that dietary 23-hydroxy ursolic acid exerts both anti-obesogenic effects through multiple mechanisms. These include improving glucose tolerance, preventing hyperleptinemia, maintaining blood monocyte function, reducing recruitment of monocyte-derived macrophages into adipose tissues during nutrient stress, and converting these macrophages into an anti-inflammatory, potentially inflammation-resolving phenotype, all contributing to reduced adipose tissue inflammation. Our data suggest that 23-hydroxy ursolic acid may serve as an oral therapeutic and dietary supplement suited for patients at risk for obesity, impaired glucose tolerance and cardiovascular disease. (C) 2020 Elsevier Inc. All rights reserved.