Akebia Saponin D Targeting Ubiquitin Carboxyl‐Terminal Hydrolase 4 Promotes Peroxisome Proliferator‐Activated Receptor Gamma Deubiquitination and Activation of Brown Adipose Tissue Thermogenesis in Obesity
Lang Chen, Dong‐Hai Liu, Yu‐Xi Li, Song Yang, Wei‐Hua Jia, Liang Peng, Hong‐Lin Liu, Xing‐Bo Wang, Bing Hu, Yu‐Chen Wang, Calvin Pan, Aldons Jake Lusis, Li‐Hong Liu, Li‐Li Gong

TL;DR
Akebia Saponin D, a natural compound, activates brown fat thermogenesis by targeting USP4, offering a potential treatment for obesity.
Contribution
Identifies USP4 as a direct target of Akebia Saponin D and reveals a novel USP4–PPARγ–UCP1 pathway for thermogenesis.
Findings
Akebia Saponin D mitigates high-fat diet-induced obesity in mice.
ASD promotes UCP1-dependent thermogenesis by enhancing mitochondrial quality in brown adipocytes.
USP4 knockdown reduces ASD-induced thermogenesis, confirming its role as a key target.
Abstract
Promoting thermogenesis in adipose tissue to enhance energy expenditure is widely regarded as a promising strategy for obesity treatment. However, the development of effective thermogenic drugs remains challenging. Our screenings identified the natural compound Akebia Saponin D (ASD) as a potent brown fat thermogenesis activator in mice, showing effects through mitochondrial brown fat uncoupling protein 1 (UCP1)‐dependent pathways. ASD was found to significantly mitigate high‐fat diet‐induced obesity and enhance the mitochondrial quality of brown adipocytes to promote thermogenesis. Utilizing human protein microarrays, cellular thermal shift assay, and drug affinity responsive target stability, along with microscale thermophoresis and molecular docking analysis, we identified ubiquitin carboxyl‐terminal hydrolase 4 (USP4) as a direct target of ASD. ASD interacts with USP4 and promotes…
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Taxonomy
TopicsAdipose Tissue and Metabolism · Adipokines, Inflammation, and Metabolic Diseases · Muscle metabolism and nutrition
