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A nanoemulsion targeting adipose hypertrophy and hyperplasia shows anti-obesity efficiency in female mice

Yichao Lu, Zhenyu Luo, Huan‐Li Zhou, Yingying Shi, Ying Zhu, Xuemeng Guo, Jiaxin Huang, Junlei Zhang, Xu Liu, Sijie Wang, Xinyu Shan, Hang Yin, Yongzhong Du, Qingpo Li, Jian You, Lihua Luo

2024Nature Communications21 citationsDOIOpen Access PDF

Abstract

Obesity often leads to severe medical complications. However, existing FDA-approved medications to combat obesity have limited effectiveness in reducing adiposity and often cause side effects. These medications primarily act on the central nervous system or disrupt fat absorption through the gastrointestinal tract. Adipose tissue enlargement involves adipose hyperplasia and hypertrophy, both of which correlate with increased reactive oxygen species (ROS) and hyperactivated X-box binding protein 1 (XBP1) in (pre)adipocytes. In this study, we demonstrate that KT-NE, a nanoemulsion loaded with the XBP1 inhibitor KIRA6 and α-Tocopherol, simultaneously alleviates aberrant endoplasmic reticulum stress and oxidative stress in (pre)adipocytes. As a result, KT-NE significantly inhibits abnormal adipogenic differentiation, reduces lipid droplet accumulation, restricts lipid droplet transfer, impedes obesity progression, and lowers the risk of obesity-associated non-alcoholic fatty liver disease in female mice with obesity. Furthermore, diverse administration routes of KT-NE impact its in vivo biodistribution and contribute to localized and/or systemic anti-obesity effectiveness.

Topics & Concepts

Adipose tissueEndocrinologyInternal medicineMuscle hypertrophyObesityXBP1Unfolded protein responseOxidative stressMedicineHyperplasiaFatty liverEndoplasmic reticulumChemistryBiologyDiseaseCell biologyBiochemistryRNA splicingGeneRNAAdipose Tissue and MetabolismLipid metabolism and biosynthesisEndoplasmic Reticulum Stress and Disease
A nanoemulsion targeting adipose hypertrophy and hyperplasia shows anti-obesity efficiency in female mice | Litcius