Nanosphere loaded with curcumin attenuates adipogenesis and lipid metabolism by modulating AKT/mTORC1/PPARγ phosphorylation

IF 2.5 4区生物学 Q1 ANATOMY & MORPHOLOGY

Tissue & cell Pub Date : 2025-08-29 DOI:10.1016/j.tice.2025.103112

Ji-Yeon Park , Ri-Won Kim , Jin Lee , Won-Kyo Jung , Jae-Young Je , Sei-Jung Lee

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引用次数: 0

Abstract

Curcumin, a hydrophobic polyphenol derived from turmeric, exhibits diverse biological activities as a natural supplement. However, its low gastrointestinal absorption significantly limits its oral bioavailability. In this study, we investigated the effects of curcumin-loaded nanospheres (CN) on adipocyte differentiation in 3T3-L1 cells and obesity development in high-fat diet-induced obese mice. CN markedly suppressed adipogenesis in 3T3-L1 preadipocytes, demonstrating approximately 100-fold greater anti-adipogenic activity compared to native curcumin. Mechanistically, CN inhibited mTOR phosphorylation by modulating intracellular reactive oxygen species during adipocyte differentiation. Notably, CN restored fatty acid synthase expression through regulation of PPARγ phosphorylation. In high-fat diet-fed mice, oral administration of CN significantly reduced body weight without altering food intake. Furthermore, CN alleviated the accumulation of white adipose tissue and liver mass, along with a reduction in plasma total cholesterol levels. Collectively, these findings suggest that CN enhances the bioavailability of curcumin and exerts potent anti-obesity effects by targeting adipogenesis and lipid metabolism.

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负载姜黄素的纳米球通过调节AKT/mTORC1/PPARγ磷酸化来减缓脂肪生成和脂质代谢

姜黄素是一种从姜黄中提取的疏水多酚，作为天然补充剂具有多种生物活性。然而，其低胃肠道吸收严重限制了其口服生物利用度。在这项研究中，我们研究了姜黄素负载纳米球（CN）对高脂饮食诱导的肥胖小鼠3T3-L1细胞脂肪细胞分化和肥胖发展的影响。CN显著抑制3T3-L1前脂肪细胞的脂肪生成，与天然姜黄素相比，显示出大约100倍的抗脂肪生成活性。在机制上，CN通过调节脂肪细胞分化过程中的细胞内活性氧来抑制mTOR磷酸化。值得注意的是，CN通过调控PPARγ磷酸化恢复脂肪酸合成酶的表达。在高脂肪饮食喂养的小鼠中，口服CN显著降低体重，而不改变食物摄入量。此外，CN减轻了白色脂肪组织和肝脏肿块的堆积，同时降低了血浆总胆固醇水平。综上所述，这些发现表明，CN可以提高姜黄素的生物利用度，并通过靶向脂肪生成和脂质代谢发挥有效的抗肥胖作用。

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来源期刊

Tissue & cell 医学-解剖学与形态学

CiteScore

3.90

自引率

0.00%

发文量

234

期刊介绍： Tissue and Cell is devoted to original research on the organization of cells, subcellular and extracellular components at all levels, including the grouping and interrelations of cells in tissues and organs. The journal encourages submission of ultrastructural studies that provide novel insights into structure, function and physiology of cells and tissues, in health and disease. Bioengineering and stem cells studies focused on the description of morphological and/or histological data are also welcomed. Studies investigating the effect of compounds and/or substances on structure of cells and tissues are generally outside the scope of this journal. For consideration, studies should contain a clear rationale on the use of (a) given substance(s), have a compelling morphological and structural focus and present novel incremental findings from previous literature.