Obesity-Facilitated Colon Cancer Progression Is Mediated by Increased Diacylglycerol O-Acyltransferases 1 and 2 Levels.

IF 25.7 1区医学 Q1 GASTROENTEROLOGY & HEPATOLOGY

Gastroenterology Pub Date : 2025-02-01 Epub Date: 2024-09-18 DOI:10.1053/j.gastro.2024.09.011

Jenisha Ghimire, Morgan E Collins, Patricia Snarski, Angelle N King, Emmanuelle Ruiz, Rida Iftikhar, Harrison M Penrose, Krzysztof Moroz, Tyler Rorison, Melody Baddoo, Muhammad Anas Naeem, Arnold H Zea, Scott T Magness, Erik F Flemington, Susan E Crawford, Suzana D Savkovic

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引用次数: 0

Abstract

Background & aims: The obesity epidemic is associated with increased colon cancer progression. As lipid droplets (LDs) fuel tumor growth, we aimed to determine the significance of diacyltransferases (diacylglycerol o-acyltransferases 1 and 2 [DGAT1/2]), responsible for LDs biogenesis, in obesity-mediated colonic tumorigenesis.

Methods: Human colon cancer samples, colon cancer cells, colonospheres, and Apc^Min/+ colon cancer mouse model on a high-fat diet were employed. For DGAT1/2 inhibition, enzymatic inhibitors and small interfering RNA were used. Expression, pathways, cell cycle, and growth were assessed. Bioinformatic analyses of CUT&RUN and RNA sequencing data were performed.

Results: DGAT1/2 levels in human colon cancer tissue are significantly elevated with disease severity and obesity (vs normal). Their levels are increased in human colon cancer cells (vs nontransformed) and further enhanced by fatty acids prevalent in obesity; augmented DGAT2 expression is MYC-dependent. Inhibition of DGAT1/2 improves FOXO3 activity by attenuating PI3K, resulting in reduced MYC-dependent DGAT2 expression and accumulation of LDs, suggesting feedback. This inhibition attenuated growth in colon cancer cells and colonospheres via FOXO3/p27kip1 cell cycle arrest and reduced colonic tumors in Apc^Min/+ mice on a high-fat diet. Transcriptomic analysis revealed that DGAT1/2 inhibition targeted metabolic and tumorigenic pathways in human colon cancer and colon cancer crypts, stratifying human colon cancer samples from normal. Further analysis revealed that this inhibition is predictive of advanced disease-free state and survival in patients with colon cancer.

Conclusions: This is a novel mechanism of DGAT1/2-dependent metabolic and tumorigenic remodeling in obesity-facilitated colon cancer, providing a platform for future development of effective treatments for patients with colon cancer.

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二酰甘油邻酰转移酶 1 和 2（DGAT1/2）水平的升高是肥胖症促进结肠癌进展的介导因素。

背景与目的：肥胖症的流行与结肠癌的恶化有关。由于脂滴（LDs）会助长肿瘤生长，我们旨在确定负责 LDs 生物生成的二酰转移酶 DGAT1/2 在肥胖介导的结肠肿瘤发生中的重要性。采用酶抑制剂和 siRNA 抑制 DGAT1/2。对表达、通路、细胞周期和生长进行了评估。对 CUT&RUN 和 RNAseq 数据进行了生物信息学分析：结果：人类结肠癌组织中的 DGAT1/2 水平随着疾病严重程度和肥胖程度的增加而显著升高（与正常人相比）。它们在人结肠癌细胞（与非转化细胞相比）中的水平升高，并因肥胖中普遍存在的脂肪酸而进一步升高；DGAT2表达的增加是MYC依赖性的。抑制 DGAT1/2 可通过抑制 PI3K 来提高 FOXO3 的活性，从而减少 MYC 依赖性 DGAT2 的表达和 LDs 的积累，这表明存在反馈作用。这种抑制作用通过 FOXO3/p27kip1 细胞周期停滞来抑制结肠癌细胞和结肠球的生长，并减少高脂饮食 ApcMin/+ 小鼠的结肠肿瘤。转录组分析表明，DGAT1/2 抑制针对的是人类结肠癌和结肠癌隐窝中的代谢和致瘤途径，将人类结肠癌样本与正常样本分层。进一步的分析表明，这种抑制可预测结肠癌患者的晚期无病状态和生存期：结论：这是肥胖促进结肠癌中 DGAT1/2 依赖性代谢和致瘤重塑的新机制，为未来开发结肠癌患者的有效治疗方法提供了平台。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Gastroenterology 医学-胃肠肝病学

CiteScore

45.60

自引率

2.40%

发文量

4366

审稿时长

26 days

期刊介绍： Gastroenterology is the most prominent journal in the field of gastrointestinal disease. It is the flagship journal of the American Gastroenterological Association and delivers authoritative coverage of clinical, translational, and basic studies of all aspects of the digestive system, including the liver and pancreas, as well as nutrition. Some regular features of Gastroenterology include original research studies by leading authorities, comprehensive reviews and perspectives on important topics in adult and pediatric gastroenterology and hepatology. The journal also includes features such as editorials, correspondence, and commentaries, as well as special sections like "Mentoring, Education and Training Corner," "Diversity, Equity and Inclusion in GI," "Gastro Digest," "Gastro Curbside Consult," and "Gastro Grand Rounds." Gastroenterology also provides digital media materials such as videos and "GI Rapid Reel" animations. It is abstracted and indexed in various databases including Scopus, Biological Abstracts, Current Contents, Embase, Nutrition Abstracts, Chemical Abstracts, Current Awareness in Biological Sciences, PubMed/Medline, and the Science Citation Index.