Maternal High Fat Diet and its Expressions in the Heart and Liver in the Mice Embryogenesis.

IF 2.2 4区医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL

Current molecular medicine Pub Date : 2024-01-01 DOI:10.2174/1566524023666230605142119

Sanjeev Nirala, Xue-Rui Tan, Muhammad Shafiq, Rajesh Basnet, Apekshya Singh

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引用次数: 0

Abstract

Background: The developmental biology for the nonalcoholic fatty liver disease and coronary heart disease are known but elaborative ideas of triglycerides phenomenon in the embryo-genesis of the liver and the heart are still not clear.

Objective: The aim of the study was to relate different triglycerides like LXRα, LPL, LDL R, PPARG-, SREBP-1C expression in the high fat fed mice with the normal fed diet mice in the process of developmental and embryo-genesis biology.

Methods: Tissue preparation was done by ripalysis. Different protein content was obtained via western blot for the 6 samples namely a-17.5 days mice embryo heart; b- 0th day or the birthday mice infant heart; c-1 week mice infant heart; d-2 weeks mice infant heart; e-3 weeks mice infant heart; f-Adult mice heart. Protein lysates from the heart tissues of the mice was obtained via homegenization and centrifugation. Hematoxylin and Eosin (H and E) was done to see the fat droplets in the liver tissues at the different developmental stages.

Result: LXRα,SREBP-1C expression in 17.5 days mice embryo heart and 0th day or the birthday mice infant heart is highly expressed in the high fat diet. LDL-R in the high fat diet mice is increased in 2 weeks mice infant heart but in17.5 days mice embryo heart and in 0th day or the birthday mice infant heart it is low expression but from 1week mice infant heart to the adult mice heart the expression is in decreasing trend. Similarly LPL is highly expressed in17.5 days mice embryo heart and 1 week mice infant heart and thus low expression in decreasing order until adult mice heart.Thus, these results collectively shows that maternal HF diet increases expression of proteins such as LPL, LDLr in the embryo phase and thus getting normal expressions in the adult phase that facilitate Triglycerides (TAG) hydrolysis across the liver and the heart. Also,maternal high fat diet increases the SREBP1c expression, leading to stimulation of LPL Expression.

Conclusion: In summary, using a pregnant mice model, we found that maternal high fat diet increases the fetal fat accumulation. Elevated placental LPL activity and expression of genes that facilitate placental lipid transport suggest that enhanced placental lipid transport may play a key role in maternal nutrition and obesity-induced fetal fat accumulation.

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小鼠胚胎发育过程中母体高脂肪饮食及其在心脏和肝脏中的表达

背景：人们已经知道非酒精性脂肪肝和冠心病的发育生物学原理，但对甘油三酯在肝脏和心脏胚胎发育过程中的作用还不清楚：本研究的目的是将高脂喂养小鼠和正常喂养小鼠体内不同甘油三酯如LXRα、LPL、LDL R、PPARG-、SREBP-1C的表达与发育和胚胎发生生物学过程联系起来：方法：采用裂解法制备组织。a-17.5 天小鼠胚胎心脏；b-第 0 天或生日小鼠婴儿心脏；c-1 周小鼠婴儿心脏；d-2 周小鼠婴儿心脏；e-3 周小鼠婴儿心脏；f-成年小鼠心脏。小鼠心脏组织的蛋白质裂解液通过同源化和离心获得。用血红素和伊红（H and E）观察不同发育阶段肝组织中的脂肪滴：结果：在高脂饮食中，17.5 天小鼠胚胎心脏和第 0 天或出生后小鼠婴儿心脏中的 LXRα、SREBP-1C 高表达。高脂饮食小鼠的 LDL-R 在 2 周龄小鼠心脏中表达量增加，但在 17.5 天龄小鼠胚胎心脏和 0 天龄或生日小鼠心脏中表达量较低，但从 1 周龄小鼠心脏到成年小鼠心脏，其表达量呈下降趋势。同样，LPL 在 17.5 天的小鼠胚胎心脏和 1 周的小鼠婴儿心脏中表达量较高，而在成年小鼠心脏中的表达量则呈下降趋势。因此，这些结果共同表明，母体高脂肪饮食会增加 LPL、LDLr 等蛋白质在胚胎期的表达量，从而使其在成年期的表达量恢复正常，从而促进甘油三酯（TAG）在肝脏和心脏中的水解。此外，母体高脂肪饮食会增加 SREBP1c 的表达，从而刺激 LPL 的表达：总之，我们利用妊娠小鼠模型发现，母体高脂饮食会增加胎儿的脂肪积累。胎盘 LPL 活性的升高和促进胎盘脂质转运基因的表达表明，胎盘脂质转运的增强可能在母体营养和肥胖诱导的胎儿脂肪堆积中起着关键作用。

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

Current molecular medicine 医学-医学：研究与实验

CiteScore

5.00

自引率

4.00%

发文量

141

审稿时长

4-8 weeks

期刊介绍： Current Molecular Medicine is an interdisciplinary journal focused on providing the readership with current and comprehensive reviews/ mini-reviews, original research articles, short communications/letters and drug clinical trial studies on fundamental molecular mechanisms of disease pathogenesis, the development of molecular-diagnosis and/or novel approaches to rational treatment. The reviews should be of significant interest to basic researchers and clinical investigators in molecular medicine. Periodically the journal invites guest editors to devote an issue on a basic research area that shows promise to advance our understanding of the molecular mechanism(s) of a disease or has potential for clinical applications.