«上一篇/Previous Article|本期目录/Table of Contents|下一篇/Next Article»

《天津医科大学学报》[ISSN:1006-8147/CN:12-1259/R]

卷:

26卷

期数:

2020年03期

页码:

193-198

栏目:

基础医学

出版日期:

2020-06-10

文章信息/Info

Title:

KLF9 adenoviral vector construction and it’s function in fatty acid oxidation

文章编号:

1006-8147(2020)03-0193-06

作者:

黄金灿; 张磊; 常永生

（天津医科大学基础医学院生理与病理生理学系，天津300070）

Author(s):

HUANG Jin-can; ZHANG Lei; CHANG Yong-sheng

（Department of Pathology and Physiology， School of Basic Medicine，Tianjin Medical University，Tianjin 300070，China)

关键词:

KLF9; 脂肪酸氧化; PGC1-α; 腺病毒; 肝脏

Keywords:

KLF9; fatty acid oxidation; PGC1-α; adenovirus; liver

分类号:

R363

DOI:

-

文献标志码:

A

摘要:

目的：构建Krüppel样转录因子9（KLF9）过表达的腺病毒，初步探讨KLF9在肝脏脂肪酸氧化中的功能。方法：根据分子克隆的原理，构建融合表达3×Flag的KLF9过表达的腺病毒，并在293A细胞中验证KLF9腺病毒感染效率。将融合表达3×Flag的KLF9过表达的腺病毒分别感染肝原代细胞、正常饮食小鼠以及高脂小鼠，通过Q-PCR检测过氧化物酶体增殖物活化受体-γ协同刺激因子PGC 1-α等脂肪酸氧化相关基因的表达情况。结果：Q-PCR以及 Western blot 结果证明融合表达3×Flag的KLF9过表达腺病毒载体包装成功，通过荧光显微镜观察到感染效率达90%以上。经Q-PCR检测，感染Ad-KLF9的肝原代细胞和肝脏组织中，PGC1-α等脂肪酸氧化相关基因表达明显高于对照组。结论：初步认定KLF9可促进脂肪酸氧化，改善高脂诱导的非酒精性脂肪肝。

Abstract:

Objective: To construct Krüppel-like transcription factor 9(KLF9) overexpressed adenovirus and explore the role of KLF9 in liver fatty acid oxidation. Methods：KLF9 fusion with 3×Flag overexpressed adenovirus was constructed, according to the principle of molecular cloning, and the infection efficiency of adenovirus was tested in 293A cells. The Ad-KLF9 was infected into primary liver cells, chow and high-fat diet induced mice respectively, and the expression of fatty acid oxidation related genes such as PGC1-α were detected by Q-PCR. Results：Q-PCR and Western blot results showed that KLF9 fusion with 3×Flag overexpressed adenovirus was successfully packaged, and more than 90% of the infection efficiency was observed by fluorescence microscopy. The expression of fatty acid oxidation related genes such as PGC1-α in primary liver cells and liver tissues infected with Ad-KLF9 were significantly higher than those in the control group by Q-PCR. Conclusion：It is preliminarily determined that KLF9 can promote fatty acid oxidation and improve the non-alcoholic fatty liver disease.

参考文献/References:

[1] Fucho R, Casals N, Serra D, et al. Ceramides and mitochondrial fatty acid oxidation in obesity[J]. FASEB J, 2017, 31（4）:1263
[2] Kang L, Lai M D. BTEB/KLF9 and its transcriptional regulation[J]. Hereditas, 2007, 29（5）:515
[3] Imataka H, Sogawa K, Yasumoto K, et al. Two regulatory proteins that bind to the basic transcription element （BTE）, a GC box sequence in the promoter region of the rat P-4501A1 gene[J]. EMBO J, 1992, 11（10）:3663
[4] Imataka H N K, Hayami M. Cell-specific translational control of transcription factor BTEB expression.The role of an upstream AUG in the 5′-untranslated region[J]. J Biol Chem, 1994, 269（32）:20668
[5] Simmen Rc E R, Oh S P. Subfertility,uterine hypoplasia,and partial progesterone resistance in mice lacking the Kruppel-like factor 9/basic transcription element-bindingprotein-1（Bteb1）gene[J]. J Biol Chem, 2004, 279（28）:29286
[6] Pei H Y Y, Wu J R. Kruppel-like factor KLF9 regulates PPARgamma transactivation at the middle stage of adipogenesis[J]. Cell Death Differ, 2011, 18（2）:315
[7] Escalona-Nandez I G, Perez-Monter C. The activation of peroxisome proliferator activated receptor gamma is regulated by Kruppel-like transcription factors 6&9 under steatotic conditions[J]. Biochem Biophys Res Commun, 2015, 458（4）:751
[8] Cui A F, Fan H, Zhang Y L, et al. Dexamethasone-induced Kruppel-like factor 9 expression promotes hepatic gluconeogenesis and hyperglycemia[J]. J Clinical Invest, 2019, 129（6）:2266
[9] Diehl A M, Day C. Cause, pathogenesis, and treatment of nonalcoholic steatohepatitis[J]. N Engl J Med, 2017, 377（21）:2063
[10] Machado M V, Diehl A M. Pathogenesis of nonalcoholic steatohepatitis [J]. Gastroenterology, 2016, 150（8）:1769
[11] Bettermann K, Hohensee T, Haybaeck J. Steatosis and steatohepatitis: complex disorders[J]. Int J Mol Sci, 2014, 15（6）:9924
[12] Gluchowski N L, Becuwe M, Walther T C. Lipid droplets and liver disease: from basic biology to clinical implications[J]. Nat Rev Gastroenterol Hepatol, 2017, 14（6）:343
[13] Zhang J, Hashmi S, Cheema F, et al. Regulation of lipoprotein assembly, secretion and fatty acid beta-oxidation by Kruppel-Like transcription factor, klf-3[J]. J Mol Biol, 2013, 425（15）:2641
[14] Pol C J, Pollak N M, Jurczak M J, et al. Cardiac myocyte KLF5 regulates body weight via alteration of cardiac FGF21[J]. Biochim Biophys Acta Mol Basis Dis, 2019, 1865（9）:2125
[15] Zhang H B, Chen Q, Yang M, et al. Mouse KLF11 regulates hepatic lipid metabolism[J]. J Hepatol, 2013, 58（4）:763
[16] Burgess S C, Leone T C, Wende A R, et al. Diminished hepatic gluconeogenesis via defects in tricarboxylic acid cycle flux in peroxisome proliferator-activated receptor γ coactivator-1α （PGC-1α）-deficient mice[J]. J Biol Chem, 2006, 281（28）:19000
[17] Wu J, Srinivasan S V, Neumann J C, et al. The KLF2 transcription factor does not affect the formation of preadipocytes but inhibits their differentiation into adipocytes[J]. Biochemistry, 2005, 44（33）:11098

相似文献/References:

备注/Memo

备注/Memo:

基金项目 国家自然科学基金资助项目（817300024）
作者简介 黄金灿（1994-），女，硕士在读，研究方向：医学生理学；通信作者：常永生，E-mail:changy@ibms.pumc.en。

常用功能

更新日期/Last Update: 2020-06-13