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    Roles of Long-chain Acyl Coenzyme A Synthetase in Absorption and Transport of Fatty Acid△
    
                
    2016-03-26 20:51:39FanGaoXuefengYangNianFuYangHuYanOuyangandKaiQing
    
                
    Chinese Medical Sciences Journal 2016年1期 
    關(guān)鍵詞:信號電纜核心部件補償器
    
                    
    Fan Gao, Xue-feng Yang*, Nian Fu, Yang Hu, Yan Ouyang, and Kai Qing
    1Department of Gastroenterology, the Affiliated Nanhua Hospital of University of South China, Hengyang 421002, Hunan, China2Department of Nephrology,3Department of Hematology, Ruijin Hospital, Shanghai Jiaotong University School of Medicine, Shanghai 200025, China
    ?
    Roles of Long-chain Acyl Coenzyme A Synthetase in Absorption and Transport of Fatty Acid△
    Fan Gao1, Xue-feng Yang1*, Nian Fu1, Yang Hu1, Yan Ouyang2, and Kai Qing2
    1Department of Gastroenterology, the Affiliated Nanhua Hospital of University of South China, Hengyang 421002, Hunan, China2Department of Nephrology,3Department of Hematology, Ruijin Hospital, Shanghai Jiaotong University School of Medicine, Shanghai 200025, China
    long-chain acyl coenzyme A synthetase; fatty acid; absorption; transport
    Long-chain acyl coenzyme A synthetase (ACSL) is a member of the synthetase family encoded by a multigene family; it plays an important role in the absorption and transport of fatty acid. Here we review the roles of ACSL in the regulating absorption and transport of fatty acid, as well as the connection between ACSL and some metabolic diseases.
    Chin Med Sci J 2016; 31(1):62-64
    AS is known to all, fatty acid, is not only a major source of energy for mammals, but also a vital participant in normal growth and metabolism of cells. Long-chain acyl coenzyme A synthetase (ACSL) is considered to be a vital synthetase acting on absorption and transport of fatty acid. The increasing evidences have indicated that ACSLs are the crucial enzymes responsible for fatty acid metabolism throughout the body.1ACSLs have been confirmed to carry out anabolism of triglycerides, phospholipids, and cholesterol ester, as well as oxidation of fatty acid. They can activate the breakdown of endogenous and exogenous fatty acids by catalyzing free fatty acid to form acyl coenzyme A (acyl-CoA).1,2This process occurs in the rough endoplasmic reticulum and mitochondrial outer membrane. Each ACSL isoform has a unique effect on different tissues and organs. We discuss the functions of ACSL in the absorption and transport of fatty acid and the relationship of ACSL and metabolic diseases.
    CHARACTERISTICS OF ACSL
    ACSL is a kind of synthetase encoded by a multigene family, consisting of at least 25 members.3,4In mammal, ACSL family includes 5 isoforms: ACSL1, ACSL3, ACSL4, ACSL5, and ACSL6, and each unique isoform is generated by alternatively spliced transcript variants that are encoded by a member of the gene family.
    Although 5 isoforms of ACSL exhibit highly amino acid homology,4,5they reveal the considerable differences concerning organ distribution,6subcellular localization, enzyme kinetics, gene expression, and substrate specificity,and so on.5N-terminal amino acid sequence of each ACSL isoform that is different from each other may contribute to the different subcellular locations. ACSL1 and ACSL6 have been revealed to locate on the plasma membrane, indicating that they might involve in the assimilation of cellular fatty acid.7,8ACSL4 has been found in the endoplasmic reticulum and peroxisomes.9ACSL5 isoform encoded by ACSL5 gene that lies on chromosome 10q25.1-q25.2,9is localized on the inner mitochondrial membrane and appears to exert a regulatory role in the mitochondrial energy metabolism. Moreover, ACSL5 is highly expressed in the jejunum, which may indicate its special role in fatty acid absorption.10
    ROLE OF ACSL IN FATTY ACIDS ABSORPTION AND TRANSPORT
    The absorption and transport of fatty acids is important in the physiological activities of cells.11Free fatty acid, the substrate of ACSL, can transport across plasma membranes, however its product, acyl-CoA, can not to do so. Hence, esterification of free fatty acids by ACSL results in trapping the non-membrane permeant acyl-CoA inside the cells.12A series of animal experiments have proved that changing the expression of ACSL genes can regulate the absorption and transport of fatty acids, and even in some cases the absorption of fatty acids is mainly dependent on the activity of ACSL gene, rather than the subcellular structure of ACSL.13
    The increasing evidences suggest that ACSL alone or ACSL binding proteins are involved in modulating the absorption and transport of fatty acids.
    ACSLs have been recognized as important intracellular mediators of long-chain fatty acids absorption by increasing the conversion rate of fatty acyl-CoA and accelerating the metabolism of fatty acyl-CoA.1,14The uptake of fatty acids has been considered to be a passive process, involving ACSL molecule sited into the plasma membrane. However, ACSL1, ACSL4, and ACSL5 isoforms have been demonstrated to be located only on the intracellular organelles, and their over-expression can promote the absorption of fatty acids.15This situation indicates the presence of other fat acid-binding proteins to take part in the uptake and intracellular transport of fat acid molecules.
    Fatty acid transport proteins (FATPs) identified as fat acid-binding proteins, selectively facilitate the preferential transport of free fatty acids outside cells across the lipid bilayer of the plasma membrane. ACSL1 has been found to interact with the fatty acid transporter FATP1 to regulate absorption and transport of fatty acids in the adipocytes.15,16The studies on specific yeast cell lines confirmed that decreased expression of ACSL can increase FATP expression, thus improving ASCL activity; complete silence of ACSL expression induce FATP overexpression.2,17The underlying biochemical mechanisms of FATPs’ association with ASCL controlling absorption and transport of fatty acids require to be fully clarified.
    ACSL AND METABOLIC DISEASES
    Because of the fundamental role of ACSL as modulators of absorption and transport of fatty acids, it has been hypothesized that they link to several metabolic diseases,18such as non-alcohol fatty liver disease (NAFLD), obesity, atherosclerosis, and diabetes, and so on.
    Liver is the center of the lipid metabolism. Excessive fatty acid deposition can produce reactive oxygen species by lipid peroxidation. NAFLD, a clinicopathological syndrome, is characterized by excessive fat deposition in the hepatocytes. Except ACSL6, other members of ACSL family are expressed in the liver. ACSL3 and ACSL5 involve the de novo synthesis of fatty acids, and regulate the subsequent reaction to produce triglycerides and phospholipids.14,19As the main isoform in the liver, ACSL1 can catalyze oleic acid into triglycerides and phospholipids acid, to reduce lipotoxicity in the hepatocyte.20
    Obesity, a chronic metabolic disease, mainly characterized by increased fat cell volume and excessive lipid deposition in some areas. Li et al21found ACSL inactivation can substantially impact on lipid metabolism, resulting in obesity. Through regulating activation and absorption of fatty acids in the intestine, thereby adjusting the amount of fatty acids in circulation, ACSL can radically reduce absorption of exogenous fatty acids.22
    Atherosclerosis usually caused by fat metabolism disorder, is characterized by lipid deposition in the major artery intima. The increasing evidences have indicated that through activating inflammatory signaling pathways, saturated fatty acids injure vascular cells, including vascular smooth muscle cells, macrophages, and endothelial cells.23,24By reducing the absorption of saturated fatty acid in the intestine, ACSL can reduce the occurrence rate of atherosclerosis.25Moreover, ACSL4 can stimulate vascular smooth muscle to release prostaglandin E2, which can promote the formation of atherosclerosis.26,27
    Diabetes mellitus is a metabolic disorder characterized by chronic hyperglycemia, accompanied with defects of insulin secretion or insulin function. The increased ACSL1 expression has been demonstrated in the mononuclear cells of type 1 diabetes mellitus patients, indicating that ACSL1 may involve in the pathogenesis of diabetes.28Inaddition, free fatty acids in the blood circulation increase the risk for individuals attacked by obesity as well as developing diabetes.29
    As highlighted in this review, a complete understanding of the pathogenic role of ACSL playing in NAFLD, obesity, atherosclerosis, and diabetes is still lacking.
    REFERENCES
    1. Ellis JM, Frahm JL, Li L, et al. Acyl-coenzyme A synthetases in metabolic control. Curr Opin Lipidol 2010; 21:212-7.
    2. Mashek DG, Li L, Coleman RA. Long-chain acyl-CoA synthetases and fatty acid channeling. Future Lipidol 2007; 2:465-76.
    3. Jia Z, Moulson CL, Pei Z, et al. FATP4 is the principal very long-chain fatty acyl CoA synthetase in skin fibroblasts. Biol Chem 2007; 10:1074-88.
    4. Li QG, Zhu T, Yang YZ, et al. Advance research of ACSL. Chin Anim Husbandry Veter Med 2012; 6:137-40.
    5. Mashek DG, Li L, Coleman RA. Rat long-chain acyl-CoA synthetase mRNA, protein, and activity vary in tissue distribution and in response to diet. Lipid Res 2006; 47:2004-10.
    6. Abumrad NA, Davidson NO. Role of the gut in lipid homeostasis. Physiol Rev 2012; 92:1061-85.
    7. Ellis JM, Mentock SM, Depetrillo MA, et al. Mouse cardiac acyl coenzyme A synthetase 1 deficiency impairs fatty acid oxidation and induces cardiac hypertrophy. Mol Cell Biol 2011; 31:1252-62.
    8. Li L, Ellis JM, Paich H, et al. Liver-specific loss of long chain acyl-CoA synthetase-1 decreases triacylglycerol synthesis and beta-oxidation and alters phospholipid fatty acid composition. Biol Chem 2009; 284:27816-26.
    9. James PH, Katie E, Yoon KL, et al. Eicosanoids in metabolic syndrome. Adv Pharmacol 2013; 66:157-266.
    10. Heimerl S, Moehle C, Zahn A, et al. Alterations in intestinal fatty acid metabolism in inflammatory bowel disease. Biochim Biophys Acta 2006; 1762:341-50.
    11. Klaus C, Jeon MK, Kaemmerer E, et al. Intestinal acyl-CoA synthetase 5: activation of long chain fatty acids and behind. World J Gastroenterol 2013; 19: 7369-73.
    12. Soupene E, Frans A, Kuypers M. Long-chain acyl-CoA synthetases. Exp Biol Med (Maywood) 2008; 233:507-21.
    13. Tong F, Black PN, Coleman RA, et al. Fatty acid transport by vectorial acylation in mammals: roles played by different isoforms of rat long-chain acyl-CoA synthetases. Arch Biochem Biophys 2006; 447:46-52.
    從圖3可知,電壓補償器作為系統(tǒng)中用于接收和反饋信號的核心部件,位于輻射大廳,一端通過長約10 m的信號電纜與輻照晶體管連接,另一端則通過長約100 m屏蔽雙絞電纜與測量間的測試系統(tǒng)相連,將VCC,VBB,VRB和VRC反饋至測試轉(zhuǎn)接盒。為避免電阻直接受中子輻照引起性能下降,產(chǎn)生測量誤差,將輻照板上的電阻RB,RC與晶體管分開,放置于電壓補償器中。
    14. Bu SY, Mashek DG. Hepatic long-chain acyl-CoA synthetase 5 mediates fatty acid channeling between anabolic and catabolic pathways. J Lipid Res 2010; 51:3270-80.
    15. Richards MR, Harp JD, Ory DS, et al. Fatty acid transport protein 1 and long-chain acyl coenzyme A synthetase 1 interact in adipocytes. J Lipid Res 2006; 47:665-72.
    16. Qi RL, Huang JX, Yang FY, et al. Fatty acid transport proteins and fatty acid transfer. Chin J Anim Nutr 2013; 5:905-11.
    17. Mashek DG, Coleman RA. Cellular fatty acid uptake: the contribution of metabolism. Curr Opin Lipidol 2006; 17:274-8.
    18. Yan S, Yang XF, Liu HL, et al. Long-chain acyl-CoA synthetase in fatty acid metabolism involved in liver and other diseases: an update. World J Gastroenterol 2015; 21: 3492-8.
    19. Poppelreuther M, Rudolph B, Du C, et al. The N-terminal region of acyl-CoA synthetase 3 is essential for both the localization on lipid droplets and the function in fatty acid uptake. J Lipid Res 2012; 53:888-900.
    20. Filip-Ciubotaru F, Foia L, Manciuc C, et al. PPARs: structure, mechanisms of action and control. Note I. Rev Med Chir Soc Med Nat Iasi 2011; 115:477-84.
    21. Li LO, Klett EL, Coleman RA. Acyl-CoA synthesis, lipid metabolism and lipotoxicity. Biochim Biophys Acta 2010; 1801:246-51.
    22. Mashek DG, McKenzie MA, Van Horn CG, et al. Rat long chain acyl-CoA synthetase 5 increases fatty acid uptake and partitioning to cellular triacylglycerol in McArdle -RH7777 cells. Biol Chem 2006; 281:945-50.
    23. Tripathy D, Mohanty P, Dhindsa S, et al. Elevation of free fatty acids induces inflammation and impairs vascular reactivity in healthy subjects. Diabetes 2003; 52:2882-7.
    24. Wu D, Liu JT, Pang XM, et al. Palmitic acid exerts proinflammatory effects on vascular smooth muscle cells by inducing the expression of C-reactive protein, inducible nitric oxide synthanse and tumor necrosis factor-α. Int J Mol Med 2014; 34:1706-12.
    25. Liu JT. The progress of atherosclerosis inflammation mechanism. Academic J Xi’an Jiaotong Univ (Med Sci) 2015; 2:141-52.
    26. Kageyama A, Matsui H, Ohta M, et al. Palmitic acid induces osteoblastic differentiation in vascular smooth muscle cells through ACSL3 and NF-κB, novel targets of eicosapentaenoic acid. PLoS One 2013; 8:e681-97.
    27. Golej DL, Askari B, Kramer F, et al. Long-chain acyl-CoA synthetase 4 modulates prostaglandin E2release from human arterial smooth muscle cells. J Lipid Res 2011; 52: 782-93.
    28. Kanter JE, Kramer F, Barnhart S, et al. Diabetes promotes an inflammatory macrophage phenotype and atherosclerosis through acyl-CoA synthetase 1. Proc Natl Acad Sci USA 2012; 109:E715-E24.
    29. Kim JA, Monyagnani M. Reciprocal relationships between insulin resistance and endothelial dysfunction: molecular and pathophysiological mechanisms. Circulation 2006; 113:1888-904.
    for publication September 25, 2015.
    *Corresponding author Tel: 86-13874934270, Fax: 86-734-8358399, E-mail: yxf9988@126.com
    △Supported by the National Natural Science Foundation of China (81373465).
    

    
                        
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