Intestine-specific expression of MOGAT2 partially restores metabolic efficiency in Mogat2-deficient mice

Gao, Yu Tang; Nelson, David W.; Banh, Taylor; Yen, Mei‐I; Yen, Chi‐Liang Eric

doi:10.1194/jlr.m035493

Cited by 37 publications

(45 citation statements)

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“…Both knockout strains are also resistant to diet-induced obesity and have increased energy expenditure through upregulation of FA oxidation ( 6,7,60 ). Given that intestinespecifi c expression of MGAT2 ( 61 ) or DGAT1 ( 62 ) partially or completely abolishes the lean phenotype in their respective global knockouts, it is possible that intestinal TG metabolism and secretion is a critical determinant of fat utilization and body composition. This in turn may underlie the phenotype we observed in the MGL Ϫ / Ϫ mice.…”

Section: Discussionmentioning

confidence: 99%

Global deletion of MGL in mice delays lipid absorption and alters energy homeostasis and diet-induced obesity

Douglass

Zhou

et al. 2015

Journal of Lipid Research

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energy storage, membrane components, and signaling. Extracellular hydrolysis of dietary TG in circulating lipoproteins yields FFAs and sn -2 MG, which are then taken up by cells ( 1,2 ). MGs are also produced intracellularly from membrane phospholipids and the consecutive action of phospholipase C and diacylglycerol lipase, or from the hydrolysis of stored TG by adipose TG lipase (ATGL) and hormone sensitive lipase (HSL) ( 2-5 ). The ultimate fate of intracellular MGs is hydrolysis to FFAs and glycerol or reesterifi cation by acyltransferases into diacylglycerol and TG ( 6, 7 ).MG lipase (MGL) is considered the rate-determining enzyme in MG catabolism. MGL accounts for roughly 85% of MG hydrolysis in the brain, with the remainder being catalyzed by the enzymes ABHD6 and ABHD12 ( 8,9 ). MGL is expressed in many other tissues as well, including brain, liver, skeletal muscle, adipose, and intestine ( 10-13 ). Within cells, MGL localizes to both the cytosolic and membrane fractions and hydrolyzes sn -1 and sn -2 MGs of varying acyl chain lengths and degrees of unsaturation, with almost no activity toward other lipids, such as TG and lyso-phospholipids ( 10,(14)(15)(16)(17)(18).MGL is involved in energy balance through two important functions. Abbreviations: AA, arachidonic acid; AEA, arachidonoyl ethanolamide; 2-AG, 2-arachidonoyl glycerol; AUC, area under the curve; CB, cannabinoid; EC, endocannabinoid; HFD, high-fat diet; HOMA-IR, homeostatic model assessment of insulin resistance; iMGL, mice that overexpress monoacylglycerol lipase specifi cally in the intestinal mucosa; LFD, low-fat diet; MG, monoacylglycerol; MGL, monoacylglycerol lipase; OFTT, oral fat tolerance test; OGTT, oral glucose tolerance test; RER, respiratory exchange ratio .

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Section: Discussionmentioning

confidence: 99%

Global deletion of MGL in mice delays lipid absorption and alters energy homeostasis and diet-induced obesity

Douglass

Zhou

et al. 2015

Journal of Lipid Research

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“…Intestinal MGAT2 is likely a major contributor. Its expression levels determine the rate of MAG uptake and esterifi cation in enterocytes ( 8,10 ). Defi ciency of MGAT2 in the intestine leads to changes in temporal and spatial distribution of fat absorption, which may result in blunted postprandial triglyceridemia as seen in both Mogat2…”

Section: Discussionmentioning

confidence: 99%

“…The primer sequences of the Cypb gene were 5 ′ TGCCGGAGTCGACAATGAT-3 ′ (forward) and 5 ′ -TGGAAGAGCACCAAGACAGACA-3 ′ (reverse). The primers to differences in body weight ( 8,10 ), suggesting complex mechanisms underlying the role of MGAT2 in the regulation of systemic energy balance.…”

Section: Real-time Quantitative Pcr Analysismentioning

confidence: 99%

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Adult-onset deficiency of acyl CoA:monoacylglycerol acyltransferase 2 protects mice from diet-induced obesity and glucose intolerance

Banh¹,

Nelson²,

Gao

et al. 2015

Journal of Lipid Research

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ids and metabolic energy. TAG synthesis in most cells starts with acylation of glycerol-3-phosphate, followed by two additional acylation steps, whereas in some cells it uses monoacylglycerol (MAG) as the initial acyl acceptor. AcylCoA:monoacylglycerol acyltransferase (MGAT) catalyzes the latter pathway and generates diacylglycerol for the fi nal acylation step ( 1 ). As MAG is mostly a degradation product of TAG, the MGAT pathway is thought to be important for recycling of TAG. Indeed, the best-characterized MGAT function is in the absorption of dietary fat. During the process, dietary TAG is hydrolyzed in the intestinal lumen to MAG and fatty acids. After uptake, the hydrolysis products are resynthesized to TAG in enterocytes for the assembly of chylomicron, which in turn delivers dietary lipids to peripheral tissues ( 2 ).Among three identifi ed genes encoding MGAT enzymes, Mogat2 is highly expressed in the intestine of both rodents and humans ( 3-6 ). Supporting the role of MGAT2 as an intestinal MGAT mediating fat absorption, constitutive global inactivation of the enzyme, through germ-line transmission of a null mutation in Mogat2 , greatly reduces intestinal MGAT activity and delays fat absorption ( 7 ). Interestingly, these Mogat2 Ϫ / Ϫ mice absorb a normal quantity of fat but are protected from obesity and other metabolic disorders induced by high-fat feeding. The underlying physiological mechanisms involve a transient decrease in food intake and a persistent increase in energy expenditure ( 7,8 ). Unexpectedly, the increase in energy expenditure does not require high-fat feeding, and MGAT2 defi ciency also protects Agouti mice from excess weight gain ( 9 ). Findings from both gain-and loss-of-function mouse models indicate that MGAT2 in the intestine is a major contributor but incompletely accounts for the Abstract Acyl-CoA:monoacylglycerol acyltransferase (MGAT) 2 catalyzes triacylglycerol (TAG) synthesis, required in intestinal fat absorption. We previously demonstrated that mice without a functional MGAT2-coding gene ( Mogat2) exhibit increased energy expenditure and resistance to obesity induced by excess calories. One critical question raised is whether lacking MGAT2 during early development is required for the metabolic phenotypes in adult mice. In this study, we found that Mogat2 ؊ / ؊ pups grew slower than wildtype littermates during the suckling period. To determine whether inactivating MGAT2 in adult mice is suffi cient to confer resistance to diet-induced obesity, we generated mice with an inducible Mogat2 -inactivating mutation. Mice with adult-onset MGAT2 defi ciency ( Mogat2 AKO ) exhibited a transient decrease in food intake like Mogat2 ؊ / ؊ mice when fed a high-fat diet and a moderate increase in energy expenditure after acclimatization. They gained less weight than littermate controls, but the difference was smaller than that between wild-type and Mogat2 ؊ / ؊ mice. The moderate reduction in weight gain was associated with reduced hepatic TAG and improved glucose tolerance. Similar pr...

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“…MGAT2 deficient mice are protected from HF diet-induced obesity and glucose intolerance [106]. Moreover, MGAT2 deficiency results in increased metabolic rates, decreased food consumption, and protection from obesity in genetically obese Agouti mice, suggesting that MGAT2 regulates energy balance [106,107]. The intestinal function of MGAT2 and the effect of this function on obesity are also investigated using intestine-specific MGAT2 KO mice [108].…”

Section: Acyl-coa: Monoacylglycerol Acyltransferase 2 Inhibitormentioning

confidence: 99%

Usefulness of Obese Animal Models in Antiobesity Drug Development

Ohta¹,

Murai²,

Yamada³

2017

Adiposity - Omics and Molecular Understanding

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Intestine-specific expression of MOGAT2 partially restores metabolic efficiency in Mogat2-deficient mice

Cited by 37 publications

References 37 publications

Global deletion of MGL in mice delays lipid absorption and alters energy homeostasis and diet-induced obesity

Global deletion of MGL in mice delays lipid absorption and alters energy homeostasis and diet-induced obesity

Adult-onset deficiency of acyl CoA:monoacylglycerol acyltransferase 2 protects mice from diet-induced obesity and glucose intolerance

Usefulness of Obese Animal Models in Antiobesity Drug Development

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