High-fat and high-sucrose (western) diet induces steatohepatitis that is dependent on fructokinase

Ishimoto, Takuji; Lanaspa, Miguel A.; Rivard, Christopher J.; Roncal-Jiménez, Carlos A.; Orlicky, David J.; Cicerchi, Christina; McMahan, Rachel H.; Abdelmalek, Manal F.; Rosen, Hugo R.; Jackman, Matthew R.; MacLean, Paul S.; Diggle, Christine P.; Asipu, Aruna; Inaba, Shinichiro; Kosugi, Tomoki; Sato, Waichi; Maruyama, Shoichi; Sánchez‐Lozada, Laura G.; Sautin, Yuri Y.; Hill, James O.; Bonthron, David T.; Johnson, Richard J.

doi:10.1002/hep.26594

Cited by 255 publications

(212 citation statements)

References 32 publications

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“…Moreover, we also showed that all these effects are mediated by KHK-dependent metabolism of fructose in the liver, which is, as we demonstrated in the current study and previously (10), a highly specific feature of obesity and the metabolic syndrome induced by fructose consumption. KHK deficiency does not protect from fructose-independent obesity, such as high-fat diet (39). Interestingly, KHK-C expression is upregulated in fructose-induced obesity Differences between the levels of the adiponectin mRNA in WT and KHK-A/C-KO mice are not confirmed (P = 0.07).…”

Section: Discussionmentioning

confidence: 91%

“…(10), which amplifies the detrimental effects of fructose even more, and in obesity caused by Western diet (high fat/high sucrose) (39) with fructose present in the form of a dimer with glucose, but it does not respond to obesity caused by fructose-independent mechanisms, such as highfat diet (39). Our results also suggest that direct effects of fructose on the adipose tissue via either KHK-A, which is a low-activity KHK isoform expressed in adipocytes (5), or the adipose-specific version of hexokinase, which actively metabolizes fructose (11), or via KHK-C, which is expressed at a minuscule level in white adipose tissue (Supplementary Table 1), are less important.…”

Section: Discussionmentioning

confidence: 99%

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Adiponectin Resistance and Proinflammatory Changes in the Visceral Adipose Tissue Induced by Fructose Consumption via Ketohexokinase-Dependent Pathway

et al. 2014

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An epidemic of obesity and type 2 diabetes is linked with the increase in consumption of fructose-containing sugars, such as sucrose and high-fructose corn syrup. In mammalian cells, fructose is metabolized predominantly via phosphorylation to fructose-1 phosphate by ketohexokinase (KHK) or by alternative pathways. Here we demonstrate that a KHK-dependent pathway mediates insulin resistance and inflammatory changes in the visceral fat in response to high fructose. We used mice (males, C57BL/6 background) including littermate wild-type control and mice lacking both isoforms of KHK (KHK-null). Fructose diet induced metabolic syndrome, including visceral obesity, insulin resistance, proinflammatory changes in the visceral fat (production of proinflammatory adipokines and macrophage infiltration), the endoplasmic reticulum stress signaling, and decrease of the high–molecular weight adiponectin followed by decrease in the downstream signaling. KHK-KO mice consuming the same high-fructose diet remained lean, with normal insulin sensitivity and healthy visceral adipose tissue with normal adiponectin function not distinguishable from the control by any of the tested parameters. This study demonstrates that blocking KHK and redirecting fructose metabolism to alternative pathways is an effective way to prevent visceral obesity and insulin resistance induced by high fructose, a widespread component of Western diets.

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Section: Discussionmentioning

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Adiponectin Resistance and Proinflammatory Changes in the Visceral Adipose Tissue Induced by Fructose Consumption via Ketohexokinase-Dependent Pathway

et al. 2014

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“…[132][133][134] One of the consequences of the studies on fructose metabolism is the recognition that it is not the caloric content that matters as much as whether ATP depletion occurs, the latter being primarily governed by the concentration of fructose that hits the liver. 108,118,135 This provides strong reasoning why soft drinks and sugary beverages may be so tightly associated with the development of obesity, metabolic syndrome, diabetes, and cardiovascular disease, 132,[136][137][138][139][140][141][142][143][144][145][146][147][148][149] as sugary beverages are often highly concentrated in fructose and are frequently ingested rapidly.…”

Section: The Rise In Intake Of Added Sugars and Their Effect On Africmentioning

confidence: 99%

New Insights on the Risk for Cardiovascular Disease in African Americans

Saab

Kendrick

Yracheta

et al. 2015

Journal of the American Society of Nephrology

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African Americans are at increased risk for cardiovascular and metabolic diseases, including obesity, high BP, diabetes, CKD, myocardial infarction, and stroke. Here we summarize the current risks and provide an overview of the underlying risk factors that may account for these associations. By reviewing the relationship between cardiovascular and renal diseases and the African-American population during the early 20th century, the historic and recent associations of African heritage with cardiovascular disease, and modern population genetics, it is possible to assemble strong hypotheses for the primary underlying mechanisms driving the increased frequency of disease in African Americans. Our studies suggest that underlying genetic mechanisms may be responsible for the increased frequency of high BP and kidney disease in African Americans, with particular emphasis on the role of APOL1 polymorphisms in causing kidney disease. In contrast, the Western diet, particularly the relatively high intake of fructose-containing sugars and sweetened beverages, appears to be the dominant force driving the increased risk of diabetes, obesity, and downstream complications. Given that intake of added sugars is a remediable risk factor, we recommend clinical trials to examine the reduction of sweetened beverages as a primary means for reducing cardiovascular risk in African Americans.

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“…The pathogenic mechanisms related to intrahepatic fat content induced by fructose consumption are related to an imbalance among fatty acid synthesis, betaoxidation and triglyceride outflow from the liver [24]. Indeed, the direct comparison between saturated fats-and fructose-rich diets revealed that these two dietary components differently affect liver lipid metabolism, with fructose enhancing both beta-oxidation and fatty acids export, counteracted by a strong activation of lipogenesis and palmitate production [40].These conditions trigger an imbalance of normal redox state of cells that makes the liver more susceptible to inflammation and thus to progression of NAFLD to non-alcoholic steatohepatitis (NASH) [40,41].…”

Section: Lipogenic Effect Of Fructosementioning

confidence: 99%

Dietary Sugars and Endogenous Formation of Advanced Glycation Endproducts: Emerging Mechanisms of Disease

Aragno¹,

Mastrocola²

2017

Preprint

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Abstract.The rapid increase in metabolic diseases occurred in the last three decades in both industrialized and developing countries has been related to the rise in sugar-added foods and sweetened beveragesconsumption. An emerging topic in the pathogenesis of metabolic diseases related to modern nutrition is the role of Advanced Glycation Endproducts (AGEs). AGEs can be ingested with high temperature processed foods, but also endogenously formed as consequence of a high dietary sugars intake. Animal models of high sugars consumption, in particular fructose, have reported AGEs accumulation in different tissues in association with peripheral insulin resistance and lipid metabolism alterations. The in vitro observation that fructose is one of the most rapid and effective glycating agent when compared to other sugars has prompted the investigation of the in vivo fructose-induced glycation. In particular, the widespread employment of fructose as sweetener has been ascribed by many experimental and observational studies for the enhancement of lipogenesis and intracellular lipid deposition. Indeed, diet-derived AGEs have been demonstrated to interfere with many cell functions such as lipid synthesis, inflammation, antioxidant defences, and mitochondrial metabolism. Moreover, emerging evidences also in humans suggest that this impact of dietary AGEs on different signalling pathways can contribute to the onset of organ damage in liver, skeletal and cardiac muscle, and brain, affecting not only metabolic control, but global health.Indeed, the here reviewed most recent reports on the effects of high sugars consumption and dietderived AGEs on human health suggest the need to limit the dietary sources of AGEs, including added sugars, to prevent the development of metabolic diseases and related comorbidities.

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High-fat and high-sucrose (western) diet induces steatohepatitis that is dependent on fructokinase

Cited by 255 publications

References 32 publications

Adiponectin Resistance and Proinflammatory Changes in the Visceral Adipose Tissue Induced by Fructose Consumption via Ketohexokinase-Dependent Pathway

Adiponectin Resistance and Proinflammatory Changes in the Visceral Adipose Tissue Induced by Fructose Consumption via Ketohexokinase-Dependent Pathway

New Insights on the Risk for Cardiovascular Disease in African Americans

Dietary Sugars and Endogenous Formation of Advanced Glycation Endproducts: Emerging Mechanisms of Disease

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