Literature DB >> 19151107

Hypothesis: could excessive fructose intake and uric acid cause type 2 diabetes?

Richard J Johnson1, Santos E Perez-Pozo, Yuri Y Sautin, Jacek Manitius, Laura Gabriela Sanchez-Lozada, Daniel I Feig, Mohamed Shafiu, Mark Segal, Richard J Glassock, Michiko Shimada, Carlos Roncal, Takahiko Nakagawa.   

Abstract

We propose that excessive fructose intake (>50 g/d) may be one of the underlying etiologies of metabolic syndrome and type 2 diabetes. The primary sources of fructose are sugar (sucrose) and high fructose corn syrup. First, fructose intake correlates closely with the rate of diabetes worldwide. Second, unlike other sugars, the ingestion of excessive fructose induces features of metabolic syndrome in both laboratory animals and humans. Third, fructose appears to mediate the metabolic syndrome in part by raising uric acid, and there are now extensive experimental and clinical data supporting uric acid in the pathogenesis of metabolic syndrome. Fourth, environmental and genetic considerations provide a potential explanation of why certain groups might be more susceptible to developing diabetes. Finally, we discuss the counterarguments associated with the hypothesis and a potential explanation for these findings. If diabetes might result from excessive intake of fructose, then simple public health measures could have a major impact on improving the overall health of our populace.

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Year:  2009        PMID: 19151107      PMCID: PMC2647706          DOI: 10.1210/er.2008-0033

Source DB:  PubMed          Journal:  Endocr Rev        ISSN: 0163-769X            Impact factor:   19.871


  285 in total

1.  Serum uric acid and plasma norepinephrine concentrations predict subsequent weight gain and blood pressure elevation.

Authors:  Kazuko Masuo; Hideki Kawaguchi; Hiroshi Mikami; Toshio Ogihara; Michael L Tuck
Journal:  Hypertension       Date:  2003-09-02       Impact factor: 10.190

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3.  Does the metabolic syndrome exist?

Authors:  Scott M Grundy
Journal:  Diabetes Care       Date:  2006-07       Impact factor: 19.112

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Journal:  Metabolism       Date:  1977-09       Impact factor: 8.694

5.  Sexual differentiation; Factor determining forms of obesity.

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Journal:  Presse Med       Date:  1947-05-24       Impact factor: 1.228

6.  Dietary sucrose affects plasma HDL cholesterol concentration in young men.

Authors:  J Yudkin; O Eisa; S S Kang; S Meraji; K R Bruckdorfer
Journal:  Ann Nutr Metab       Date:  1986       Impact factor: 3.374

Review 7.  Mechanisms of cardiovascular changes in an experimental model of syndrome X and pharmacological intervention on the renin-angiotensin-system.

Authors:  Roberto Miatello; Montserrat Cruzado; Norma Risler
Journal:  Curr Vasc Pharmacol       Date:  2004-10       Impact factor: 2.719

8.  Liver adenine nucleotides: fructose-induced depletion and its effect on protein synthesis.

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Journal:  Science       Date:  1968-09-20       Impact factor: 47.728

9.  Does a vegetarian diet reduce the occurrence of diabetes?

Authors:  D A Snowdon; R L Phillips
Journal:  Am J Public Health       Date:  1985-05       Impact factor: 9.308

10.  Prospective study of risk factors for development of non-insulin dependent diabetes in middle aged British men.

Authors:  I J Perry; S G Wannamethee; M K Walker; A G Thomson; P H Whincup; A G Shaper
Journal:  BMJ       Date:  1995-03-04
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  171 in total

1.  Fructose acutely stimulates NKCC2 activity in rat thick ascending limbs by increasing surface NKCC2 expression.

Authors:  Gustavo R Ares; Kamal M Kassem; Pablo A Ortiz
Journal:  Am J Physiol Renal Physiol       Date:  2018-12-05

2.  Hepatic inflammation and insulin resistance in pre-diabetes - further evidence for the beneficial actions of PPAR-gamma agonists and a role for SOCS-3 modulation.

Authors:  Prabal K Chatterjee
Journal:  Br J Pharmacol       Date:  2010-08       Impact factor: 8.739

3.  Selective alpha(1)-adrenoceptor blockade prevents fructose-induced hypertension.

Authors:  Linda T Tran; Kathleen M MacLeod; John H McNeill
Journal:  Mol Cell Biochem       Date:  2014-03-29       Impact factor: 3.396

4.  Effect of dietary fructose on portal and systemic serum fructose levels in rats and in KHK-/- and GLUT5-/- mice.

Authors:  Chirag Patel; Keiichiro Sugimoto; Veronique Douard; Ami Shah; Hiroshi Inui; Toshikazu Yamanouchi; Ronaldo P Ferraris
Journal:  Am J Physiol Gastrointest Liver Physiol       Date:  2015-08-27       Impact factor: 4.052

5.  Racial/ethnic and sex differences in the relationship between uric acid and metabolic syndrome in adolescents: an analysis of National Health and Nutrition Survey 1999-2006.

Authors:  Mark D DeBoer; Lili Dong; Matthew J Gurka
Journal:  Metabolism       Date:  2011-10-13       Impact factor: 8.694

Review 6.  Uric acid as a mediator of diabetic nephropathy.

Authors:  Diana I Jalal; David M Maahs; Peter Hovind; Takahiko Nakagawa
Journal:  Semin Nephrol       Date:  2011-09       Impact factor: 5.299

7.  Uric acid induces hepatic steatosis by generation of mitochondrial oxidative stress: potential role in fructose-dependent and -independent fatty liver.

Authors:  Miguel A Lanaspa; Laura G Sanchez-Lozada; Yea-Jin Choi; Christina Cicerchi; Mehmet Kanbay; Carlos A Roncal-Jimenez; Takuji Ishimoto; Nanxing Li; George Marek; Murat Duranay; George Schreiner; Bernardo Rodriguez-Iturbe; Takahiko Nakagawa; Duk-Hee Kang; Yuri Y Sautin; Richard J Johnson
Journal:  J Biol Chem       Date:  2012-10-03       Impact factor: 5.157

8.  The Dietary Fructose:Vitamin C Intake Ratio Is Associated with Hyperuricemia in African-American Adults.

Authors:  Zihe Zheng; Jane L Harman; Josef Coresh; Anna Köttgen; Mara A McAdams-DeMarco; Adolfo Correa; Bessie A Young; Ronit Katz; Casey M Rebholz
Journal:  J Nutr       Date:  2018-03-01       Impact factor: 4.798

9.  Evolutionary history and metabolic insights of ancient mammalian uricases.

Authors:  James T Kratzer; Miguel A Lanaspa; Michael N Murphy; Christina Cicerchi; Christina L Graves; Peter A Tipton; Eric A Ortlund; Richard J Johnson; Eric A Gaucher
Journal:  Proc Natl Acad Sci U S A       Date:  2014-02-18       Impact factor: 11.205

10.  Gout-causing Q141K mutation in ABCG2 leads to instability of the nucleotide-binding domain and can be corrected with small molecules.

Authors:  Owen M Woodward; Deepali N Tukaye; Jinming Cui; Patrick Greenwell; Leeza M Constantoulakis; Benjamin S Parker; Anjana Rao; Michael Köttgen; Peter C Maloney; William B Guggino
Journal:  Proc Natl Acad Sci U S A       Date:  2013-03-14       Impact factor: 11.205
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