Consumption of excessive amounts of added sugars and their effects on human health has been a major concern in the last several decades. Epidemiological data suggest that the incidence of metabolic disorders, such as obesity, nonalcoholic fatty liver disease, cardiovascular disease and diabetes, has increased due to chronic surplus consumption of these sugars. While many of these sugars have been isolated and studied for centuries, their health impacts and exact underlying mechanisms are still unclear. In this review, we discuss the pathophysiological role of 6 major simple sugars present in the human diet and the biochemical and molecular pathways related to their metabolism by different organs and gut microbiota, with a focus on the most recent investigations.

1 윤향식 ; 김정호 ; 김태집 ; 금인경 ; 한남수, "신규 기능성당 L-아라비노스: 생리활성, 이용, 생산방법" 한국식품과학회 35 (35): 757-763, 2003

2 Xiang S, "Xylitol enhances synthesis of propionate in the colon via cross-feeding of gut microbiota" 9 : 62-, 2021

3 Alexander Bentley R, "U. S. obesity as delayed effect of excess sugar" 36 : 100818-, 2020

4 Liu L, "Triose kinase controls the lipogenic potential of fructose and dietary tolerance" 32 : 605-618, 2020

5 Hirode G, "Trends in the prevalence of metabolic syndrome in the United States, 2011-2016" 323 : 2526-2528, 2020

6 Helsley RN, "Tissue-specific fructose metabolism in obesity and diabetes" 20 : 64-, 2020

7 Eelderink C, "The structure of wheat bread influences the postprandial metabolic response in healthy men" 6 : 3236-3248, 2015

8 Rorsman P, "The somatostatin-secreting pancreatic δ-cell in health and disease" 14 : 404-414, 2018

9 Jang C, "The small intestine shields the liver from fructose-induced steatosis" 2 : 586-593, 2020

10 Jang C, "The small intestine converts dietary fructose into glucose and organic acids" 27 : 351-361, 2018

11 Tan WS, "The role of soluble corn fiber on glycemic and insulin response" 12 : 961-, 2020

12 Douard V, "The role of fructose transporters in diseases linked to excessive fructose intake" 591 : 401-414, 2013

13 Leturque A, "The role of GLUT2 in dietary sugar handling" 61 : 529-537, 2005

14 Chang PV, "The microbial metabolite butyrate regulates intestinal macrophage function via histone deacetylase inhibition" 111 : 2247-2252, 2014

15 Ichikawa M, "The metabolic origins of mannose in glycoproteins" 289 : 6751-6761, 2014

16 Mueckler M, "The SLC2(GLUT)family of membrane transporters" 34 : 121-138, 2013

17 Cheng WL, "Sugar fructose triggers gut dysbiosis and metabolic inflammation with cardiac arrhythmogenesis" 9 : 728-, 2021

18 Schneider A, "Successful prenatal mannose treatment for congenital disorder of glycosylation-Ia in mice" 18 : 71-73, 2011

19 Holman GD, "Structure, function and regulation of mammalian glucose transporters of the SLC2 family" 472 : 1155-1175, 2020

20 Hayward BE, "Structure and alternative splicing of the ketohexokinase gene" 257 : 85-91, 1998

21 Silverman M, "Specificity of monosaccharide transport in dog kidney" 218 : 743-750, 1970

22 Barone S, "Slc2a5(Glut5)is essential for the absorption of fructose in the intestine and generation of fructose-induced hypertension" 284 : 5056-5066, 2009

23 Gouyon F, "Simple-sugar meals target GLUT2at enterocyte apical membranes to improve sugar absorption : a study in GLUT2-null mice" 552 : 823-832, 2003

24 Xiong Y, "Short-chain fatty acids stimulate leptin production in adipocytes through the G protein-coupled receptor GPR41" 101 : 1045-1050, 2004

25 Björkman O, "Role of the kidney in the metabolism of fructose in 60-hour fasted humans" 31 : 516-520, 1982

26 Cura AJ, "Role of monosaccharide transport proteins in carbohydrate assimilation, distribution, metabolism, and homeostasis" 2 : 863-914, 2012

27 Shwe T, "Role of D-galactose-induced brain aging and its potential used for therapeutic interventions" 101 : 13-36, 2018

28 곽미진 ; 정서진 ; 김영재 ; 임춘선, "Relative Sweetness and Sensory Characteristics of Bulk and Intense Sweeteners" 한국식품과학회 21 (21): 889-894, 2012

29 Douard V, "Regulation of the fructose transporter GLUT5 in health and disease" 295 : E227-E237, 2008

30 Rorsman P, "Regulation of insulin secretion in human pancreatic islets" 75 : 155-179, 2013

31 Petersen MC, "Regulation of hepatic glucose metabolism in health and disease" 13 : 572-587, 2017

32 Chen L, "Regulation of glucose and lipid metabolism in health and disease" 62 : 1420-1458, 2019

33 Hao L, "Protective effects of L-arabinose in high-carbohydrate, high-fat diet-induced metabolic syndrome in rats" 59 : 28886-, 2015

34 Quesada I, "Physiology of the pancreatic α-cell and glucagon secretion : role in glucose homeostasis and diabetes" 199 : 5-19, 2008

35 Harms HK, "Oral mannose therapy persistently corrects the severe clinical symptoms and biochemical abnormalities of phosphomannose isomerase deficiency" 91 : 1065-1072, 2002

36 Ishimoto T, "Opposing effects of fructokinase C and A isoforms on fructose-induced metabolic syndrome in mice" 109 : 4320-4325, 2012

37 Bonthron DT, "Molecular basis of essential fructosuria : molecular cloning and mutational analysis of human ketohexokinase(fructokinase)" 3 : 1627-1631, 1994

38 Judge A, "Metabolism" 64 : 607-647, 2020

39 Rochlani Y, "Metabolic syndrome : pathophysiology, management, and modulation by natural compounds" 11 : 215-225, 2017

40 Swarup S, "Metabolic syndrome" StatPearls Publishing 2021

41 Tappy L, "Metabolic effects of fructose and the worldwide increase in obesity" 90 : 23-46, 2010

42 Ali T, "Melatonin attenuates D-galactose-induced memory impairment, neuroinflammation and neurodegeneration via RAGE/NF-K B/JNK signaling pathway in aging mouse model" 58 : 71-85, 2015

43 Sharma V, "Mannose metabolism : more than meets the eye" 453 : 220-228, 2014

44 Gonzalez PS, "Mannose impairs tumour growth and enhances chemotherapy" 563 : 719-723, 2018

45 Sharma V, "Mannose efflux from the cells : a potential source of mannose in blood" 286 : 10193-10200, 2011

46 Panneerselvam K, "Mannose corrects altered N-glycosylation in carbohydrate-deficient glycoprotein syndrome fibroblasts" 97 : 1478-1487, 1996

47 Sharma V, "Mannose alters gut microbiome, prevents diet-induced obesity, and improves host metabolism" 24 : 3087-3098, 2018

48 Salkovic-Petrisic M, "Long-term oral galactose treatment prevents cognitive deficits in male Wistar rats treated intracerebroventricularly with streptozotocin" 77 : 68-80, 2014

49 Walker TB, "Lessons from the war on dietary fat" 33 : 347-351, 2014

50 Wang Y, "L-arabinose suppresses gluconeogenesis through modulating AMP-activated protein kinase in metabolic disorder mice" 12 : 1745-1756, 2021

51 Seri K, "L-arabinose selectively inhibits intestinal sucrase in an uncompetitive manner and suppresses glycemic response after sucrose ingestion in animals" 45 : 1368-1374, 1996

52 Merino B, "Intestinal fructose and glucose metabolism in health and disease" 12 : 94-, 2019

53 Wilson JM, "IgE, α-Gal and atherosclerosis" 11 : 1900-1902, 2019

54 Belobrajdic DP, "High-amylose wheat lowers the postprandial glycemic response to bread in healthy adults : a randomized controlled crossover trial" 149 : 1335-1345, 2019

55 Lelis DF, "High fructose intake and the route towards cardiometabolic diseases" 259 : 118235-, 2020

56 Bizeau ME, "Hepatic adaptations to sucrose and fructose" 54 : 1189-1201, 2005

57 Dornas WC, "Health implications of high-fructose intake and current research" 6 : 729-737, 2015

58 Mirtschink P, "HIF-driven SF3B1 induces KHK-C to enforce fructolysis and heart disease" 522 : 444-449, 2015

59 Navale AM, "Glucose transporters : physiological and pathological roles" 8 : 5-9, 2016

60 Knezovic A, "Glucagon-like peptide-1mediates effects of oral galactose in streptozotocin-induced rat model of sporadic Alzheimer’s disease" 135 : 48-62, 2018

61 Umbayev B, "Galactose-induced skin aging : the role of oxidative stress" 2020 : 7145656-, 2020

62 Coelho AI, "Galactose metabolism and health" 18 : 422-427, 2015

63 Todoric J, "Fructose stimulated de novo lipogenesis is promoted by inflammation" 2 : 1034-1045, 2020

64 Sun SZ, "Fructose metabolism in humans-what isotopic tracer studies tell us" 9 : 89-, 2012

65 Froesch ER, "Fructose metabolism in adipose tissue" 542 : 37-46, 1972

66 Stanhope KL, "Fructose consumption : recent results and their potential implications" 1190 : 15-24, 2010

67 Lambertz J, "Fructose : a dietary sugar in crosstalk with microbiota contributing to the development and progression of non-alcoholic liver disease" 8 : 1159-, 2017

68 Triplitt CL, "Examining the mechanisms of glucose regulation" 18 : S4-S10, 2012

69 Nijland JG, "Engineering of pentose transport in Saccharomyces cerevisiae for biotechnological applications" 7 : 464-, 2020

70 Amo K, "Effects of xylitol on metabolic parameters and visceral fat accumulation" 49 : 1-7, 2011

71 Alton G, "Direct utilization of mannose for mammalian glycoprotein biosynthesis" 8 : 285-295, 1998

72 Taylor SR, "Dietary fructose improves intestinal cell survival and nutrient absorption" 597 : 263-267, 2021

73 Zhao S, "Dietary fructose feeds hepatic lipogenesis via microbiota-derived acetate" 579 : 586-591, 2020

74 Oh JH, "Dietary fructose and microbiotaderived short-chain fatty acids promote bacteriophage production in the gut symbiont Lactobacillus reuteri" 25 : 273-284, 2019

75 Ferraris RP, "Dietary and developmental regulation of intestinal sugar transport" 360 : 265-276, 2001

76 Andres-Hernando A, "Deletion of fructokinase in the liver or in the intestine reveals differential effects on sugar-induced metabolic dysfunction" 32 : 117-127, 2020

77 Durán JM, "D-mannose transport and metabolism in isolated enterocytes" 14 : 495-500, 2004

78 Torretta S, "D-mannose suppresses macrophage IL-1β production" 11 : 6343-, 2020

79 Zhang D, "D-mannose induces regulatory T cells and suppresses immunopathology" 23 : 1036-1045, 2017

80 Parameshwaran K, "D-galactose effectiveness in modeling aging and therapeutic antioxidant treatment in mice" 13 : 729-735, 2010

81 Lim E, "D-Xylose suppresses adipogenesis and regulates lipid metabolism genes in high-fat diet-induced obese mice" 35 : 626-636, 2015

82 김유리 ; 김은주 ; 김유선 ; Kyung-Mi Kim ; Sangwon Jung ; 유상호, "D-Xylose as a sugar complement regulates blood glucose levels by suppressing phosphoenolpyruvate carboxylase (PEPCK) in streptozotocin-nicotinamide-induced diabetic rats and by enhancing glucose uptake in vitro" 한국영양학회 10 (10): 11-18, 2016

83 Azman KF, "D-Galactose-induced accelerated aging model : an overview" 20 : 763-782, 2019

84 Kelly CJ, "Crosstalk between microbiotaderived short-chain fatty acids and intestinal epithelial HIF augments tissue barrier function" 17 : 662-671, 2015

85 배윤정 ; 박윤경 ; 김범식 ; 김민선 ; 이진희 ; 성미경, "Coconut-derived D-xylose affects postprandial glucose and insulin responses in healthy individuals" 한국영양학회 5 (5): 533-539, 2011

86 Cui X, "Chronic systemic D-galactose exposure induces memory loss, neurodegeneration, and oxidative damage in mice : protective effects of R-α-lipoic acid" 83 : 1584-1590, 2006

87 Buchs AE, "Characterization of GLUT5 domains responsible for fructose transport" 139 : 827-831, 1998

88 Niehues R, "Carbohydrate-deficient glycoprotein syndrome type Ib. Phosphomannose isomerase deficiency and mannose therapy" 101 : 1414-1420, 1998

89 Marty N, "Brain glucose sensing, counterregulation, and energy homeostasis" 22 : 241-251, 2007

90 Jun YJ, "Beneficial effect of xylose consumption on postprandial hyperglycemia in Korean : a randomized double-blind, crossover design" 17 : 139-, 2016

91 Bo-Htay C, "Aging induced by D-galactose aggravates cardiac dysfunction via exacerbating mitochondrial dysfunction in obese insulinresistant rats" 42 : 233-249, 2020

92 Chaudhry RM, "Acute enterocyte adaptation to luminal glucose : a posttranslational mechanism for rapid apical recruitment of the transporter GLUT2" 16 : 312-319, 2012

93 Huang CJ, "A robust method for increasing Fc glycan high mannose level of recombinant antibodies" 112 : 1200-1209, 2015