high fructose
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Author(s):  
Piyachat Chansela ◽  
Bubphachat Potip ◽  
Jittima Weerachayaphorn ◽  
Niwat Kangwanrangsan ◽  
Natsasi Chukijrungroat ◽  
...  

Author(s):  
Divya Lodha ◽  
Jamuna R. Subramaniam

Abstract Objectives The main aim of this study is to identify the deleterious effects of indiscriminately consumed high fructose on motor neurons that are critically affected in many neurological conditions causing movement disorders including paralysis. Materials and Methods Neuroblastoma x mouse spinal cord motor neuron cell line (NSC-34) motor neuron cell lines were treated with high fructose and oxygen supplementation (18.8%) and assayed for cell proliferation/death, reactive oxygen species (ROS) generation, and oxidative stress response induction Statistical Analysis Mean and standard deviation, significance with and without high fructose (F)-5%, were estimated by t-tests using GraphPad Prism ver. 8.2.1 Results F-5% along with O2 (18.8%) annihilates the cells (∼85%) by day10 and inhibits cell division as observed by the presence of multinucleated cells. Unexpectedly, 1 to 2% of cells that survived, differentiated and displayed progressive neurite extension. Though not healthy, they were viable up to 80 days. F-5% increased ROS levels (∼34%) not accompanied by concomitant enhanced expression of oxidative stress response regulator, the transcription factor, nrf-2, or downstream effector, sod-1. Conclusion High fructose is extremely harmful to NSC-34 motor neuron cell line.


2022 ◽  
Author(s):  
Gabriel Richard ◽  
Denis P. Blondin ◽  
Saad A. Syed ◽  
Laura Rossi ◽  
Michelle E. Fontes ◽  
...  

Diets rich in added sugars, especially high in fructose, are associated with metabolic diseases such as insulin resistance, and non-alcoholic fatty liver disease. Studies have shown a link between these pathologies and changes in the microbiome and its metabolites. Given the reported associations in animal models between the microbiome and brown or beige adipose tissue (BAT) function, and the alterations in the microbiome induced by high glucose or high fructose diets, we investigated the potential causal link between high glucose or fructose diets and BAT dysfunction in humans. We show that BAT glucose uptake, but not thermogenesis, is impaired by a high fructose but not high glucose diet, in the absence of changes in body mass, the gastrointestinal microbiome, and faecal short-chain fatty acids. We conclude that BAT metabolic dysfunction occurs independently from changes in gut microbiome composition, and earlier than other pathophysiological abnormalities associated with insulin resistance and dyslipidemia during fructose overconsumption in humans.


Author(s):  
Michael D. Thompson ◽  
Jisue Kang ◽  
Austin Faerber ◽  
Holly Hinrichs ◽  
Oguz Ozler ◽  
...  

Mice exposed in gestation to maternal high fat/high sucrose (HF/HS) diet develop altered bile acid (BA) homeostasis. We hypothesized that these reflect an altered microbiome and asked if microbiota transplanted from HF/HS offspring change hepatic BA and lipid metabolism to determine the directionality of effect. Female mice were fed HF/HS or chow (CON) for 6 weeks and bred with lean males. 16S sequencing was performed to compare taxa in offspring. Cecal microbiome transplantation (CMT) was performed from HF/HS or CON offspring into antibiotic treated mice fed chow or high fructose. BA, lipid metabolic, and gene expression analyses performed in recipient mice. Gut microbiomes from HF/HS offspring segregated from CON offspring, with increased Firmicutes to Bacteriodetes ratios and Verrucomicrobial abundance. Following CMT, HF/HS recipient mice had larger BA pools, and increased intrahepatic muricholic acid and decreased deoxycholic acid species. HF/HS recipient mice exhibited downregulated hepatic Mrp2, increased hepatic Oatp1b2, and decreased ileal Asbt mRNA expression. HF/HS recipient mice exhibited decreased cecal butyrate and increased hepatic expression of Il6. HF/HS recipient mice had larger livers, and increased intrahepatic triglyceride versus CON recipient mice after fructose feeding, with increased hepatic mRNA expression of lipogenic genes including Srebf1, Fabp1, Mogat1, and Mogat2. CMT from HF/HS offspring increased BA pool and shifted the composition of the intrahepatic BA pool. CMT from HF/HS donor offspring increased fructose-induced liver triglyceride accumulation. These findings support a causal role for vertical transfer of an altered microbiome in hepatic BA and lipid metabolism in HF/HS offspring.


2022 ◽  
Vol 12 (1) ◽  
pp. 428
Author(s):  
Ki Hyun Nam

Glucose isomerase (GI, also known as xylose isomerase) reversibly isomerizes D-glucose and D-xylose to D-fructose and D-xylulose, respectively. GI plays an important role in sugar metabolism, fulfilling nutritional requirements in bacteria. In addition, GI is an important industrial enzyme for the production of high-fructose corn syrup and bioethanol. This review introduces the functions, structure, and applications of GI, in addition to presenting updated information on the characteristics of newly discovered GIs and structural information regarding the metal-binding active site of GI and its interaction with the inhibitor xylitol. This review provides an overview of recent advancements in the characterization and engineering of GI, as well as its industrial applications, and will help to guide future research in this field.


2022 ◽  
pp. 101728
Author(s):  
Patoomporn Prasartthong ◽  
Poungrat Pakdeechote ◽  
Putcharawipa Maneesai ◽  
Sariya Meephat ◽  
Siwayu Rattanakanokchai ◽  
...  

2021 ◽  
Vol 2021 ◽  
pp. 1-16
Author(s):  
Yuxin Luo ◽  
Jinbo Guo ◽  
Wenxiu Jia ◽  
Mengyao Wu ◽  
Fengrong Yin ◽  
...  

Nonalcoholic steatohepatitis (NASH) is a progressive, chronic liver disease worldwide which imposes a large economic burden on society. M1/M2 macrophage balance destruction and recruitment of mononuclear immune cells to the liver play critical roles in NASH. Several studies have shown that the expression of TNF-like ligand 1 aberrance (TL1A) increased in macrophages associated with many inflammatory diseases, for example, inflammatory bowel disease, primary biliary cholangitis, and liver fibrosis. One recent research showed that weight, abdominal adipose, and liver leptin, one of the critical fat cytokines, were reduced in TL1A knockout mice. However, the functional and molecular regulatory mechanisms of TL1A on macrophage polarization and recruitment in NASH have yet to be clarified. The authors found that high fructose high fat diet and methionine-choline deficiency diet induced the expression of TL1A in macrophages of liver tissue from murine NASH models. Myeloid-specific TL1A overexpressed mice showed exacerbated steatohepatitis with increased hepatic lipid accumulation, inflammation, liver injury, and apoptosis. M1 macrophages’ infiltration and the production of proinflammatory and chemotactic cytokines increased in liver of NASH mouse models with myeloid-specific TL1A overexpressed. Furthermore, this paper revealed that bone marrow-derived macrophages and Kupffer cells with overexpression of TL1A exacerbated the lipid accumulation and expression of proinflammatory factors in the murine primary hepatocytes after free fatty acid treatment in vitro. In conclusion, TL1A-mediated M1-type macrophage polarization and recruitment into the liver promoted steatohepatitis in murine NASH.


2021 ◽  
Author(s):  
Man Gong ◽  
Hong Zhang ◽  
Xiaoqian Liu ◽  
Qingxia Li ◽  
Yang Zhang ◽  
...  

Abstract Eucommia ulmoides leaves have unique advantages in the treatment of metabolic diseases. In this study, network pharmacology and molecular-docking methods were used to predict the effects and action mechanisms of the major components of E. ulmoides leaves on hyperuricemia. Combining literature collection, we used SciFinder and the Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform to collect E. ulmoides leaf flavonoid and iridoid components. Swiss Target Prediction, SEA, GeneCards, and the OMIM database were used to obtain core targets, and the STRING protein database was performed as core targets for gene ontology enrichment Set and KEGG analyses. Molecular docking was applied to predict the pathways regulating the metabolism of uric acid. The selected targets and targeting efficacy were validated using a rat model of hyperuricemia and renal injury induced by a high-fat and high-fructose diet. A total of 32 chemical components with effective targets, which regulated the PI3K-AKT pathway and endocrine resistance, were collected. Isoquercetin, kaempferol, and quercetin were predicted via network pharmacology to have potential bioactivities and strong docking binding forces. Molecular docking results showed that iridoids and flavonoids are bound to proteins related to inflammation and uric acid metabolism. In addition, it was verified via animal experiments that an E. ulmoides leaf extract ameliorated hyperuricemia, renal injury, and inflammation, which are closely related to the targets IL-6, TNF-α, TLR4, and GLUT9. In conclusion, E. ulmoides leaf flavonoids and iridoids ameliorate hyperuricemia and uric-acid–induced inflammation through a multi-component, multi-target, and multi-pathway mechanism, which provides a theoretical basis for the development of therapeutics from E. ulmoides leaf components.


Cells ◽  
2021 ◽  
Vol 11 (1) ◽  
pp. 23
Author(s):  
Jing-Hua Wang ◽  
Seung-Ju Hwang ◽  
Dong-Woo Lim ◽  
Chang-Gue Son

Cynanchum atratum, a medicinal herb, is traditionally used as an antidote, diuretic, and antipyretic in eastern Asia. The current study aimed to investigate the anti-fatty liver capacity of the ethanol extract of Cynanchum atratum (CAE) using a 10-week high-fat, high-fructose diet mouse model. A six-week treatment of CAE (from the fifth week) significantly attenuated the weights of the body, liver, and mesenteric fat without a change in diet intake. CAE also considerably restored the alterations of serum aminotransferases and free fatty acid, fasting blood glucose, serum and hepatic triglyceride, and total cholesterol, as well as platelet and leukocyte counts. Meanwhile, CAE ameliorated hepatic injury and lipid accumulation, as evidenced by histopathological and immunofluorescence observations. Additionally, CAE significantly lowered the elevation of hepatic TNF-α, the TNF-α/IL-10 ratio, fecal endotoxins, and the abundance of Gram-negative bacteria. Hepatic lipogenesis and β-oxidation-related proteins and gene expression, including PPAR-α, SREBP-1, SIRT1, FAS, CTP1, etc., were normalized markedly by CAE. In particular, the AMPK, a central regulator of energy metabolism, was phosphorylated by CAE at an even higher rate than metformin. Overall, CAE exerts anti-hepatic steatosis effects by reducing lipogenesis and enhancing fatty acid oxidation. Consequently, Cynanchum atratum is expected to be a promising candidate for treating chronic metabolic diseases.


2021 ◽  
pp. 1-41
Author(s):  
Alexandra Ferreira Vieira ◽  
Cesar Eduardo Jacintho Moritz ◽  
Thiago Rozales Ramis ◽  
Francesco Pinto Boeno ◽  
Gabriela Cristina dos Santos ◽  
...  

Abstract The purpose of the study was to verify the effect of 4 weeks of a high-fructose diet associated with aerobic training on the risk factors for cardiometabolic diseases. Twenty-one young adults were randomized into three groups: high-fructose diet (HFD: 1 g/kg body weight of fructose/day), high-glucose diet (HGD: 1 g/kg body weight of glucose/day), and high-fructose diet and exercise (HFDE: 1 g/kg body weight of fructose/day + 3 weekly 60-minute sessions of aerobic exercise). Before and after the 4 weeks of the intervention, blood samples were taken and flow-mediated dilatation, insulin resistance index, pancreatic beta cell functional capacity index, insulin sensitivity index, and 24-hour blood pressure were evaluated. HFD showed an increase in uric acid concentrations (p = 0.040), and HGD and HFDE groups showed no changes in this outcome between pre- and post-intervention; however, the HFDE group showed increased uric acid concentrations from the middle to the end of the intervention (p = 0.013). In addition, the HFD group showed increases in nocturnal systolic blood pressure (SBP) (p = 0.022) and nocturnal diastolic blood pressure (DBP) (p = 0.009). The HGD group exhibited decreases in nocturnal SBP (p = 0.028) and nocturnal DBP (p = 0.031), and the HFDE group showed a decrease in 24-hour SBP (p = 0.018). The consumption of 1 g/kg of fructose per day can increase uric acid concentrations and blood pressure in adults. Additionally, aerobic exercises along with fructose consumption attenuate changes in uric acid concentrations and prevent impairment in nocturnal blood pressure.


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