Alleviating the effect of quinoa and the underlying mechanism on hepatic steatosis in high-fat diet-fed rats

Song, Chenwei; Lv, Wei; Li, Yahui; Nie, Pan; Lu, Jun; Geng, Yanlou; Zhang, Heng; Liu, Song

doi:10.1186/s12986-021-00631-7

Cited by 9 publications

(9 citation statements)

References 55 publications

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“…The observed improvement in liver morphology was independent of hepatic TG content, which was not significantly different between PEP2 and HFD groups, but a decrease in cholesterol content was seen between HFD and PEP2 groups, similar to Song et al [ 36 ], who reports a reduction of the hepatic total cholesterol content after quinoa supplementation but no difference between HFD and quinoa supplemented groups in terms of hepatic TG [ 36 ] and attributes the improvement in NAFLD in part to changes in hepatic phospholipids, such as increased lysophosphatidylcholine and pantothenic acid, and decreased phosphatidylcholine and dioleoylphosphatidylcholine [ 36 ]. Indeed, impairment of cholesterol metabolism may be the key driver to large LD formation, rather than TG metabolism [ 20 ].…”

Section: Discussionsupporting

confidence: 88%

An Egg White-Derived Peptide Enhances Systemic Insulin Sensitivity and Modulates Markers of Non-Alcoholic Fatty Liver Disease in Obese, Insulin Resistant Mice

et al. 2023

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Non-alcoholic fatty liver disease (NAFLD), the hepatic manifestation of the metabolic syndrome, is a global health problem. Currently, no pharmacological treatment is approved for NAFLD. Natural health products, including bioactive peptides, are potential candidates to aid in the management of metabolic syndrome-related conditions, including insulin resistance and obesity. In this study, we hypothesized that an egg-white-derived bioactive peptide QAMPFRVTEQE (Peptide 2) would improve systemic and local white adipose tissue insulin sensitivity, thereby preventing high-fat diet-induced exacerbation of pathological features associated with NAFLD, such as lipid droplet size and number, inflammation, and hepatocyte hypertrophy in high-fat diet-fed mice. Similar to rosiglitazone, Peptide 2 supplementation improved systemic insulin resistance during the hyperinsulinemic-euglycemic clamp and enhanced insulin signalling in white adipose tissue, modulating ex vivo lipolysis. In the liver, compared with high-fat diet fed animals, Peptide 2 supplemented animals presented decreased hepatic cholesterol accumulation (p < 0.05) and area of individual hepatic lipid droplet by around 50% (p = 0.09) and reduced hepatic inflammatory infiltration (p < 0.05) whereas rosiglitazone exacerbated steatosis. In conclusion, Peptide 2 supplementation improved insulin sensitivity and decreased hepatic steatosis, unlike the insulin-sensitizing drug rosiglitazone.

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Section: Discussionsupporting

confidence: 88%

An Egg White-Derived Peptide Enhances Systemic Insulin Sensitivity and Modulates Markers of Non-Alcoholic Fatty Liver Disease in Obese, Insulin Resistant Mice

et al. 2023

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“…Additionally, impaired insulin sensitivity is associated with dysfunction of the pancreas islets (Sampey et al, 2011) and slightly hypertrophic and disfigured pancreatic islets with dramatically distorted architecture in cafeteria-fed rats were shown (Sampey et al, 2011). An inverse relationship between quinoa supplementation and body weight gain has been reported previously, in studies using high-fat diets as an obesity model (Cao et al, 2020;Song et al, 2021). Our results showed similar effects as CAFQ displayed an attenuated body weight in comparison with CAF.…”

Section: Discussionsupporting

confidence: 86%

“…A number of animal studies have verified the hepatoprotective potential of adding quinoa to energy‐dense diets (Ng & Wang, 2021 ) by reducing hepatic lipid accumulation (An et al, 2021 ; Song et al, 2021 ). Also, lower levels of lipid aggregation in the liver (Noratto et al, 2019 ), decreased hepatic fat (Gewehr et al, 2016 ) protected liver tissue structure (Obaroakpo et al, 2020 ) were reported in rodents due to quinoa (Noratto et al, 2019 ), quinoa flakes (Gewehr et al, 2016 ), or sprouted quinoa yoghurt (Obaroakpo et al, 2020 ).…”

Section: Discussionmentioning

confidence: 99%

“…Concordant with previous studies, our study found that quinoa intervention alleviated CAF‐induced microvesicular steatosis and hepatocyte degeneration. The underlying mechanisms may be reduced hyperglycemia (Lopes et al, 2019 ), altered hepatic lipid metabolism genes (Song et al, 2021 ), anti‐inflammatory (Ng & Wang, 2021 ) and anti‐oxidant activities attributed to its abundant phytochemicals (saponins, phenolic acids, flavonoids, terpenoids, and steroids) (An et al, 2021 ; Song et al, 2021 ), lower blood cholesterol, and LDL‐C attributed to tocopherol and unsaturated fatty acid content (Gewehr et al, 2016 ). Additionally, it was suggested that quinoa's protein fraction inhibited reabsorption of bile acids in the small intestine and controlled cholesterol synthesis by suppressing of expression of hepatic HMG‐CoA reductase (Takao et al, 2005 ), its fiber content inhibited the absorption of dietary cholesterol (Noratto et al, 2019 ) and saponins in quinoa can inhibit pancreatic lipase which may lead to reduced cholesterol absorption (Navarro Del Hierro et al, 2021 ).…”

Section: Discussionmentioning

confidence: 99%

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Quinoa (Chenopodium quinoa Willd.) supplemented cafeteria diet ameliorates glucose intolerance in rats

Ozcaliskan Ilkay,

Karabulut,

Kamaci Ozocak

et al. 2023

Food Science & Nutrition

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Quinoa (Chenopodium quinoa Willd.) is a pseudocereal with rich nutritional composition, gluten free, and organoleptic. The primary aim of this study was to elucidate the possible protective roles of quinoa in glucose homeostasis in a model of cafeteria diet‐induced obesity. Male Wistar rats (3 weeks of age) were randomly allocated to be fed by; control chow (CON; n = 6), quinoa (QUI; n = 6), cafeteria (CAF; n = 6), or quinoa and cafeteria (CAFQ; n = 6) for 15 weeks. CAFQ resulted in decreased saturated fat, sugar, and sodium intake in comparison with CAF. Compared to CON, CAF increased body weight gain, plasma insulin, plasma glucose, decreased liver IRS‐1, AMPK mRNA expressions, and pancreatic β‐cell insulin immunoreactivity, and developed hepatocyte degeneration and microvesicular steatosis. Compared to CAF, QUI lowered body weight, plasma glucose, and plasma insulin, increased liver IRS‐1 and AMPK mRNA expressions, and pancreatic β‐cell insulin immunoreactivity. Compared to CAF, CAFQ lowered plasma glucose, increased liver IRS‐1 mRNA expressions, increased pancreatic β‐cell insulin immunoreactivity, and lowered hepatocyte degeneration and microvesicular steatosis. Dietary treatments did not influence IRS‐2, AKT2, and INSR mRNA expressions. HOMA‐IR, HOMA‐β, and QUICKI were also similar between groups. Restoration of insulin in CAFQ islets was as well as that of CON and QUI groups. In conclusion, as a functional food, quinoa may be useful in the prevention of obesity and associated metabolic outcomes such as glucose intolerance, disrupted pancreatic β‐cell function, hepatic insulin resistance, and lipid accumulation.

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“…In this regard, Song et al administered different amounts of quinoa in a high-fat diet to rats to assess their effects on nonalcoholic fatty liver disease. They concluded that both lower and higher quantities of quinoa could effectively regulate the lipid profile, control the body weight, and mitigate oxidative stress; besides, a high quantity of quinoa upregulated genes related to lipid metabolism (32). Moreover, in a study by Li et al , after four weeks of quinoa bread consumption, the level of low-density lipoprotein-cholesterol (LDL-C) was found to be significantly lower than the baseline; however, there was no significant difference between the quinoa and control groups (15).…”

Section: Nutritional Valuementioning

confidence: 99%

Nutritional Effects of Adding Quinoa to Bread: A Systematic Review

Keshani,

Shirvani,

Hedayati

et al. 2023

Shiraz E-Med J

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Context: Considering the importance of bread as a staple food in many countries around the world, including Iran, Objectives: This study aimed to assess the nutritional values (i.e., protein content, fat content, carbohydrates, vitamins, minerals, and antioxidant activity) of quinoa-wheat bread compared to simple wheat bread. Methods: A search was conducted in electronic databases, including PubMed, Scopus, and Web of Science, as well as Google Scholar search engine. After screening the title and full-text of the articles, data were extracted by two independent researchers; a third researcher interfered in case of disagreement. Keywords, including “Chenopodium quinoa”, “Quinoa”, and “bread”, were obtained from the MeSh database and the manuscripts of related articles. All papers written in English language, which were published before March 2022, were selected for this review. Results: Among 159 initially extracted articles, 38 were selected by screening the titles and removing duplicates and irrelevant papers. Eleven articles were finally included in this review. Overall, the results showed significantly higher protein, fat, and fiber content in quinoa-wheat bread compared to simple wheat bread. Conclusions: Based on the results, the addition of quinoa flour could promote the health benefits of bread by increasing the protein, lipid, fiber, and micronutrient contents. It is suggested to optimize the nutritional value of the Iranian’s staple food by adding quinoa flour to wheat bread.

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Alleviating the effect of quinoa and the underlying mechanism on hepatic steatosis in high-fat diet-fed rats

Cited by 9 publications

References 55 publications

An Egg White-Derived Peptide Enhances Systemic Insulin Sensitivity and Modulates Markers of Non-Alcoholic Fatty Liver Disease in Obese, Insulin Resistant Mice

An Egg White-Derived Peptide Enhances Systemic Insulin Sensitivity and Modulates Markers of Non-Alcoholic Fatty Liver Disease in Obese, Insulin Resistant Mice

Quinoa (Chenopodium quinoa Willd.) supplemented cafeteria diet ameliorates glucose intolerance in rats

Nutritional Effects of Adding Quinoa to Bread: A Systematic Review

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