scholarly journals Synbiotic Supplementation Modulates Gut Microbiota, Regulates Beta-catenin Expression and Prevents Weight Gain in Ob/ob Mice

2021 ◽  
Author(s):  
Sebastião Mauro Bezerra Duarte ◽  
José Tadeu Stefano ◽  
Lucas A. M. Franco ◽  
Roberta C. Martins ◽  
Bruna D. G. C. Moraes ◽  
...  
Keyword(s):  
Gene Expression ◽  
Weight Gain ◽  
Gut Microbiota ◽  
Body Weight Gain ◽  
Standard Diet ◽  
Beta Catenin ◽  
Stool Samples ◽  
Synbiotic Supplementation ◽  
And Control ◽  
The Impact

Abstract Background: Obesity is one of the main health problems in the world today and dysbiosis seem to be one of the factors involved. The aim of this study was to examine the impact of synbiotic supplementation in obesity and microbiota in ob/ob mice. 20 animals were divided into four groups: Obese Treated (OT) and Control (OC), Lean Treated (LT) and Control (LC). All animals received standard diet for 8 weeks. Treated groups received a synbiotic in water while nontreated groups received water. After 8 weeks, all animals were sacrificed and gut tissue mRNA isolation and stool samples by microbiota analysis were collected. Beta-catenin, occludin, cadherin and zonulin were analyzed in gut tissue by RT-qPCR. Microbiome DNA was extracted from stool samples and sequenced using the Ion PGM Torrent platform. Results: The synbiotic supplementation reduced body weight gain in OT group comparing with OC (p=0.0398), increase of Enterobacteriaceae (p=0.005) and decrease of Cyanobacteria (p=0.047), Clostridiaceae (p=0.026), Turicibacterales (p=0.005) and Coprococcus (p=0.047). In the other hand, a significant reduction of Sutterella bacteria (p=0.009) and Turicibacter (p=0.005) was observed in LT group compared to LC. Alpha and beta diversities were differ between all treated groups. Beta-catenin gene expression was significantly decreased in the gut tissue of OT group (p≤0.0001) when compared to other groups. No changes were observed in occludin, cadherin and zonulin gene expression in the gut tissue. Conclusion: The synbiotics supplementation prevents excessive weight gain, modulates the gut microbiota, and reduces beta-catenin expression in ob/ob mice.

scholarly journals Synbiotic Supplementation Modulates Gut Microbiota, Regulates Beta-Catenin Expression And Prevents Weight Gain in ob/ob Mice

2021 ◽  
Author(s):  
Sebastião Mauro Bezerra Duarte ◽  
José Tadeu Stefano ◽  
Lucas A. M. Franco ◽  
Roberta C. Martins ◽  
Bruna D. G. C. Moraes ◽  
...  
Keyword(s):  
Gene Expression ◽  
Weight Gain ◽  
Gut Microbiota ◽  
Body Weight Gain ◽  
Standard Diet ◽  
Beta Catenin ◽  
Reduced Body ◽  
Synbiotic Supplementation ◽  
And Control ◽  
The Impact

Abstract Background: The aim of this study was to examine the impact of synbiotic supplementation in obesity and microbiota in ob/ob mice. 20 animals were divided into four groups: Obese Treated (OT), Control (OC), Lean Treated (LT) and Control (LC). All animals received standard diet for 8 weeks. Treated groups received a synbiotic in water while nontreated groups received water. After 8 weeks, all animals were sacrificed and gut tissue mRNA isolation and stool samples by microbiota analysis were collected. Beta-catenin, occludin, cadherin and zonulin were analyzed in gut tissue by RT-qPCR. Results: The synbiotic supplementation reduced body weight gain in OT comparing with OC (p=0.0398), increase of Enterobacteriaceae (p=0.005) and decrease of Cyanobacteria (p=0.047), Clostridiaceae (p=0.026), Turicibacterales (p=0.005) and Coprococcus (p=0.047). A significant reduction of Sutterella bacteria (p=0.009) and Turicibacter (p=0.005) was observed in LT compared to LC. Alpha and beta diversities were differ between all treated groups. Beta-catenin gene expression was significantly decreased in the gut tissue of OT (p≤0.0001) when compared to other groups. No changes were observed in occludin, cadherin and zonulin gene expression in the gut tissue. Conclusion: The synbiotics supplementation prevents excessive weight gain, modulates the gut microbiota, and reduces beta-catenin expression in ob/ob mice.

scholarly journals Effects of Exercise Training on Molecular Markers of Lipogenesis and Lipid Partitioning in Fructose-Induced Liver Fat Accumulation

2012 ◽  
Vol 2012 ◽  
pp. 1-10 ◽  
Author(s):  
Siham Yasari ◽  
Denis Prud'homme ◽  
Frédérique Tesson ◽  
Marek Jankowski ◽  
Jolanta Gutkowska ◽  
...  
Keyword(s):  
Gene Expression ◽  
Exercise Training ◽  
Unsaturated Fatty Acids ◽  
Regulatory Element ◽  
Female Rats ◽  
Liver Fat ◽  
Standard Diet ◽  
Fat Accumulation ◽  
High Fructose ◽  
The Impact

The present study was designed to investigate the impact of exercise training on lipogenic gene expression in liver and lipid partitioning following the ingestion of a high fructose load. Female rats were exercise-trained for 8 wk or kept sedentary before being submitted to a fasting/refeeding protocol. Rats were further subdivided as follow: rats were fasted for 24 h, refed a standard diet for 24 h, starved for another 24 h, and refed with a standard or a high-fructose diet 24 h before sacrifice. Fructose refeeding was associated with an increase in hepatic lipid content, endocannabinoid receptor 1, sterol regulatory element-binding protein1c, and stearoyl-CoA desaturase1 gene expression in both Sed and TR rats. However, desaturation indexes measured in liver (C16 : 1/C16 : 0 and C18 : 1/C18 : 0) and plasma (C18 : 1/C18 : 0) were higher (P<0.01) in TR than in Sed rats following fructose refeeding. It is concluded that exercise training does not significantly affect fat accumulation and the molecular expression of genes involved in lipogenesis after fasting and fructose refeeding but does modify the partitioning of lipids so as to provide more unsaturated fatty acids in liver without affecting liver fat content.

scholarly journals Eicosapentaenoic acid actions on adiposity and insulin resistance in control and high-fat-fed rats: role of apoptosis, adiponectin and tumour necrosis factor-α

2007 ◽  
Vol 97 (2) ◽  
pp. 389-398 ◽  
Author(s):  
Patricia Pérez-Matute ◽  
Nerea Pérez-Echarri ◽  
J. Alfredo Martínez ◽  
Amelia Marti ◽  
María J. Moreno-Aliaga
Keyword(s):  
Gene Expression ◽  
Insulin Resistance ◽  
Body Weight ◽  
Adipose Tissue ◽  
Weight Gain ◽  
Body Weight Gain ◽  
Control Diet ◽  
Cafeteria Diet ◽  
High Fat ◽  
Beneficial Effects

n-3 PUFA have shown potential anti-obesity and insulin-sensitising properties. However, the mechanisms involved are not clearly established. The aim of the present study was to assess the effects of EPA administration, one of the n-3 PUFA, on body-weight gain and adiposity in rats fed on a standard or a high-fat (cafeteria) diet. The actions on white adipose tissue lipolysis, apoptosis and on several genes related to obesity and insulin resistance were also studied. Control and cafeteria-induced overweight male Wistar rats were assigned into two subgroups, one of them daily received EPA ethyl ester (1 g/kg) for 5 weeks by oral administration. The high-fat diet induced a very significant increase in both body weight and fat mass. Rats fed with the cafeteria diet and orally treated with EPA showed a marginally lower body-weight gain (P = 0·09), a decrease in food intake (P < 0·01) and an increase in leptin production (P < 0·05). EPA administration reduced retroperitoneal adipose tissue weight (P < 0·05) which could be secondary to the inhibition of the adipogenic transcription factor PPARγ gene expression (P < 0·001), and also to the increase in apoptosis (P < 0·05) found in rats fed with a control diet. TNFα gene expression was significantly increased (P < 0·05) by the cafeteria diet, while EPA treatment was able to prevent (P < 0·01) the rise in this inflammatory cytokine. Adiposity-corrected adiponectin plasma levels were increased by EPA. These actions on both TNFα and adiponectin could explain the beneficial effects of EPA on insulin resistance induced by the cafeteria diet.

scholarly journals Dampak Pemberian Mikroenkapsulasi Minyak Ikan dalam Pakan terhadap Kolesterol Darah dan Performa pada Domba

2021 ◽  
Vol 21 (1) ◽  
Author(s):  
Ganesha Ade Riemas ◽  
Iman Hernaman ◽  
Diky Ramdani ◽  
Bambang Nurhadi
Keyword(s):  
Body Weight ◽  
Weight Gain ◽  
Fish Oil ◽  
Body Weight Gain ◽  
Blood Cholesterol ◽  
Feed Conversion ◽  
Cholesterol Levels ◽  
Affect Body Weight ◽  
And Performance ◽  
The Impact

ABSTRAK. Tujuan penelitian ini untuk mengukur seberapa besar pengaruh minyak ikan yang sudah terenkapsulasi terhadap kolesterol darah dan performa pada Domba. Penelitian telah dilakukan di Sub Unit Pelayanan Pengembangan Pembibitan Ternak Domba dan Kambing (SUPPPTDK) Bunihayu, Subang pada tanggal 20 Januari 2020 sampai 27 Maret 2020. Sebanyak 18 ekor domba Ekor Tipis jantan dengan bobot 15,99±0,98 kg dialokasikan ke dalam 3 perlakuan secara acak. Domba tersebut diberi ransum perlakuan yang disuplementasi dengan mikroenkapsulasi minyak ikan sebanyak 0% (P0), 2,5% (P1), dan 5% (P2). Data yang terkumpul dilakukan analisis ragam dan bila hasil berbeda nyata maka dilanjutkan dengan uji Duncan. Hasil menunjukkan bahwa mikroenkapsulasi minyak ikan dapat menurunkan kolesterol darah (P0,05), namun tidak berpengaruh nyata terhadap pertambahan bobot badan, konsumsi dan konversi ransum (P0,05). Penurunan kadar kolesterol terjadi pada kelompok domba dengan perlakuan mikroenkapsulasi sebanyak 2,5% (P1) dan mikroenkapsulasi 5% (P2). Kadar kolesterol darah masing-masing perlakuan berturut-turut adalah 100,70 mg/dl (P0); 96,20 mg/dl (P1); dan 78,76 mg/dl (P2). Rataan yang terbaik pada pertambahan bobot badan, konsumsi bahan kering harian, dan konversi ransum terdapat pada P2 yaitu 63,96 g/hari, 574,13 g/hari, dan 9,08. Hasil penelitian dapat disimpulkan bahwa mikroenkapsulasi minyak ikan dapat menurunkan kolesterol darah, dengan penurunan tertinggi pada pemberian 5%.  (The impact of microencapsulation fish oil in feed on blood cholesterols and performance on sheep) ABSTRAK. This study measured the effect of encapsulated fish oil on blood cholesterol and sheep performance. The study was conducted at the Bunihayu Sheep and Goat Breeding Services Bunihayu, Subang on January 20, 2020 to March 27, 2020. A total of 18 male thin-tailed sheep 15.99±0.98 kg were allocated randomly into 3 treatments. The sheep were given feed supplemented with fish oil microencapsulation of 0% (P0), 2.5% (P1), and 5% (P2). The data were collected and analyzed by analysis of variance and, if the result is significantly different, continued by Duncan's test. The results showed that fish oil microencapsulation decreased blood cholesterol levels (P0.05). However, it did not affect body weight gain, consumption, and feed conversion (P0.05). Decreased levels of cholesterol occurred in the group of sheep with 2.5% microencapsulation (P1) and 5% microencapsulation (P2). Blood cholesterol levels of each treatment were 100.70 mg/dl (P0); 96.20 mg/dl (P1); and 78.76 mg/dl (P2), respectively. Averagely, the highest body weight gain, dry matter intake and feed conversion were found in P2 as much as 63.96 g/day, 574.13 g/day, and 9.08, respectively. The results can be concluded that microencapsulation of fish oil can reduce blood cholesterol, with the highest decrease at the level of 5%.

scholarly journals Dietary Proteins Relevant to Human Consumption Impact the Development of Obesity and Type 2 Diabetes in Association with Major Changes in the Gut Microbiota in a Mouse Model (OR27-03-19)

2019 ◽  
Vol 3 (Supplement_1) ◽  
Author(s):  
Noëmie Daniel ◽  
Béatrice Choi ◽  
Vanessa Houde ◽  
Thibault Varin ◽  
Cecile Vors ◽  
...  
Keyword(s):  
Animal Models ◽  
Gut Microbiota ◽  
Insulin Signaling ◽  
Body Weight Gain ◽  
Bacterial Species ◽  
Human Consumption ◽  
Oral Glucose ◽  
Rrna Gene ◽  
Dietary Proteins ◽  
The Impact

Abstract Objectives Animal models fed a high-fat high-sucrose (HFHS) diet are commonly used to study obesity and cardiometabolic diseases. While much attention is paid to the impact of fat and carbohydrates sources, very little consideration is given to the composition of dietary proteins. Indeed, casein is often the only source of protein in rodent's diet. This study aimed to evaluate the impact of a dietary protein mix that is more relevant to typical intakes of proteins in humans and its influences on body weight gain, metabolic health and gut microbiota. Methods Our new diet contained a mix of 10 protein sources based on NHANES data that were incorporated into low-fat low-sucrose (LFLS) and HFHS diets. C57BL/6J mice were fed these diets or control diets containing identical amounts of casein as the only source of protein for 12 weeks. Feces were collected for gut microbiota investigation, an oral glucose tolerance test was performed and tissues were harvested for analysis of insulin signaling and mTOR/S6K1 activation. Results 16S rRNA gene sequencing of fecal samples showed that both LFLS and HFHS mice fed the protein mix had increased gut microbiota diversity, and significant changes in the relative abundance of several bacterial species (higher Adlercreutzia or Tyzzerella, lower Bacteroides or Akkermansia) as compared to mice fed casein only. Importantly, inclusion of the protein mix amplified the effects of the HFHS diet on the development of obesity, glucose intolerance and hyperinsulinemia as compared to casein-fed animals, whereas no difference was observed in the context of LFLS feeding. Evaluation of insulin signaling in the liver also revealed that the protein mix potentiated the effect of HFHS feeding on the mTORC1/S6K1 pathway, increasing inhibitory phosphorylation of IRS-1 on Ser1101 and leading to further impairment of Akt activation by insulin. Conclusions Our results reveal that compared to pure casein, feeding a protein mixture causes major changes in the gut microbiota profile and greater impact on HFHS-induced obesity and associated metabolic impairments. This study illustrates the importance of considering a diverse source of dietary proteins when using laboratory animal models to more reliably reproduce the development of metabolic syndrome in humans, and to enhance the clinical relevance of nutritional and therapeutic interventions. Funding Sources N/A.

64 Culture of bovine oocytes and embryos with metabolic hormones concentrations associated with equine metabolic syndrome

2019 ◽  
Vol 31 (1) ◽  
pp. 157
Author(s):  
D. Bresnahan ◽  
E. Carnevale
Keyword(s):  
Gene Expression ◽  
Metabolic Syndrome ◽  
Embryo Development ◽  
Early Embryo ◽  
Blastocyst Formation ◽  
Early Embryo Development ◽  
Metabolic Hormones ◽  
Equine Metabolic Syndrome ◽  
And Control ◽  
The Impact

Maternal metabolic status could affect fertility and early embryo development due to altered concentrations of metabolic hormones. Equine metabolic syndrome (EMS) is a condition in horses associated with obesity and insulin resistance. Equine metabolic syndrome is accompanied by increased concentrations of insulin and leptin and decreased concentrations of adiponectin, in ovarian follicular fluid (FF) and in systemic circulation (SYST). We sought to determine how altered concentrations of insulin, leptin, and adiponectin (ILA), consistent with those in mares with EMS (EMS) or normal mares (normal), would affect blastocyst formation rates, blastocyst gene expression for metabolism and inner cell mass formation (OCT4, SOX2, COX2, DNMT3a1, HK2, LDH, PDH, and GLUT1), and metabolite uptake from culture media. Because equine oocytes are not available for large-scale study, a bovine model was used in this preliminary study to determine the impact of altered ILA on oocytes and embryos. Bovine ovaries were obtained from an abattoir and embryos produced as previously described using chemically defined media (CDM; Barcelo-Fimbres and Seidel 2007Mol. Reprod. Dev. 74, 1406-1418). Briefly, oocytes were cultured in in vitro maturation medium (IVM), fertilized in FCDM, presumptive zygotes were placed into CDM-1 for ~56h. Cleavage rates were assessed, and embryos were moved to CDM-2 for ~122 additional hours. Treatments consisted of 5 groups: (1) standard oocyte IVM, FCDM and embryo production (EP) system (control), (2) IVM with normal FF ILA and control FCDM and EP, (3) IVM with normal FF ILA and FCDM and EP with normal SYST ILA, (4) IVM with EMS FF ILA and control FCDM and EP, and (5) IVM with EMS FF ILA and FCDM and EP with EMS SYST ILA. Seven days after fertilization, blastocysts were pooled in groups of 5 and placed into 50mL of CDM-2 for 24h. Embryos were removed, and medium was frozen and stored at −80°C to determine metabolite usage via gas chromatography mass spectroscopy. Pooled embryos were washed and placed into RNA lysis solution for relative quantitative PCR. Statistical comparisons were performed using ANOVA with a post-hoc Tukey test. Blastocyst formation rates and gene expression of viability markers were not significantly different among groups. However, aspartate was lower (P=0.02) in spent media from Group 3 (normal FF and SYST ILA) and tended (P=0.09) to be lower in media from Group 5 (EMS FF and SYST ILA) when compared with controls (Group 1). The ILA during early embryo development but not oocyte maturation appeared to be associated with increased uptake of aspartate, a nonessential amino acid, thought to be involved in osmoregulation, cellular signalling, and in mouse embryos, facilitate the metabolism of lactate. In conclusion, the addition of ILA in concentrations observed in normal horses and EMS horses did not affect blastocyst formation rates or markers of embryo viability, although embryo metabolism could have been altered.

scholarly journals Effects of edible fats and oils on the body weight gain and on weights of some selected organs in rats removing the impact of unequal feed intake

1970 ◽  
pp. 107-110
Author(s):  
N Ahmad ◽  
S Majumder ◽  
MA Miah ◽  
MJ Uddin
Keyword(s):  
Body Weight ◽  
Weight Gain ◽  
Feed Intake ◽  
Body Weight Gain ◽  
Fats And Oils ◽  
Male Rats ◽  
Edible Fats ◽  
Group A ◽  
Group B ◽  
The Impact

An investigation on Long Evans male rats fed with different edible fats and oils was conducted in the Department of Physiology, Bangladesh Agricultural University, Mymensingh during a period of 7 weeks (1st April to 19th May, 2005) to determine and to compare the effect of feeds on body weight gain and on weights of some selected organs (heart, liver and kidney) removing the impact of unequal feed intake. A total of 20, six-week old male rats were randomly divided into A, B, C and D groups. Each group consisted of 5 rats. Rats were fed rat pellets purchased from ICDDR,B, Dhaka supplemented with beef fat in group A, fish fat in group B and soybean oil in group C while group D was considered as control and fed only with rat pellets. The concentration of fats and oils were 7% of normal diet and fed for 7 weeks. The highest weekly mean body weight gain (19.90g) adjusted for unequal feed intake was achieved by the rats of beef fat supplemented group A, followed by the rats of soybean oil supplemented group C (19.76g) and fish fat supplemented group B (15.67g). But none of the adjusted means of weekly body weight gain differed significantly (p > 0.05) from the control. Insignificant increases in heart weight were recorded in all treated rats and the maximum weight was in fish oil treated ones. Not much differences were recorded in the kidney weights rather beef oil treated rats' kidney had the lowest mean weight. A significantly (p < 0.01) higher liver weight was recorded in group B & C compared to control (group D), though the differences between A & D were insignificant. It could be concluded that fats and oils are harmful for the rat's body especially on liver and heart. Key words: Edible fats and oils, rat, body weight, organ weight, analysis of variance, covariance DOI = 10.3329/bjvm.v5i1.1326 Bangl. J. Vet. Med. (2007). 5 (1 & 2): 107-110

scholarly journals Long-term consequences of maternal high-fat feeding on hypothalamic leptin sensitivity and diet-induced obesity in the offspring

2007 ◽  
Vol 293 (3) ◽  
pp. R1056-R1062 ◽  
Author(s):  
Jacqueline Férézou-Viala ◽  
Anne-France Roy ◽  
Colette Sérougne ◽  
Daniel Gripois ◽  
Michel Parquet ◽  
...  
Keyword(s):  
Body Weight ◽  
Weight Gain ◽  
Body Weight Gain ◽  
Maternal Diet ◽  
The Body ◽  
Female Rats ◽  
Leptin Resistance ◽  
High Fat ◽  
Leptin Sensitivity ◽  
The Impact

Epidemiological and animal studies suggest that the alteration of hormonal and metabolic environment during fetal and neonatal development can contribute to development of metabolic syndrome in adulthood. In this paper, we investigated the impact of maternal high-fat (HF) diet on hypothalamic leptin sensitivity and body weight gain of offspring. Adult Wistar female rats received a HF or a control normal-fat (C) diet for 6 wk before gestation until the end of the suckling period. After weaning, pups received either C or HF diet during 6 wk. Body weight gain and metabolic and endocrine parameters were measured in the eight groups of rats formed according to a postweaning diet, maternal diet, and gender. To evaluate hypothalamic leptin sensitivity in each group, STAT-3 phosphorylation was measured in response to leptin or saline intraperitoneal bolus. Pups exhibited similar body weights at birth, but at weaning, those born to HF dams weighed significantly less (−12%) than those born to C dams. When given the HF diet, males and females born to HF dams exhibited smaller body weight and feed efficiency than those born to C dams, suggesting increased energy expenditure programmed by the maternal HF diet. Thus, maternal HF feeding could be protective against adverse effects of the HF diet as observed in male offspring of control dams: overweight (+17%) with hyperleptinemia and hyperinsulinemia. Furthermore, offspring of HF dams fed either C or HF diet exhibited an alteration in hypothalamic leptin-dependent STAT-3 phosphorylation. We conclude that maternal high-fat diet programs a hypothalamic leptin resistance in offspring, which, however, fails to increase the body weight gain until adulthood.

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