Your search keyword '"Fat deposition"' showing total 1,230 results

1. Dietary supplement of veratric acid alleviates liver steatosis and reduces abdominal fat deposition in broilers

Author

Pan, Tingli, Liu, Siqi, Liao, Qichao, Li, Yu, Xiao, Yang, Sun, Yu, Zhou, Lei, and Li, Yixing

Published

2024

2. Excess feeding increases adipogenesis but lowers leptin transcript abundance in zebrafish larvae

Author

Thompson, William Andrew, Rajeswari, Jithine Jayakumar, Holloway, Alison C., and Vijayan, Mathilakath M.

Published

2024

3. Molecular characterization of the grass carp bscl2 gene and its expression response to lipid accumulation, nutritional status, insulin and glucagon

Author

Yang, Guokun, Li, Chengquan, Wang, Sunan, Liang, Xiaomin, Yang, Boya, Zhang, Yanmin, Zhang, Xindang, Chang, Xulu, and Meng, Xiaolin

Published

2024

4. Increased serum visfatin level is associated with fat deposition of the lumbar spine in ankylosing spondylitis patients

Author

Shen, Jie, Tao, Sha-Sha, Wang, Rui-Yuan, Shi, Shi-Kui, Jiang, Chao, and Mei, Yong-Jun

Published

2024

5. The heavy suckling lamb of Sarda dairy sheep and its crossbreed with Dorper rams: Performance, meat quality and consumer perceptions

Author

Lunesu, Mondina Francesca, Battacone, Gianni, Mellino, Maria Rita, Carta, Silvia, Pulina, Giuseppe, and Nudda, Anna

Published

2023

6. Impact of an extended light regimen imposed during nursery period on the performance and lipid metabolism of weanling pigs.

Author

Guangfan Liu, Fen Su, Xingyue Zou, Xingming Yang, and Liang Tian

Subjects

*GENE expression, *PROTEIN expression, *LIPID metabolism, *PIGLETS, *SOMATOTROPIN, *ANIMAL weaning, *WEIGHT gain

Abstract

Objective: This study aimed to assess the impact of a prolonged photoperiod on the growth performance and lipid metabolism of weaned piglets. Methods: Twenty-four piglets weaned at 28 days of age were randomly dichotomized into two groups that were alternatively subjected to either long photoperiod (LP) group (16 L:8 D) or short photoperiod (SP) group (10 L:14 D) for 42days. Four replicates of three animals per replicates were used per experimental treatment. Results: Our results demonstrated that prolonged photoperiod increased piglet body weight, average daily weight gain (ADG), backfat thickness (BF), backfat index during the nursery period, and increased ADG, average daily feed intake (ADFI), and decreased the F/G of piglets during the experiment days 29 to 42. Meanwhile, we observed LP piglets' plasma melatonin, growth hormone and serotonin levels were decreased at 14 d and 42 d compared to SP piglets. Moreover, up-regulated mRNA or protein expression of PPARγ and CEBPα, and lower mRNA or protein expression of MTR1, ATGL, HSL, PPARα, and CPT1α, were observed in back subcutaneous fat of LP group compared with that of SP group. Significant increases were observed in the mRNA or protein contents of lipogenic genes, including C/EBPα, SREBP-1c, ACCα, and FAS, in the liver of LP piglets, whereas CPT1α and ACOX1 mRNA levels and PPARα and MTR1 protein expression were significantly down regulated in LP group compared to SP group. Extended photoperiod also increased lipid content in longissimus dorsi muscle that was associated with higher mRNA or protein levels of SREBP-1c, ACCα, FAS, Pref1, and LPL, decreased mRNA or protein contents of LeptinR, MTR1, HSL, and ACOX1. Conclusion: Together, these findings suggest that there is an advantage, in terms of growth performance and fat deposition, in imposing a prolonged light program (16-h light/d) on nursery piglets to alleviate the negative aspects of weaning stress. [ABSTRACT FROM AUTHOR]

Published

2025

7. Nitrogen‐Doped Multiwalled Carbon Nanotubes Trigger Immune Responses and Inhibit Fat Deposition.

Author

He, Dalin, Xiao, Xue, Hu, Geng, Zhang, Wenqian, Yu, Guanliu, Liu, Yan, Lin, Yun, Lin, Hai, Li, Xianyao, Diao, Youxiang, Tang, Yi, and Li, Haifang

Subjects

MULTIWALLED carbon nanotubes, ADIPOSE tissues, TRANSMISSION electron microscopy, WEIGHT gain, STEM cells, ADIPOGENESIS

Abstract

Multiwalled carbon nanotubes (MWCNTs) offer immense opportunities to deliver drugs and biomolecules to targeted tissues. However, it's unclear to their effects on fat metabolism. Here, it is demonstrated that nitrogen‐doped carboxylate‐functionalized MWCNTs (N‐MWCNTs) inhibit fat deposition both in vivo and in vitro. N‐MWCNTs <0.5 µg mL−1 do not affect the viability of HEK293 cells and adipose‐derived stem cells (ASCs). Intramuscular administration of N‐MWCNTs does not affect the body weight gain and feed intake of mice, but reduces the fat mass. In in vitro‐cultured adipocytes, N‐MWCNTs suppress fat accumulation, accompanied by decreased and increased expression of adipogenic and lipolysis genes, respectively. Transcriptome analysis further certifies the N‐MWCNT alteration of fat metabolism‐related genes. Interestingly, the internalization of N‐MWCNTs by macrophage‐like cells via Transmission electron microscopy (TEM) imaging is observed. The mRNA sequencing data also shows remarkable variation of the genes involved in the Toll‐like receptors (TLRs) pathway, exhibiting down‐ or up‐regulation of inflammatory factors, of which TNF‐α, IL‐1, IL‐7, IL‐10, and IL‐12 are decreased, whereas IL‐6 and IL‐11 are increased. In conclusion, N‐MWCNTs trigger immune responses and reduction of fat deposition. [ABSTRACT FROM AUTHOR]

Published

2024

8. Gut Bifidobacterium pseudocatenulatum protects against fat deposition by enhancing secondary bile acid biosynthesis.

Author

Zha, Andong, Qi, Ming, Deng, Yuankun, Li, Hao, Wang, Nan, Wang, Chengming, Liao, Simeng, Wan, Dan, Xiong, Xia, Liao, Peng, Wang, Jing, Yin, Yulong, and Tan, Bi'e

Subjects

*ACID deposition, *BILE salts, *BILE acids, *GUT microbiome, *LIPID metabolism, *WESTERN diet

Abstract

Gut microbiome is crucial for lipid metabolism in humans and animals. However, how specific gut microbiota and their associated metabolites impact fat deposition remains unclear. In this study, we demonstrated that the colonic microbiome of lean and obese pigs differentially contributes to fat deposition, as evidenced by colonic microbiota transplantation experiments. Notably, the higher abundance of Bifidobacterium pseudocatenulatum was significantly associated with lower backfat thickness in lean pigs. Microbial‐derived lithocholic acid (LCA) species were also significantly enriched in lean pigs and positively correlated with the abundance of B. pseudocatenulatum. In a high‐fat diet (HFD)‐fed mice model, administration of live B. pseudocatenulatum decreased fat deposition and enhances colonic secondary bile acid biosynthesis. Importantly, pharmacological inhibition of the bile salt hydrolase (BSH), which mediates secondary bile acid biosynthesis, impaired the anti‐fat deposition effect of B. pseudocatenulatum in antibiotic‐pretreated, HFD‐fed mice. Furthermore, dietary LCA also decreased fat deposition in HFD‐fed rats and obese pig models. These findings provide mechanistic insights into the anti‐fat deposition role of B. pseudocatenulatum and identify BSH as a potential target for preventing excessive fat deposition in humans and animals. Highlights: The gut microbiota composition and function differ significantly between lean and obese pigs, and breed‐specific microbiomes regulate fat deposition.Gut Bifidobacterium pseudocatenulatum protects against fat deposition by enhancing secondary bile acid biosynthesis.Dietary supplementation with lithocholic acid also helps prevent fat deposition. [ABSTRACT FROM AUTHOR]

Published

2024

9. Identification of key LncRNAs and mRNAs in fat deposition of Saba pigs based on comparative analysis of transcriptomics.

Author

Dong, Xinxing, Li, Xinpeng, Wang, Xiaoyi, Chen, Qiang, Li, Mingli, Yan, Dawei, Lan, Guoxiang, and Lu, Shaoxing

Subjects

*LINCRNA, *GENE expression, *YORKSHIRE swine, *TRANSCRIPTOMES, *GENE ontology

Abstract

Long non-coding RNAs (LncRNAs) are gaining attention in the context of pork production due to their role in regulating fat deposition, a crucial economic trait. This study focused on profiling LncRNAs in back fat deposition in Saba and Yorkshire pigs, which exhibit significant differences in fat accumulation. Using transcriptome sequencing and bioinformatics, we identified 704 differentially expressed mRNAs and 50 LncRNAs. We employed cis-regulatory analysis to explore the function of LncRNAs. Gene Ontology (GO) enrichment revealed pathways and enzyme activity-related terms, indicating that LncRNAs may modulate gene expression to influence biological processes. Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis showed enrichment in fat deposition pathways, underscoring the critical role of LncRNAs in this process. Further analysis and construction of LncRNA-mRNA interaction networks revealed 5 potential regulatory networks. Combining the data of differentially expressed LncRNAs and mRNAs, we identified candidate LncRNAs that regulate the expression of ACACA and FASN, which are functionally important genes affecting fat deposition. In summary, this study provides a theoretical foundation and valuable insights into the molecular mechanisms underlying LncRNA-mediated regulation of fat deposition in pigs. These findings are essential for advancing our understanding of porcine fat deposition and enhancing pork production. [ABSTRACT FROM AUTHOR]

Published

2024

10. 柚果多糖对斜带石斑鱼 脂肪沉积和肝脏健康的影响.

Author

张潇潇, 孙梓祯, 邬颖欣, 刘祎帆, 白卫东, 吴锦辉, and 邹翠云

Subjects

*HIGH-fat diet, *POLYSACCHARIDES, *LOW-fat diet, *POMELO, *WEIGHT gain

Abstract

The experiment aimed to investigate the effects of pomelo fruit polysaccharide on reducing fat deposition and improving liver health in Epinephelus coioides. Selected Epinephelus coioides with a body weight of about 11 g, divided into five groups. There were three replicates in each group: Control group (fat content 11.06%), low-fat group (fat content 7.49%), low-fat + pomelo fruit polysaccharide group (low-fat diet +400 mg/kg pomelo fruit polysaccharide), high-fat group (fat content 15.32%) and high-fat + pomelo fruit polysaccharide group (high-fat diet +400 mg/kg pomelo fruit polysaccharide). 20 fish per repeat. The pre-test period was two weeks, the formal test period was eight weeks. The results showed that the weight gain rate (WGR) and specific growth rate (SGR) of Epinephelus coioides in the low-fat group were significantly lower than those in the control group (P<0.05). The low-fat + pomelo fruit polysaccharide group and the high-fat + pomelo fruit polysaccharide group were higher than the low-fat group and the high-fat group, respectively, but without significant differences (P>0.05). Compared to the high-fat group, the whole fish and muscle crude fat content and hepatosomatic index (HSI) in the high-fat + pomelo fruit polysaccharide group were significantly reduced (P<0.05). The low-fat group and high-fat group showed liver damage, but the low-fat + pomelo fruit polysaccharide group and the high-fat + pomelo fruit polysaccharide group exhibited significant improvements in liver tissue structure damage, and the liver lipid droplet content in the high-fat + pomelo fruit polysaccharide group was significantly lower than that in the high-fat group. The high-fat + pomelo fruit polysaccharide group significantly inhibited the upregulation of inflammation and apoptosis-related genes interleukin-1β (IL-1β), interleukin-8 (IL-8), caspase protease-3 (caspase-3), and caspase protease-8 (caspase-8). The study indicates that the addition of pomelo polysaccharide in low fat and high fat diets had no effect on the growth performance of Epinephelus coioides, but it could reduce the increase of crude fat content in whole fish and muscle and fat deposition in liver caused by high fat diet, enhance immune function and improve liver health. [ABSTRACT FROM AUTHOR]

Published

2024

11. Gut Microbiome-Host Genetics Co-Evolution Shapes Adiposity by Modulating Energy and Lipid Metabolism in Selectively Bred Broiler Chickens.

Author

Gao, Guangqi, Jiao, Yangbo, Kwok, Lai-Yu, and Zhong, Zhi

Subjects

*BROILER chickens, *FEED utilization efficiency, *SINGLE nucleotide polymorphisms, *ABDOMINAL adipose tissue, *CHICKENS, *GUT microbiome

Abstract

Simple Summary: Chicken is an important part of the human diet, and it is considered a nutritious and healthy food. Excessive abdominal fat deposition in broiler chickens presents a significant hurdle for both poultry producers and the food industry. This study compared the gut microbiome composition and host whole-genome profiles between fat-line and lean-line broiler chickens that had been selectively bred for divergent abdominal fat levels over 15 generations. Our findings suggest that the two chicken lines exhibited significant differences in their gut microbiota and the selective breeding process also led to genomic variations in the lean broilers, with single nucleotide polymorphisms predominantly observed in genes related to energy and lipid metabolism. This study offers new insights into the intricate gut-genome interactions in chicken fat metabolism, paving the way for more effective breeding and microbiome-based strategies to manage adiposity in poultry. Optimizing fat deposition is crucial for improving chicken production and meat quality. This study investigated the interactive roles of host genetics and gut microbiome in regulating abdominal fat deposition in selectively bred broiler chicken lines. We compared the gut microbiome composition and host whole-genome profiles between fat-line and lean-line broiler chickens that had been selectively bred for divergent abdominal fat levels over 15 generations. Despite identical dietary and environmental conditions, the two chicken lines exhibited significant differences in their gut microbiota. Lean-line broiler chickens exhibited an increased abundance of intestinal Lactobacillus and a decreased presence of potentially pathogenic species, such as Campylobacter coli, Corynebacterium casei, and Enterococcus faecalis. These microbial alterations were accompanied by shifts in the functional metagenome, with enrichment in pathways involved in energy metabolism and nutrient utilization in the lean-line chickens. Notably, the selective breeding process also led to genomic variations in the lean broilers, with single nucleotide polymorphisms predominantly observed in genes related to energy and lipid metabolism. Our findings suggest that the host–microbiome interactions play a key role in the divergent abdominal fat deposition phenotypes observed in these selectively bred chicken lines. The co-evolution of the gut microbiome and host genetics highlights the importance of considering both factors to optimize poultry production efficiency and meat quality. This study offers new insights into the intricate gut–genome interactions in chicken fat metabolism, paving the way for more effective breeding and microbiome-based strategies to manage adiposity in poultry. [ABSTRACT FROM AUTHOR]

Published

2024

12. Identification of the FGB gene polymorphism and analysis of its association with fat deposition traits in Hu sheep.

Author

He, Lijuan, Wang, Weimin, Wang, Xiaojuan, Zhang, Deyin, Zhang, Yukun, Zhao, Yuan, Zhao, Liming, Li, Xiaolong, Cheng, Jiangbo, Xu, Dan, Ma, Zongwu, Yang, Xiaobin, Huang, Zhiqiang, Cai, Youxin, Liu, Xiaoqiang, Chen, Zhanyu, Weng, Xiuxiu, Lin, Changchun, Gong, Ping, and Zhang, Xiaoxue

Subjects

*SINGLE nucleotide polymorphisms, *ADIPOSE tissues, *GENE expression, *SHEEP breeds, *GENETIC polymorphisms

Abstract

As a crucial economic trait, fat deposition is directly related to carcass quality and feed efficiency in sheep. The purpose of this study was to investigate the polymorphisms of the FGB gene related to fat deposition and detect the expression features of the FGB gene in different adipose tissues of sheep by using Sanger sequencing, MassARRAY® SNP technique, and quantitative real-time PCR (qRT-PCR). Results showed that in the intron region of the FGB gene, a SNP g. 3378953 A > T has been identified, and significant association was found between perirenal fat weight, perirenal fat relative weight, mesenteric fat weight, and mesenteric fat relative weight (P < 0.05). Moreover, qRT-PCR analysis showed that FGB was expressed in all three adipose tissues, and FGB gene expression level in the AA genotype was significantly lower than that in the AT or TT genotypes (P < 0.05). Therefore, the FGB gene can be used as a candidate gene to reduce fat deposition in Hu sheep breeding, and the selection of the AA genotype in Hu sheep in production practice is more conducive to improving production efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

13. Euglena Attenuates High-Fat-Diet-Induced Obesity and Especially Glucose Intolerance.

Author

Ji, Tengteng, Fang, Bing, Jin, Yutong, Zheng, Chenyan, Yuan, Xinlei, Dong, Jianguo, Cheng, Le, and Wu, Fang

Abstract

Background: Obesity, a global disease, can lead to different chronic diseases and a series of social health problems. Lifestyle changes, especially dietary changes, are the most effective way to treat obesity. Euglena, a novel food, has attracted much attention. Previous studies have shown that Euglena is an important modulator of the host immune response. In this study, the effects of Euglena as a nutritional intervention in high-fat-diet-induced obese C57BL/6J mice were investigated regarding adipose tissue accumulation and lipid and glucose metabolism by gavage at the dose of 100 mg/kg bodyweight for 9 weeks. This study is one of the few to investigate, in detail, the preventive effects of dietary Euglena on obesity. Methods: Five-week-old male C57BL/6J mice were fed with a high-fat diet (HFD) to induce obesity. An obesity model was created by feeding the high-fat diet for a period of 10 weeks. Obese mice were randomized into 2 groups with the same mean body weight, and no significant differences were observed between the groups: (1) the mice in the HEG group were maintained on a high-fat diet and daily gavaged with Euglena (100 mg/kg body weight) dissolved in saline (n = 7); and (2) the mice in the HFD group were maintained on a high-fat diet and daily gavaged with saline with the same volume (n = 7). The experiment finished after a nine-week period. Results: The results showed that Euglena could reduce the accumulation of white body fat, including subcutaneous fat and visceral fat, and mainly targeted subcutaneous fat. Euglena also reduced adipocyte particle size expansion, promoted lipolysis in adipose (adipose triglyceride lipase and hormone-sensitive triglyceride lipase) and liver tissue (reduced non-esterified fatty acid content), and improved obesity-induced ectopic fat deposition and glucose tolerance. Conclusions: Our findings suggest that Euglena, as a nutritional intervention in HFDs, efficiently reduces body weight and white adipose tissue deposition. The mechanism of Euglena is mainly though enhancing lipolysis. It is worth noting that Euglena β-glucan recovers the hyperglycemia and accumulation of ectopic fat within the liver induced by HFD. Our study is one of the few studies to report in detail the preventive effects of dietary Euglena on obesity in vivo. This study revealed that Euglena also has an important ameliorative effect on obesity and metabolic disorders, which laid a theoretical foundation for its future application in functional foods. [ABSTRACT FROM AUTHOR]

Published

2024

14. 鸡不同组织及细胞中 gga-miR-103-3p 的表达 分析及其关键靶基因筛选.

Author

黄华云, 李瑞瑞, 杨苗苗, 赵振华, 王钱保, 梁 忠, 黄正洋, 吴兆林, 李春苗, and 韩 威

Subjects

ABDOMINAL adipose tissue, MUSCLE growth, LEG muscles, PROTEIN-protein interactions, PROTEIN analysis

Abstract

Copyright of Journal of Henan Agricultural Sciences is the property of Editorial Board of Journal of Henan Agricultural Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. Eubacterium siraeum suppresses fat deposition via decreasing the tyrosine-mediated PI3K/AKT signaling pathway in high-fat diet-induced obesity

Author

Xueshuang Lai, Shuang Liu, Jian Miao, Ran Shen, Zhen Wang, Zhe Zhang, Huanfa Gong, Meng Li, Yuchun Pan, and Qishan Wang

Subjects

Laiwu pig, Lulai black pig, Fat deposition, Eubacterium siraeum, Microbial ecology, QR100-130

Abstract

Abstract Background Obesity in humans can lead to chronic diseases such as diabetes and cardiovascular disease. Similarly, subcutaneous fat (SCF) in pigs affects feed utilization, and excessive SCF can reduce the feed efficiency of pigs. Therefore, identifying factors that suppress fat deposition is particularly important. Numerous studies have implicated the gut microbiome in pigs’ fat deposition, but research into its suppression remains scarce. The Lulai black pig (LL) is a hybrid breed derived from the Laiwu pig (LW) and the Yorkshire pig, with lower levels of SCF compared to the LW. In this study, we focused on these breeds to identify microbiota that regulate fat deposition. The key questions were: Which microbial populations reduce fat in LL pigs compared to LW pigs, and what is the underlying regulatory mechanism? Results In this study, we identified four different microbial strains, Eubacterium siraeum, Treponema bryantii, Clostridium sp. CAG:413, and Jeotgalibaca dankookensis, prevalent in both LW and LL pigs. Blood metabolome analysis revealed 49 differential metabolites, including tanshinone IIA and royal jelly acid, known for their anti-adipogenic properties. E. siraeum was strongly correlated with these metabolites, and its genes and metabolites were enriched in pathways linked to fatty acid degradation, glycerophospholipid, and glycerolipid metabolism. In vivo mouse experiments confirmed that E. siraeum metabolites curb weight gain, reduce SCF adipocyte size, increase the number of brown adipocytes, and regulate leptin, IL-6, and insulin secretion. Finally, we found that one important pathway through which E. siraeum inhibits fat deposition is by suppressing the phosphorylation of key proteins in the PI3K/AKT signaling pathway through the reduction of tyrosine. Conclusions We compared LW and LL pigs using fecal metagenomics, metabolomics, and blood metabolomics, identifying E. siraeum as a strain linked to fat deposition. Oral administration experiments in mice demonstrated that E. siraeum effectively inhibits fat accumulation, primarily through the suppression of the PI3K/AKT signaling pathway, a critical regulator of lipid metabolism. These findings provide a valuable theoretical basis for improving pork quality and offer insights relevant to the study of human obesity and related chronic metabolic diseases. Video Abstract

Published

2024

16. The reduction of fat deposition in broiler chickens fed diet containing modified rice bran tempeh

Author

U. Santoso, Y. Fenita, K. Kususiyah, Z. O. Fahmi, and A. Restu

Subjects

broiler chickens, fat deposition, meat fat, modified rice bran tempeh, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

The aim of this study was to assess the impact of modified rice bran tempeh on performance, carcass quality, organoleptic properties, fat deposition, and nutritional meat composition in broiler. This research used a completely randomized design. Two hundred broilers (a male to female ratio of 1:1) were divided into 4 treatment groups with 5 replications for each treatment, as follows: P1 = Feed without modified rice bran tempeh; P2 = Feed with 20% rice bran tempeh; P3 = Feed with 20% modified rice bran tempeh; and; P4 = Feed with 25% modified rice bran tempeh. The experimental results showed that all treatment groups had similar performance. The treatments significantly reduced (P

Published

2024

17. Eubacterium siraeum suppresses fat deposition via decreasing the tyrosine-mediated PI3K/AKT signaling pathway in high-fat diet-induced obesity.

Author

Lai, Xueshuang, Liu, Shuang, Miao, Jian, Shen, Ran, Wang, Zhen, Zhang, Zhe, Gong, Huanfa, Li, Meng, Pan, Yuchun, and Wang, Qishan

Subjects

YORKSHIRE swine, ORAL drug administration, ROYAL jelly, PI3K/AKT pathway, OBESITY, WEIGHT gain

Abstract

Background : Obesity in humans can lead to chronic diseases such as diabetes and cardiovascular disease. Similarly, subcutaneous fat (SCF) in pigs affects feed utilization, and excessive SCF can reduce the feed efficiency of pigs. Therefore, identifying factors that suppress fat deposition is particularly important. Numerous studies have implicated the gut microbiome in pigs' fat deposition, but research into its suppression remains scarce. The Lulai black pig (LL) is a hybrid breed derived from the Laiwu pig (LW) and the Yorkshire pig, with lower levels of SCF compared to the LW. In this study, we focused on these breeds to identify microbiota that regulate fat deposition. The key questions were: Which microbial populations reduce fat in LL pigs compared to LW pigs, and what is the underlying regulatory mechanism? Results: In this study, we identified four different microbial strains, Eubacterium siraeum, Treponema bryantii, Clostridium sp. CAG:413, and Jeotgalibaca dankookensis, prevalent in both LW and LL pigs. Blood metabolome analysis revealed 49 differential metabolites, including tanshinone IIA and royal jelly acid, known for their anti-adipogenic properties. E. siraeum was strongly correlated with these metabolites, and its genes and metabolites were enriched in pathways linked to fatty acid degradation, glycerophospholipid, and glycerolipid metabolism. In vivo mouse experiments confirmed that E. siraeum metabolites curb weight gain, reduce SCF adipocyte size, increase the number of brown adipocytes, and regulate leptin, IL-6, and insulin secretion. Finally, we found that one important pathway through which E. siraeum inhibits fat deposition is by suppressing the phosphorylation of key proteins in the PI3K/AKT signaling pathway through the reduction of tyrosine. Conclusions: We compared LW and LL pigs using fecal metagenomics, metabolomics, and blood metabolomics, identifying E. siraeum as a strain linked to fat deposition. Oral administration experiments in mice demonstrated that E. siraeum effectively inhibits fat accumulation, primarily through the suppression of the PI3K/AKT signaling pathway, a critical regulator of lipid metabolism. These findings provide a valuable theoretical basis for improving pork quality and offer insights relevant to the study of human obesity and related chronic metabolic diseases. A8f-W15s7ymTLwKonxAA6E Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

18. RNA-Seq based selection signature analysis for identifying genomic footprints associated with the fat-tail phenotype in sheep.

Author

Abbasabadi, Hossein, Bakhtiarizadeh, Mohammad Reza, Moradi, Mohammad Hossein, and McEwan, John C.

Subjects

SHEEP breeds, FATTY acid oxidation, SHEEP breeding, PRINCIPAL components analysis, GENE targeting

Abstract

Understanding the genetic background behind fat-tail development in sheep can be useful to develop breeding programs for genetic improvement, while the genetic basis of fat-tail formation is still not well understood. Here, to identify genomic regions influencing fat-tail size in sheep, a comprehensive selection signature identification analysis was performed through comparison of fat- and thin-tailed sheep breeds. Furthermore, to gain the first insights into the potential use of RNA-Seq for selection signature identification analysis, SNP calling was performed using RNA-Seq datasets. In total, 45 RNA-Seq samples from seven cohort studies were analyzed, and the FST method was used to detect selection signatures. Our findings indicated that RNA-Seq could be of potential utility for selection signature identification analysis. In total, 877 SNPs related to 103 genes were found to be under selection in 92 genomic regions. Functional annotation analysis reinforced the hypothesis that genes involved in fatty acid oxidation May modulate fat accumulation in the tail of sheep and highlighted the potential regulatory role of angiogenesis process in the fat deposition. In agreement with most previous studies, our results re-emphasize that the BMP2 gene is targeted by selection during sheep evolution. Further gene annotation analysis of the regions targeted by the sheep evolution process revealed that a large number of genes included in these regions are directly associated with fat metabolism, including those previously reported as candidates involved in sheep fat-tail morphology, such as NID2, IKBKG, RGMA, IGFBP7, UBR5, VEGFD and WLS. Moreover, a number of genes, including BDH2, ECHS1, AUH, ERBIN and CYP4V2 were of particular interest because they are well-known fat metabolism-associated genes and are considered novel candidates involved in fat-tail size. Consistent with the selection signature identification analysis, principal component analysis clustered the samples into two completely separate groups according to fat- and thin-tailed breeds. Our results provide novel insights into the genomic basis of phenotypic diversity related to the fat-tail of sheep breeds and can be used to determine directions for improving breeding strategies in the future. [ABSTRACT FROM AUTHOR]

Published

2024

19. 基于大规模 RNA-seq 数据绘制猪 RNA 编辑图谱 的研究.

Author

龙佳佳, 刘玮玮, 范新浩, 黎旺长, 杨小淦, and 唐中林

Abstract

【Objective】 A-to-I RNA editing is a co-transcriptional/post-transcriptional modification mediated by the ADAR enzyme family. The systematic mapping of the RNA editome in pigs provided candidate targets for molecular breeding in pigs. (Method) We collected 3 461 RNA-seq datasets from 16 types of pig tissues and detected RNA editing sites in pigs using bioinformatics methods. (Result) A total of 130 989 RNA editing sites were detected, of which 124 208 were A-to-I RNA editing sites. Analysis of the characteristics of the A-to-I RNA editing sites revealed that 98.2% were located in repetitive regions, primarily within the PRE-1/Pre0_SS elements of pig-specific SINE retrotransposons. Only 12.3% of A-to-1 RNA editing sites had coding potential. Finally, the study analyzed tissue-specific A-to-I RNA editingsites in seven tissues (adipose, brain, large intestine, small intestine, skeletal muscle, liver, and lung). Functional enrichment analysis of the host genes in adipose tissue-specific sites showed that these genes were enriched in pathways related to cellular lipid metabolic processes, lipid metabolic processes, and thioester metabolic processes. Genes related to fat deposition within these pathways included PDK1, ACSL1 and PDE3B.【Conclusion】This study comprehensively mapped the RNA editing sites in pigs, providing candidate targets for molecular breeding. [ABSTRACT FROM AUTHOR]

Published

2024

20. Pantothenic Acid Alleviates Fat Deposition and Inflammation by Suppressing the JNK/P38 MAPK Signaling Pathway.

Author

Zhao, Cunzhen, Wen, Ziwei, Gao, Yunfei, Xiao, Fang, Yan, Jinzhao, Wang, Xiaotong, and Meng, Tiantian

Subjects

*INFLAMMATION prevention, *LIPID metabolism, *THERAPEUTIC use of pantothenic acid, *MITOGEN-activated protein kinases, *IN vitro studies, *ADIPOSE tissues, *PHOSPHORYLATION, *RESEARCH funding, *GLUCOSE tolerance tests, *CELLULAR signal transduction, *DIETARY fats, *PANTOTHENIC acid, *JANUS kinases, *GENES, *MICE, *GLUCOSE metabolism disorders, *MESSENGER RNA, *ANTIGENS, *ANIMAL experimentation, *PEROXISOME proliferator-activated receptors, *WEIGHT gain, *OBESITY, *INTERLEUKINS, *TUMOR necrosis factors, *CHEMICAL inhibitors

Abstract

Excessive fat deposition leads to obesity and cardiovascular diseases with abnormal metabolism. Pantothenic acid (PA) is a major B vitamin required for energy metabolism. However, the effect of PA on lipid metabolism and obesity has not been explored. We investigated the effects and molecular mechanism of PA on fat accumulation as well as the influence of adipogenic marker genes in both adult male mice and primary adipocytes. First, we demonstrated that PA attenuates weight gain in mice fed high-fat diet (HFD). Besides, PA supplementation substantially improved glucose tolerance and lipid metabolic disorder in obese mice. Furthermore, PA significantly inhibited white adipose tissue (WAT) deposition as well as fat droplets visualized by magnification in both chow and HFD group. More importantly, PA obviously suppressed the mRNA levels of CD36, IL-6, and TNF-α to alleviate inflammation and reduced the levels of PPARγ, aP2, and C/EBPα genes that are related to lipid metabolism in inguinal white adipose tissue (ing-WAT) and epididymal white adipose tissue (ei-WAT). In vitro, PA supplementation showed a lower lipid droplet aggregation as well as reduced expression levels of adipogentic genes. Finally, we identified that PA inhibits the phosphorylation levels of p38 and JNK in murine primary adipocytes. Collectively, our data demonstrated for the first time that PA attenuates lipid metabolic disorder as well as fat deposition by JNK/p38 MAPK signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

21. Nitrogen‐Doped Multiwalled Carbon Nanotubes Trigger Immune Responses and Inhibit Fat Deposition

Author

Dalin He, Xue Xiao, Geng Hu, Wenqian Zhang, Guanliu Yu, Yan Liu, Yun Lin, Hai Lin, Xianyao Li, Youxiang Diao, Yi Tang, and Haifang Li

Subjects

N‐MWCNTs, fat deposition, immune response, TLRs pathway, Physics, QC1-999, Technology

Abstract

Abstract Multiwalled carbon nanotubes (MWCNTs) offer immense opportunities to deliver drugs and biomolecules to targeted tissues. However, it's unclear to their effects on fat metabolism. Here, it is demonstrated that nitrogen‐doped carboxylate‐functionalized MWCNTs (N‐MWCNTs) inhibit fat deposition both in vivo and in vitro. N‐MWCNTs

Published

2024

22. Role of the histone deacetylase family in lipid metabolism: Structural specificity and functional diversity

Author

Yunxia Li, Qi Han, Yuxin Liu, Jie Yin, and Jie Ma

Subjects

HDACs, lipid metabolism, fat deposition, obesity, Therapeutics. Pharmacology, RM1-950

Abstract

Lipids play crucial roles in signal transduction. Lipid metabolism is associated with several transcriptional regulators, including peroxisome proliferator activated receptor γ, sterol regulatory element-binding protein 1, and acetyl-CoA carboxylase. In recent years, increasing evidence has suggested that members of the histone deacetylase (HDAC) family play key roles in lipid metabolism. However, the mechanisms by which each member of this family regulates lipid metabolism remain unclear. This review discusses the latest research on the roles played by HDACs in fat metabolism. The role of HDACs in obesity, diabetes, and atherosclerosis has also been discussed. In addition, the interaction of HDACs with the gut microbiome and circadian rhythm has been reviewed, and the future development trend in HDACs has been predicted, which may potentiate therapeutic application of targeted HDACs in related metabolic diseases.

Published

2024

23. Trimethylamine oxide supplementation differentially regulates fat deposition in liver, longissimus dorsi muscle and adipose tissue of growing-finishing pigs

Author

Andong Zha, Wanquan Li, Jing Wang, Ping Bai, Ming Qi, Peng Liao, Bie Tan, and Yulong Yin

Subjects

Growing-finishing pig, Trimethylamine oxide, Fat deposition, Fatty acid composition, Intestinal microbiota, Animal culture, SF1-1100

Abstract

Trimethylamine oxide (TMAO) is a microbiota-derived metabolite, and numerous studies have shown that it could regulate fat metabolism in humans and mice. However, few studies have focused on the effects of TMAO on fat deposition in growing-finishing pigs. This study aimed to investigate the effect of TMAO on fat deposition and intestinal microbiota in growing-finishing pigs. Sixteen growing pigs were randomly divided into 2 groups and fed with a basal diet with 0 or 1 g/kg TMAO for 149 d. The intestinal microbial profiles, fat deposition indexes, and fatty acid profiles were measured. These results showed that TMAO supplementation had a tendency to decrease lean body mass (P

Published

2024

24. Investigation of the effects of nanoplastic polyethylene terephthalate on environmental toxicology using model Drosophila melanogaster.

Author

Bauri, Samir, Shekhar, Himanshu, Sahoo, Harekrushna, and Mishra, Monalisa

Abstract

Plastic pollution has become a major environmental concern, and various plastic polymers are used daily. A study was conducted to examine the toxic effects of polyethylene terephthalate (PET) nanoplastics (NPLs) on Drosophila melanogaster. We have successfully synthesized PET NPLs and characterized using DLS, Zeta potential, TEM, HRTEM, SAED, XRD, FTIR, and Raman spectroscopy to gain crucial insights into the structure and properties. We fed PET NPLs to Drosophila to assess toxicity. ROS was quantified using DCFH-DA and NBT, and the nuclear degradation was checked by DAPI staining. Quantification of protein and activity of antioxidant enzymes like SOD, catalase depicted the adverse consequences of PET NPLs exposure. The dorsal side of the abdomens, eyes, and wings were also defective when phenotypically analyzed. These results substantiate the genotoxic and cytotoxic impact of nanoplastics. Notably, behavioral observations encompassing larval crawling and climbing of adults exhibit normal patterns, excluding the presence of neurotoxicity. Adult Drosophila showed decreased survivability, and fat accumulation enhanced body weight. These findings contribute to unraveling the intricate mechanisms underlying nanoplastic toxicity and emphasize its potential repercussions for organismal health and ecological equilibrium. [ABSTRACT FROM AUTHOR]

Published

2024

25. Association analysis between Acetyl-Coenzyme A Acyltransferase-1 gene polymorphism and growth traits in Xiangsu pigs.

Author

Meimei Xiao, Yong Ruan, Jiajin Huang, Lingang Dai, Jiali Xu, and Houqiang Xu

Subjects

GENETIC polymorphisms, LUNGS, SWINE, GENE expression, SINGLE nucleotide polymorphisms, LINKAGE disequilibrium, HEART, ACYLTRANSFERASES

Abstract

Introduction: Acetyl-Coenzyme A Acyltransferase-1 (ACAA1) is a peroxisomal acyltransferase involved in fatty acid metabolism. Current evidence does not precisely reveal the effect of the ACAA1 gene on pig growth performance. Methods: The present study assessed the mRNA expression levels of the ACAA1 gene in the heart, liver, spleen, lung, kidney of 6-month-old Xiangsu pigs and in the longissimus dorsi muscle at different growth stages (newborn, 6 months and 12 months of age) using RT-qPCR. The relationship between single-nucleotide polymorphisms (SNPs) of ACAA1 gene and growth traits in 6-month-old and 12-month-old Xiangsu pigs was investigated on 184 healthy Xiangsu pigs using Sanger sequencing. Results: The ACAA1 gene was expressed in heart, liver, spleen, lung, kidney, and longissimus dorsi muscle of 6-month-old pigs, with the highest level of expression in the liver. ACAA1 gene expression in the longissimus dorsi muscle decreased with age (p < 0.01). In addition, four SNPs were identified in the ACAA1 gene, including exon g.48810 A>G (rs343060194), intron g.51546 T>C (rs319197012), exon g.55035 T>C (rs333279910), and exon g.55088 C>T (rs322138947). Hardy-Weinberg equilibrium (p > 0.05) was found for the four SNPs, and linkage disequilibrium (LD) analysis revealed a strong LD between g.55035 T>C (rs333279910) and g.55088 C>T (rs322138947) (r2 = 1.000). Association analysis showed that g.48810 A>G (rs343060194), g.51546 T>C (rs319197012), g.55035 T>C (rs333279910), and g.55088 C>T (rs322138947) varied in body weight, body length, body height, abdominal circumference, leg and hip circumference and living backfat thickness between 6-month-old and 12-month-old Xiangsu pigs. Conclusion: These findings strongly demonstrate that the ACAA1 gene can be exploited for marker-assisted selection to improve growth-related phenotypes in Xiangsu pigs and present new candidate genes for molecular pig breeding. [ABSTRACT FROM AUTHOR]

Published

2024

26. Comparative Genome-Wide Alternative Splicing Analysis between Preadipocytes and Adipocytes.

Author

Hou, Zhongyi, Li, Xin, Xu, Maosheng, Meng, Shengbo, Xu, Huifen, Li, Ming, and Cai, Hanfang

Subjects

*ALTERNATIVE RNA splicing, *ADIPOGENESIS, *RNA splicing, *FAT cells, *GENE expression, *REGULATOR genes, *RNA sequencing, *MESSENGER RNA

Abstract

Alternative splicing is a ubiquitous regulatory mechanism in gene expression that allows a single gene to generate multiple messenger RNAs (mRNAs). Adipocyte development is regulated by many processes, and recent studies have found that splicing factors also play an important role in adipogenic development. In the present study, we further investigated the differences in selective shearing during different periods of adipocyte differentiation. We identified five alternative splicing types including skipped exon, mutually exclusive exon, Alternative 5′ splice site, Alternative 3′ splice site, and Retained intron, with skipped exons being the most abundant type of selective shearing. In total, 641 differentially expressed selective shearing genes were obtained, enriched in 279 pathways, from which we selected and verified the accuracy of the sequencing results. Overall, RNA-seq revealed changes in the splicing and expression levels of these new candidate genes between precursor adipocytes and adipocytes, suggesting that they may be involved in adipocyte generation and differentiation. [ABSTRACT FROM AUTHOR]

Published

2024

27. Feed supplementation with the seaweed (Ascophllum Nodosum) extract reduces fat deposition in broiler chickens

Author

Min-Jin Kwak, Min Young Park, Ju-Young Eor, Sun-woo Choi, Kwang-Youn Whang, and Younghoon Kim

Subjects

Ascophllum Nodosum, broiler chicken, fat deposition, lipogenesis, liver, Animal culture, SF1-1100

Abstract

ABSTRACT: In poultry industry, the strategies for elevating of protein accretion with minimizing fat deposition have been applied, and seaweed algae has been focused one of the potential candidates. Accordingly, the purpose of this study was to investigate the effects of algae (Ascophllum Nodosum) extract (AE) on the growth performance and body composition of broiler chickens. A total of 240 one-day-old Ross 308 broiler chickens were allotted to 4 dietary treatment groups and fed experimental diets containing different concentrations of AE for 35 d as follows: 0 mg/kg (control, CON), 1,250 mg/kg (LAE), 2,500 mg/kg (MAE), or 5,000 mg/kg (HAE). At the end of the experiment, 40 chickens were sacrificed and samples of their blood, breast muscle, liver, and abdominal fat were collected and analyzed. Growth performance was improved in the LAE group compared to that in the CON (P < 0.05). The weight of abdominal fat was lower in the HAE group than in the CON group (P < 0.05). Serum triglyceride levels were also decreased in the HAE group compared to those in the CON and LAE groups (P < 0.05). Adipocytes were smaller in the HAE group than in all other treatments, and their size distribution was shifted more towards smaller adipocytes compared to those in the LAE group (P < 0.05). Relative mRNA levels in abdominal adipose tissue of fatty acid synthase and stearyl-CoA desaturase, which are involved in fatty acid synthesis, were all downregulated by supplementation with AE (P < 0.05). In addition, the protein levels of peroxisome proliferator-activated receptor gamma were decreased and the ratio of phosphorylated acetyl-CoA carboxylase to total ACC was increased, both of which indicate that lipogenesis was suppressed (P < 0.05). Hepatic transcript levels of sterol regulatory element-binding protein and its downstream enzymes fatty acid synthase and sterol-CoA desaturase were also lower in all AE treatments compared to those in the CON group (P < 0.05). These results indicate that the seaweed algae (Ascophllum Nodosum) extract reduces fat accumulation in both adipose tissue and the liver by modulating lipogenesis.

Published

2024

28. Analyzing the expression of the transcriptome in adipose tissue of fat- and thin-tailed sheep

Author

Sana Farhadi, Karim Hasanpur, Jalil Shodja Ghias, Valiollah Palangi, and Maximilian Lackner

Subjects

Fat deposition, Fat-tail, Gene ontology, RNA-seq, Gene expression, Veterinary medicine, SF600-1100

Abstract

Significant efforts have been made to understand how fat deposition in sheep tail is regulated in genetic, transcriptomic, physiologic, biochemical, and metabolic levels in order to elucidate the complex mechanisms underlying the energy storage, lipid metabolism in adipose tissue, adaptability to harsh environments, and evolutionary domestication. Through RNA-seq data analysis, we are able to compare the gene expression of fat-tailed sheep versus thin-tailed sheep breeds in an acceptable resolution at transcriptome level. The purpose of this study was to compare the transcriptomes of Ghezel (fat-tailed) and Zel (thin-tailed) sheep. Total RNA from subcutaneous and tail tissue samples from healthy lambs was sequenced (150b PE) to identify differentially expressed genes (DEGs) between the two mentioned tissues and between the Ghezel and Zel sheep breeds. Further downstream pathway and network analyses were conducted afterwards. The results uncovered the association of the most important DEGs such as CAV1, ALB, and SOCS3 with cellular signaling pathways of lipids metabolism. It seems that the SOCS3 gene plays an important role in the differential deposition of lipid in the tails of two phenotypically different sheep breeds. Although the detail of gene expression in the tail and subcutaneous tissues of two morphologically different breeds was decoded here, to fully understand how differential expression of the SOCS3 gene affects the fat synthesis, further studies are needed.

Published

2024

29. RNA-Seq based selection signature analysis for identifying genomic footprints associated with the fat-tail phenotype in sheep

Author

Hossein Abbasabadi, Mohammad Reza Bakhtiarizadeh, Mohammad Hossein Moradi, and John C. McEwan

Subjects

RNA-Seq datasets, selection signatures, fat deposition, thin- and fat-tailed sheep, SNP calling, Veterinary medicine, SF600-1100

Abstract

Understanding the genetic background behind fat-tail development in sheep can be useful to develop breeding programs for genetic improvement, while the genetic basis of fat-tail formation is still not well understood. Here, to identify genomic regions influencing fat-tail size in sheep, a comprehensive selection signature identification analysis was performed through comparison of fat- and thin-tailed sheep breeds. Furthermore, to gain the first insights into the potential use of RNA-Seq for selection signature identification analysis, SNP calling was performed using RNA-Seq datasets. In total, 45 RNA-Seq samples from seven cohort studies were analyzed, and the FST method was used to detect selection signatures. Our findings indicated that RNA-Seq could be of potential utility for selection signature identification analysis. In total, 877 SNPs related to 103 genes were found to be under selection in 92 genomic regions. Functional annotation analysis reinforced the hypothesis that genes involved in fatty acid oxidation May modulate fat accumulation in the tail of sheep and highlighted the potential regulatory role of angiogenesis process in the fat deposition. In agreement with most previous studies, our results re-emphasize that the BMP2 gene is targeted by selection during sheep evolution. Further gene annotation analysis of the regions targeted by the sheep evolution process revealed that a large number of genes included in these regions are directly associated with fat metabolism, including those previously reported as candidates involved in sheep fat-tail morphology, such as NID2, IKBKG, RGMA, IGFBP7, UBR5, VEGFD and WLS. Moreover, a number of genes, including BDH2, ECHS1, AUH, ERBIN and CYP4V2 were of particular interest because they are well-known fat metabolism-associated genes and are considered novel candidates involved in fat-tail size. Consistent with the selection signature identification analysis, principal component analysis clustered the samples into two completely separate groups according to fat- and thin-tailed breeds. Our results provide novel insights into the genomic basis of phenotypic diversity related to the fat-tail of sheep breeds and can be used to determine directions for improving breeding strategies in the future.

Published

2024

30. HOXA9 gene inhibits proliferation and differentiation and promotes apoptosis of bovine preadipocytes

Author

Lixia He, Xue Feng, Chunli Hu, Shuang Liu, Hui Sheng, Bei Cai, and Yun Ma

Subjects

HOXA9, Bovine, Fat deposition, Differentiation, Proliferation, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Hox gene family is an important transcription factor that regulates cell process, and plays a role in the process of adipocytes differentiation and fat deposition. Previous transcriptome sequencing studies have indicated that the Homeobox A9 gene (HOXA9) is a candidate gene for regulating the process of bovine lipid metabolism, but the function and specific mechanism of action remain unclear. Therefore, this study aims to explore the role of HOXA9 in the proliferation, differentiation and apoptosis of bovine preadipocytes through gain-of-function and lose-of-function. Result It found HOXA9 highly expressed in bovine adipose tissue, and its expression level changed significantly during adipocytes differentiation process. It gave a hint that HOXA9 may be involved in the process of bovine lipid metabolism. The results of HOXA9 gain-of-function experiments indicated that HOXA9 appeared to act as a negative regulator not only in the differentiation but also in the proliferation of bovine preadipocytes, which is mainly reflected that overexpression of HOXA9 down-regulate the mRNA and protein expression level of PPARγ, CEBPα and FABP4 (P

Published

2024

31. Integrative analysis of proteomics and lipidomic profiles reveal the fat deposition and meat quality in Duroc × Guangdong small spotted pig.

Author

Zhuosui Wu, Zhonggang Wang, Pan Wang, Leiyan Cheng, Jianhao Li, Yanfeng Luo, Linfang Yang, Linfeng Li, Jianhua Zeng, and Bin Hu

Subjects

MEAT quality, PROTEIN-lipid interactions, LIPID metabolism, PROTEOMICS, FAT

Abstract

Introduction: This study aims to explore the important factors affecting the characteristics of different parts of pork. Methods: Lipidomics and proteomics methods were used to analyze DAL (differential lipids) and DAPs (differential proteins) in five different parts (longissimus dorsi, belly meat, loin, forelegs and buttocks) of Duhua pig (Duroc × Guangdong small spotted pig), to identify potential pathways affecting meat quality, investigating fat deposition in pork and its lipid-protein interactions. Results: The results show that TG (triglyceride) is the lipid subclass with the highest proportion in muscle, and the pathway with the most significantly enriched lipids is GP. DAP clustered on several GO terms closely related to lipid metabolism and lipogenesis (lipid binding, lipid metabolism, lipid transport, and lipid regulation). In KEGG analysis, there are two main DAP aggregation pathways related to lipid metabolism, namely Fatty acid degradation and oxidative phosphorylation. In PPI analysis, we screened out 31 core proteins, among which NDUFA6, NDUFA9 and ACO2 are the most critical. Discussion: PC (phosphatidylcholine) is regulated by SNX5, THBS1, ANXA7, TPP1, CAVIN2, and VDAC2 in the phospholipid binding pathway. TG is regulated by AUH/HADH/ACADM/ACADL/HADHA in the lipid oxidation and lipid modification pathways. Potential biomarkers are rich in SFA, MUFA and PUFA respectively, the amounts of SFA, MUFA and PUFA in the lipid measurement results are consistent with the up- and down-regulation of potential biomarker lipids. This study clarified the differences in protein and lipid compositions in different parts of Duhua pigs and provided data support for revealing the interactions between pork lipids and proteins. These findings provide contributions to the study of intramuscular fat deposition in pork from a genetic and nutritional perspective. [ABSTRACT FROM AUTHOR]

Published

2024

32. HOXA9 gene inhibits proliferation and differentiation and promotes apoptosis of bovine preadipocytes.

Author

He, Lixia, Feng, Xue, Hu, Chunli, Liu, Shuang, Sheng, Hui, Cai, Bei, and Ma, Yun

Subjects

NEGATIVE regulatory factor, ADIPOGENESIS, HOMEOBOX genes, GENE expression, BOS, GENE families

Abstract

Background: Hox gene family is an important transcription factor that regulates cell process, and plays a role in the process of adipocytes differentiation and fat deposition. Previous transcriptome sequencing studies have indicated that the Homeobox A9 gene (HOXA9) is a candidate gene for regulating the process of bovine lipid metabolism, but the function and specific mechanism of action remain unclear. Therefore, this study aims to explore the role of HOXA9 in the proliferation, differentiation and apoptosis of bovine preadipocytes through gain-of-function and lose-of-function. Result: It found HOXA9 highly expressed in bovine adipose tissue, and its expression level changed significantly during adipocytes differentiation process. It gave a hint that HOXA9 may be involved in the process of bovine lipid metabolism. The results of HOXA9 gain-of-function experiments indicated that HOXA9 appeared to act as a negative regulator not only in the differentiation but also in the proliferation of bovine preadipocytes, which is mainly reflected that overexpression of HOXA9 down-regulate the mRNA and protein expression level of PPARγ, CEBPα and FABP4 (P < 0.05). The mRNA expression level of CDK1, CDK2, PCNA, CCNA2, CCNB1, CCND1 and CCNE2, as well as the protein expression of CDK2 also significantly decreased. The decrease of lipid droplets content was the main characteristic of the phenotype (P < 0.01), which further supported the evidence that HOXA9 was a negative regulator of preadipocytes differentiation. The decrease of cell proliferation rate and EdU positive rate, as well as the limitation of transition of preadipocytes from G0/G1 phase to S phase also provided evidence for the inhibition of proliferation. Apart from this above, we noted an interesting phenomenon that overexpression of HOXA9 showed in a significant upregulation of both mRNA and protein level of apoptosis markers, accompanied by a significant increase in cell apoptosis rate. These data led us not to refute the fact that HOXA9 played an active regulatory role in apoptosis. HOXA9 loss-of-function experiments, however, yielded the opposite results. Considering that HOXA9 acts as a transcription factor, we predicted its target genes. Dual luciferase reporter assay system indicated that overexpression of HOXA9 inhibits activity of PCNA promoter. Conclusion: Taken together, we demonstrated for the first time that HOXA9 played a role as a negative regulatory factor in the differentiation and proliferation of preadipocytes, but played a positive regulatory role in apoptosis, and it may play a regulatory role by targeting PCNA. This study provides basic data for further exploring the regulatory network of intramuscular fat deposition in bovine. [ABSTRACT FROM AUTHOR]

Published

2024

33. MALAT1 : A Long Non-Coding RNA with Multiple Functions and Its Role in Processes Associated with Fat Deposition.

Author

Piórkowska, Katarzyna, Zygmunt, Karolina, Hunter, Walter, and Wróblewska, Ksenia

Subjects

*LINCRNA, *GENETIC regulation, *CELL cycle regulation, *ALTERNATIVE RNA splicing, *ADIPOSE tissues, *SPERMATOGENESIS, *LUNGS, *FAT

Abstract

Metastasis-associated lung adenocarcinoma transcript 1 (MALAT1) belongs to the lncRNA molecules, which are involved in transcriptional and epigenetic regulation and the control of gene expression, including the mechanism of chromatin remodeling. MALAT1 was first discovered during carcinogenesis in lung adenocarcinoma, hence its name. In humans, 66 of its isoforms have been identified, and in pigs, only 2 are predicted, for which information is available in Ensembl databases (Ensembl Release 111). MALAT1 is expressed in numerous tissues, including adipose, adrenal gland, heart, kidney, liver, ovary, pancreas, sigmoid colon, small intestine, spleen, and testis. MALAT1, as an lncRNA, shows a wide range of functions. It is involved in the regulation of the cell cycle, where it has pro-proliferative effects and high cellular levels during the G1/S and mitotic (M) phases. Moreover, it is involved in invasion, metastasis, and angiogenesis, and it has a crucial function in alternative splicing during carcinogenesis. In addition, MALAT1 plays a significant role in the processes of fat deposition and adipogenesis. The human adipose tissue stem cells, during differentiation into adipocytes, secrete MALAT1 as one the most abundant lncRNAs in the exosomes. MALAT1 expression in fat tissue is positively correlated with adipogenic FABP4 and LPL. This lncRNA is involved in the regulation of PPARγ at the transcription stage, fatty acid metabolism, and insulin signaling. The wide range of MALAT1 functions makes it an interesting target in studies searching for drugs to prevent obesity development in humans. In turn, in farm animals, it can be a source of selection markers to control the fat tissue content. [ABSTRACT FROM AUTHOR]

Published

2024

34. Characterization and Function Analysis of miRNA Editing during Fat Deposition in Chinese Indigenous Ningxiang Pigs.

Author

Lv, Jiayu, Yang, Fang, Li, Yiyang, Gao, Ning, Zeng, Qinghua, Ma, Haiming, He, Jun, and Zhang, Yuebo

Subjects

MICRORNA, ADIPOSE tissues, SWINE, GENOME editing, INDUSTRIALIZATION

Abstract

Simple Summary: In order to gain insight into the molecular mechanism of porcine fat deposition, this study reported, for the first time, miRNA editing in the adipose tissue of Ningxiang pigs. We performed bioinformatics analyses, such as developmental stage-specific site screening, target gene prediction, and functional enrichment analysis, to obtain the functional miRNA editing sites associated with fat deposition; we found that miR-497 editing might inhibit fat deposition in pigs through retargeting genes. These findings not only enhance our understanding of the functional roles and mechanisms of miRNA editing in adipose development but also hold significant importance for improving the lean meat percentage of Ningxiang pigs and promoting their industrial development. This study aimed to identify active miRNA editing sites during adipose development in Ningxiang pigs and analyze their characteristics and functions. Based on small RNA-seq data from the subcutaneous adipose tissues of Ningxiang pigs at four stages—30 days (piglet), 90 days (nursery), 150 days (early fattening), and 210 days (late fattening)—we constructed a developmental map of miRNA editing in the adipose tissues of Ningxiang pigs. A total of 505 miRNA editing sites were identified using the revised pipeline, with C-to-U editing types being the most prevalent, followed by U-to-C, A-to-G, and G-to-U. Importantly, these four types of miRNA editing exhibited base preferences. The number of editing sites showed obvious differences among age groups, with the highest occurrence of miRNA editing events observed at 90 days of age and the lowest at 150 days of age. A total of nine miRNA editing sites were identified in the miRNA seed region, with significant differences in editing levels (p < 0.05) located in ssc-miR-23a, ssc-miR-27a, ssc-miR-30b-5p, ssc-miR-15a, ssc-miR-497, ssc-miR-15b, and ssc-miR-425-5p, respectively. Target gene prediction and KEGG enrichment analyses indicated that the editing of miR-497 might potentially regulate fat deposition by inhibiting adipose synthesis via influencing target binding. These results provide new insights into the regulatory mechanism of pig fat deposition. [ABSTRACT FROM AUTHOR]

Published

2024

35. Effect of Dietary Glycerol Addition on Growth Performance, Serum Biochemical Indexes, Carcass Traits, Fat Deposition, and Meat Quality in Fattening Period Kazakh Sheep.

Author

Hangdong QI, Cuifang YE, Ying NAN, Mengting XIE, Baihui JIANG, ABULIZI, Nuerli, and Zongsheng ZHAO

Subjects

*MEAT quality, *FAT, *SHEEP, *GLYCERIN, *ANIMAL culture, *DIETARY supplements

Abstract

Glycerol has been evaluated as a safe and promising animal feed. It can replace traditional energy foods and reduce competition with major animal husbandry systems. In this study, 40 fattening Kazakh ewes (18 months of age) were selected to investigate the dynamic response of growth performance, serum biochemical indexes, fat deposition, carcass traits and meat quality to different levels of glycerol (0, 1%, 7%, and 12% DM). The results showed that glycerol could improve sheep growth performance, increase fat deposition, increase carcass dressing percentage and improve meat quality. Among them, the Gly7% group had significant positive effects (P<0.05) on FBW, ADG, GLU, TP, ALB, TG, HDL-C, fat deposition, HCW, CCW, HCD and EE; and significant negative effects (P<0.05) on FCR, ADFI, TC, LDL-C, a*, b* and SF. In conclusion, the recommended supplementation of glycerol in the diet of Kazakh ewes is 7% DM for optimal fattening performance without compromising health. This study may provide a theoretical basis for the rational utilization of food-grade glycerol in sheep diets. [ABSTRACT FROM AUTHOR]

Published

2024

36. 蛋氨酸和亮氨酸限制对动脉粥样硬化小鼠肝脏脂 肪沉积和氧化应激的改善作用.

Author

崔桂芳, 杨玉辉, 杨 浩, and 谢岩黎

Abstract

Copyright of Journal of Henan University of Technology Natural Science Edition is the property of Henan University of Technology Journal Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

37. Nutritional strategies, performance, digestibility, and carcass traits of Santa Ines and Rabo Largo breeds in a tropical climate.

Author

Pereira, Anderson Lopes, de Oliveira Maia Parente, Michelle, de Sousa, Edegleicia Alves, Alves, Arnaud Azevedo, de Moura Zanine, Anderson, de Jesus Ferreira, Daniele, Perazzo, Alexandre Fernandes, da Silva de Sousa, Francisca Cláudia, dos Anjos, Luana França, Lima, Hyanne Costa, Moreira Filho, Miguel Arcanjo, Cavalcanti, Hactus Souto, and Parente, Henrique Nunes

Abstract

The aim of this study was to compare the performance, intake, digestibility, ruminal parameters, carcass traits, and the yield of commercial cuts of Santa Ines (SI) and Rabo Largo (RL) breeds fed diets with high or low roughage-to-concentrate ratio (R:C) under a tropical climate. Twenty lambs from each breed were individually housed in covered pens and fed the experimental diets for 58 days. The diets were formulated to meet the growth requirements of lambs with a roughage-to-concentrate ratio of 70:30 and 30:70. Significant interactions of breed × diet for nutrient intake were observed (P < 0.05), with SI lambs fed low R:C diet showing higher intake of dry matter, organic matter, crude protein, and total carbohydrates compared to RL lambs fed the same diet. SI lambs fed high R:C diet had higher intake of neutral detergent fiber than RL lambs (P < 0.05). SI lambs displayed better average daily gain and feed efficiency, regardless of diet (P < 0.05). Carcass traits and gastrointestinal components were influenced by breed and diet (P < 0.05). SI lambs fed low R:C diet showed higher subcutaneous fat thickness and better carcass finishing compared to RL lambs (P < 0.05). SI breed lambs exhibited better growth performance, carcass traits, and gastrointestinal characteristics, even when fed diets with a high roughage-to-concentrate ratio. [ABSTRACT FROM AUTHOR]

Published

2024

38. Effects of guanidinoacetic acid supplementation on liver and breast muscle fat deposition, lipid levels, and lipid metabolism-related gene expression in ducks.

Author

Hongzhi Wu, Jiajun Xie, Weiqi Peng, Fengjie Ji, Jinyu Qian, Qian Shen, and Guanyu Hou

Subjects

FATTY acid-binding proteins, GENE expression, LIPOPROTEIN lipase, HIGH density lipoproteins, LIPIDS, CHYLOMICRONS, PECTORALIS muscle

Abstract

Exogenous supplementation of guanidinoacetic acid can mechanistically regulate the energy distribution in muscle cells. This study aimed to investigate the effects of guanidinoacetic acid supplementation on liver and breast muscle fat deposition, lipid levels, and lipid metabolism-related gene expression in ducks. We randomly divided 480 42 days-old female Jiaji ducks into four groups with six replicates and 20 ducks for each replicate. The control group was fed the basal diet, and the experimental groups were fed the basal diet with 400, 600, and 800 mg/kg (GA400, GA600, and GA800) guanidinoacetic acid, respectively. Compared with the control group, (1) the total cholesterol (p = 0.0262), triglycerides (p = 0.0357), malondialdehyde (p = 0.0452) contents were lower in GA400, GA600 and GA800 in the liver; (2) the total cholesterol (p = 0.0365), triglycerides (p = 0.0459), and malondialdehyde (p = 0.0326) contents in breast muscle were decreased in GA400, GA600 and GA800; (3) the high density lipoprotein (p = 0.0356) and apolipoprotein-A1 (p = 0.0125) contents were increased in GA600 in the liver; (4) the apolipoprotein-A1 contents (p = 0.0489) in breast muscle were higher in GA600 and GA800; (5) the lipoprotein lipase contents (p = 0.0325) in the liver were higher in GA600 and GA800; (6) the malate dehydrogenase contents (p = 0.0269) in breast muscle were lower in GA400, GA600, and GA800; (7) the insulin induced gene 1 (p = 0.0326), fatty acid transport protein 1 (p = 0.0412), and lipoprotein lipase (p = 0.0235) relative expression were higher in GA400, GA600, and GA800 in the liver; (8) the insulin induced gene 1 (p = 0.0269), fatty acid transport protein 1 (p = 0.0234), and lipoprotein lipase (p = 0.0425) relative expression were increased in GA400, GA600, and GA800 in breast muscle. In this study, the optimum dosage of 600 mg/kg guanidinoacetic acid improved the liver and breast muscle fat deposition, lipid levels, and lipid metabolism-related gene expression in ducks. [ABSTRACT FROM AUTHOR]

Published

2024

39. 牦 牛 脂 肪 沉 积 的 影 响 因 素 及 研 究 进 展.

Author

刘亚倩, 丁维芹, 孙永刚, and 韩银仓

Abstract

The intramuscular fat content in ruminant fat has an important impact on meat quality of animals. The intramuscular fat content can be adjusted through balanced nutrition feeding and management, so as to effectively improve the meat quality of animals. Fatty acids determine the characteristics of fat in animal body,so exploring the formation process of fatty acids is of great significance for the study of fat deposition. Fat deposition is affected by animal breed,sex,age, feeding pattern,environment,nutrition and other factors. By changing the fat deposition in yak muscle,the quality and taste of yak meat can be improved. Yak is a special breed of animal in the Qinghai-Tibet Plateau and its adjacent areas and is the main source of production and living materials for local herdsmen. In this paper, the influencing factors of yak fat deposition were summarized from various aspects to promote the subsequent research on yak fat deposition and yak beef quality. [ABSTRACT FROM AUTHOR]

Published

2024

40. Comparison of Growth Performance, Carcass Properties, Fatty Acid Profile, and Genes Involved in Fat Metabolism in Nanyang and Landrace Pigs.

Author

Zhang, Jinzhou, Meng, Shuaitao, Wang, Heming, Zhang, Chuankuan, Sun, Zhe, Huang, Luyao, and Miao, Zhiguo

Subjects

*FATTY acid synthases, *FATTY acids, *FAT, *SWINE, *ADIPOSE tissues, *ACETYLCOENZYME A, *GLUCOSE-6-phosphate dehydrogenase

Abstract

This study compared the growth, carcass properties, fatty acid profile, lipid-producing enzyme activity, and expression pattern of genes involved in fat metabolism in Nanyang and Landrace pigs. In the study, 32 Nanyang (22.16 ± 0.59 kg) and 32 Landrace barrows (21.37 ± 0.57 kg) were selected and divided into two groups, each with eight pens and four pigs per pen. The trial period lasted 90 days. The findings showed that the Nanyang pigs had lower average daily weight gain and lean percentage and higher average backfat thickness and lipogenic enzyme activities, including for acetyl-CoA carboxylase, glucose-6-phosphate dehydrogenase, malic enzyme, and fatty acid synthase, than the Landrace pigs. A total of 14 long-chain fatty acids were detected using HPLC-MS, in which it was found that the levels of C14:0, C18:1n-9, C20:1n-9, C20:4n-6, and MUFA were up-regulated and C18:2n-6, C18:3n-3, PUFA n6, n3/n6, and total PUFA were down-regulated in the Nanyang pigs. Moreover, the mRNA levels for genes involved in fat metabolism, ME1, FAS, and LPL, were higher and the expression of SREBP1 mRNA was lower in the Nanyang pigs. Our results suggest genetic differences between the pig breeds in terms of growth, carcass traits, lipogenic enzyme activities, fatty acid profile, and the mRNA expression of genes involved in fat metabolism in subcutaneous fat tissue, which may provide a basis for high-quality pork production. Further studies are needed to investigate the regulation of lipid metabolism. [ABSTRACT FROM AUTHOR]

Published

2024

41. Glucagon-like peptide-1 analog liraglutide reduces fat deposition in chicken adipocytes

Author

Jianmei Zhang, Guangcheng Yang, Jingbo Liu, Zhenxian Lin, Jie Zhang, Jin Zhao, Guozheng Sun, and Hai Lin

Subjects

broiler chicken, adipocyte, liraglutide, adipogenesis, fat deposition, Animal culture, SF1-1100

Abstract

ABSTRACT: Previously, we reported that glucagon-like peptide-1 (GLP-1) and its analog liraglutide could inhibit fat de novo synthesis in the liver and reduce abdominal fat accumulation in broiler chickens. Nevertheless, the impact of GLP-1 on adipocyte fat deposition remains enigmatic. This study aimed to investigate the effects of GLP-1, via its analog liraglutide, on chicken chicken adipocytes in vitro. Chemical assays, quantitative real-time polymerase chain reaction (qRT-PCR), and western blot were employed to assess the proliferation, differentiation, and fat deposition of chicken adipocytes. Our findings indicated that liraglutide significantly suppressed cell proliferation and promoted preadipocyte differentiation in comparison to the control group. This was evidenced by elevated triglyceride (TG) content and upregulated mRNA expression of lipogenesis-related enzymes, such as acetyl-CoA carboxylase (ACC) and fatty acid synthase (FAS), as well as regulators including peroxisome proliferator-activated receptor γ (PPARγ), sterol regulatory element binding protein-1 (SREBP1) and CCAAT/enhancer binding protein α (CEBPα). In mature adipocytes, liraglutide attenuated fat deposition by inhibiting fat de novo synthesis, evidenced by decreased mRNA expression of ACC, FAS, PPARγ, C/EBPα, and SREBP1, and concurrent upregulation of phosphorylated AMP-activated protein kinase (p-AMPK) and phosphorylated ACC (p-ACC). This resulted in reduced accumulation of lipid droplets and TG content in mature adipocytes. Collectively, our findings indicate that liraglutide suppresses the proliferation of preadipocytes, enhances their differentiation, and concurrently inhibits de novo lipogenesis in mature adipocytes. This observation offers profound insights into the mechanisms that underlie liraglutide's anti-adipogenic effects, which could have significant implications for the treatment of obesity in broiler chickens.

Published

2024

42. Effect of Using Fermented Moringa Leaf Flour (Moringa oleifera) in Diets on Broiler Fat Deposition

Author

Yosi Fenita, Warnoto Warnoto, Urip Santoso, Nurmeiliasari Nurmeiliasari, Hindrianti Hindrianti, and Teguh Rafian

Subjects

fat deposition, fermentation, moringa leaf flour, Zoology, QL1-991

Abstract

This study aims to evaluate the effect of using fermented Moringa oleifera leaf flour in the diet on broiler fat deposition (percentage of neck fat, heart fat, proventriculus fat, gizzard fat, abdominal fat, and sartorial fat). The research was conducted from 20 August to 25 September 2021 at the Commercial Zone and Animal Laboratory (CZAL) of the Animal Husbandry Department and the Animal Husbandry Laboratory, Faculty of Agriculture, Bengkulu University. The design used was a Completely Randomized Design (CRD) with four treatments, five replications, and each replication consisting of 8 chickens. The variables observed were the percentage of abdominal fat, sartorial fat, gizzard fat, heart fat, proventriculus fat, and neck fat. The results showed that the treatment had no significant effect (P>0.05) on gizzard fat, heart fat, and neck fat but had a significant effect (P

Published

2023

43. Effects of dietary forage-to-concentrate ratio on fat deposition, fatty acid composition, oxidative stability and mRNA expression of sirtuins genes of subcutaneous fat in sheep (Ovis aries)

Author

Zhanhong Gao, Sayed Haidar Abbas Raza, Boyan Ma, Zhiyou Wang, Khairiah Mubarak Alwutayd, Waleed Al Abdulmonem, Yousef Mesfer Alharbi, Abdullah S.M. Aljohani, Shengzhen Hou, and Linsheng Gui

Subjects

Black Tibetan sheep, forage-to-concentrate ratio, fat deposition, fatty acid composition, gene expression, Veterinary medicine, SF600-1100

Abstract

This study was carried out to evaluate the effects of dietary concentrate: forage (C: F) ratio on fat deposition, fatty acid composition, oxidative stability and mRNA expression levels of sirtuins genes associated with adipose tissue metabolism of subcutaneous fat in Black Tibetan sheep. Three diets with different C: F (HC: 70:30, IC:50:50 and LC: 30:70) were fed to fifteen weaned male lambs (2-month-old, 10.05 ± 0.96 Kg). The experiment lasted for 120 d. Five lambs from each group were randomly selected and slaughtered at the end of the experiment. The subcutaneous fat thicknesses increased with increasing concentrate level (P

Published

2023

44. Tissue-specific mechanisms of fat metabolism that focus on insulin actions

Author

Shusong Wu, Jijun Tan, Hongfu Zhang, De-Xing Hou, and Jianhua He

Subjects

Fat deposition, Metabolism, Insulin, Ectopic fat, Obesity, Medicine (General), R5-920, Science (General), Q1-390

Abstract

Background: The accumulation of ectopic fats is related to metabolic syndromes with insulin resistance, which is considered as the first hit in obesity-related diseases. However, systematic understanding of the occurrence of ectopic fats is limited, since organisms are capable of orchestrating complicated intracellular signaling pathways to ensure that the correct nutritional components reach the tissues where they are needed. Interestingly, tissue-specific mechanisms lead to different consequences of fat metabolism with different insulin sensitivities. Aim of Review: To summarize the mechanisms of fat deposition in different tissues including adipose tissue, subcutis, liver, muscle and intestines, in an attempt to elucidate interactive mechanisms involving insulin actions and establish a potential reference for the rational uptake of fat. Key Scientific Concepts of Review: Tissue-specific fat metabolism serves as a trigger for developing abnormal fat metabolism or as a compensatory agent for regulating normal fat metabolism. Outcomes of de novo lipogenesis and adipogenesis differ in the subcutaneous adipose tissue (SAT), liver and muscle, with the participation of insulin actions. Overload of lipid metabolic capability results in SAT fat expansion, and ectopic fat accumulation implicates impaired lipo-/adipogenesis in SAT. Regulating insulin actions may be a key measure on fat deposition and metabolism in individuals.

Published

2023

45. Functional analysis of differentially expressed circular RNAs in sheep subcutaneous fat

Author

Tian-yi Liu, Hui Feng, Salsabeel Yousuf, Ling-li Xie, and Xiang-yang Miao

Subjects

Sheep, CircRNA, Subcutaneous fat, Fat deposition, Lipid metabolism, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Circular RNAs (circRNAs), as important non-coding RNAs (ncRNAs), are involved in many biological activities. However, the exact chemical mechanism behind fat accumulation is unknown. In this paper, we obtained the expression profiles of circRNAs using high-throughput sequencing and investigated their differential expression in subcutaneous fat tissue of Duolang and Small Tail Han sheep. Results From the transcriptomic analysis, 141 differentially expressed circRNAs were identified, comprising 61 up-regulated circRNAs and 80 down-regulated circRNAs. These host genes were primarily enriched in the MAPK and AMPK signaling pathways which is closely associated with fat deposition regulation. We identified circRNA812, circRNA91, and circRNA388 as vital genes in fat deposition by miRNA-circRNA target gene prediction. The functional annotation results of target genes of key circRNAs showed that the signaling pathways mainly included PI3K-Akt and AMPK. We constructed the competing endogenous RNA (ceRNA) regulatory network to study the role of circRNAs in sheep lipid deposition, and circRNA812, circRNA91, and circRNA388 can adsorb more miRNAs. NC_040253.1_5757, as the source of miRNA response element (MRE) among the three, may play an important role during the process of sheep fat deposition. Conclusions Our study gives a systematic examination of the circRNA profiles expressed in sheep subcutaneous fat. These results from this study provide some new basis for understanding circRNA function and sheep fat metabolism.

Published

2023

46. Evaluation of dynamic effects of dietary medium-chain monoglycerides on performance, intestinal development and gut microbiota of broilers in large-scale production

Author

Tao Liu, Shengyue Ruan, Qiufen Mo, Minjie Zhao, Jing Wang, Zhangying Ye, Li Chen, and Fengqin Feng

Subjects

Medium-chain monoglycerides, Broiler chickens, Dynamic effect, Gut microbiota, Fat deposition, Animal culture, SF1-1100

Abstract

Medium-chain monoglycerides (MG) have been reported to affect the productive performance, gut microbiota and health of broiler chickens reared in ideal experimental conditions at home and abroad. However, the effects of MG on performance, intestinal development and gut microbiota of chickens in large-scale farms during different feed stages remain unknown. The present study was conducted on a modern farm with a total of 12,000 yellow feathered broiler chicks that were randomly allotted to 2 groups (1000 chicks/replicate, 6 replicates/group) for a 70-day trial. The control group (CON group) received a basal diet, and the treated group (MG group) was fed a basal diet containing 300 mg/kg mixed MG. The results revealed that dietary MG significantly (P

Published

2023

47. RNA-Seq Analysis Revealed circRNAs and Genes Associated with Abdominal Fat Deposition in Ducks.

Author

Yang, Yunfeng, Yang, Chunyan, Zhuang, Zhong, Mao, Jiaming, Chen, Anqi, Zhou, Tingting, Bai, Hao, Jiang, Yong, Chang, Guobin, and Wang, Zhixiu

Subjects

*ABDOMINAL adipose tissue, *FAT, *COMPETITIVE endogenous RNA, *FEED utilization efficiency, *ADIPOSE tissues, *DUCKS

Abstract

Simple Summary: Fat deposition affects the quality of meat ducks and their feed conversion efficiency. In this study, we analyzed the correlations between abdominal fat and other growth traits, and performed RNA-seq of the abdominal fat tissue of ducks with high and low abdominal fat ratio, exploring the key regulatory genes and circRNAs related to abdominal fat deposition. We investigated the functions of both source and target genes of these circRNAs and constructed a competing endogenous RNA network. The findings revealed several circRNAs and their relationships with microRNAs and messenger RNAs that are pivotal in duck abdominal fat deposition. The results of this study establish a groundwork for understanding the molecular mechanisms that regulate abdominal fat deposition in ducks, offering a theoretical reference for the selective breeding of high-quality meat-producing ducks. Fat deposition is an important factor affecting meat quality and feed conversion efficiency in meat ducks. This study aims to identify key circRNAs and genes affecting abdominal fat deposition. The correlations between abdominal fat and other growth performances were analyzed in 304 F2 generation of Cherry Valley duck Runzhou Crested White ducks, and an RNA-seq analysis of abdominal fat tissues from ducks with high and low rates of abdominal fat was performed. Growth performance results showed that Abdominal fat ratio and Intramuscular fat were significantly higher in the high rates of abdominal fat (HF)group than in the low rates of abdominal fat (LF) group for ducks. RNA-seq analysis of abdominal fat tissue unveiled 85 upregulated and 72 downregulated circRNAs among the differentially expressed ones. Notably, 74 circRNAs displayed more than four-fold differential expression, constituting 47.13% of the differentially expressed genes. Functional enrichment analysis of the differentially expressed circRNA source and target genes indicated that 17 circRNAs might partake in regulating duck abdominal fat production by influencing pathways like PPAR signaling, lipid droplets, and triglyceride metabolism. Lastly, multiple circRNA-microRNA-messenger RNA interaction networks were constructed. The results of this study establish the groundwork for understanding the molecular mechanisms that regulate abdominal fat deposition in ducks, offering a theoretical reference for the selective breeding of high-quality meat-producing ducks. [ABSTRACT FROM AUTHOR]

Published

2024

48. Diet Change Improves Obesity and Lipid Deposition in High-Fat Diet-Induced Mice.

Author

Ji, Tengteng, Fang, Bing, Wu, Fang, Liu, Yaqiong, Cheng, Le, Li, Yixuan, Wang, Ran, and Zhu, Longjiao

Abstract

The number of obese people is increasing dramatically worldwide, and one of the major causes of obesity is excess energy due to high-fat diets. Several studies have shown that reducing food and energy intake represents a key intervention or treatment to combat overweight/obesity. Here, we conducted a 12-week energy-restricted dietary intervention for high-fat diet-induced obese mice (C57BL/6J) to investigate the effectiveness of diet change in improving obesity. The results revealed that the diet change from HFD to NFD significantly reduced weight gain and subcutaneous adipose tissue weight in high-fat diet-induced obese mice, providing scientific evidence for the effectiveness of diet change in improving body weight and fat deposition in obese individuals. Regarding the potential explanations for these observations, weight reduction may be attributed to the excessive enlargement of adipocytes in the white adipose tissue of obese mice that were inhibited. Diet change significantly promoted lipolysis in the adipose tissue (eWAT: Adrb3, Plin1, HSL, and CPTA1a; ingWAT: CPT1a) and liver (reduced content of nonesterified fatty acids), and reduced lipogenesis in ingWAT (Dgat2). Moreover, the proportion of proliferative stem cells in vWAT and sWAT changed dramatically with diet change. Overall, our study reveals the phenotypic, structural, and metabolic diversity of multiple tissues (vWAT and sWAT) in response to diet change and identifies a role for adipocyte stem cells in the tissue specificity of diet change. [ABSTRACT FROM AUTHOR]

Published

2023

49. Research progress on fat metabolism and regulation mechanism in yak.

Author

DING Wei-qin, SUN Yong-gang, and HAN Yin-cang

Subjects

*METABOLIC regulation, *FAT, *YAK, *RNA metabolism, *WHITE adipose tissue, *BROWN adipose tissue

Abstract

The main physiological function of animal body fat is to store energy, which can be divided into subcutaneous fat (SF), intramuscular fat (IMF) and visceral fat (VF) according to the distribution location, and white fat (WAT), brown fat (BAT) and beige fat (BeAT) according to the structure, source and function. Fat metabolism is divided into anabolism and catabolism, which affect the production efficiency, production cost and meat quality of animals. As a local characteristic breed, yak bears the significant responsibility of contributing to local animal husbandry economies, and its fat metabolism regulation mechanism is complex. The paper summarizes the effects of age, breed, sex, feeding management, nutrition factors, regulation of various fat metaboly-related genes and non-coding RNA on fat metabolism of yak from the content of fat classification, fat metabolism and its influencing factors and related genes, so as to promote the breeding of excellent varieties and provide a research idea for fat metabolism of yak, it provides reference for the improvement of aquaculture efficiency. [ABSTRACT FROM AUTHOR]

Published

2023

50. Comprehensive Gene Expression Profiling Analysis of Adipose Tissue in Male Individuals from Fat- and Thin-Tailed Sheep Breeds.

Author

Farhadi, Sana, Hasanpur, Karim, Ghias, Jalil Shodja, Palangi, Valiollah, Maggiolino, Aristide, and Landi, Vincenzo

Subjects

*SHEEP breeds, *GENE expression profiling, *SHEEP breeding, *MACHINE learning, *ADIPOSE tissues, *ANIMAL breeding, *TISSUE analysis, *ANIMAL breeds

Abstract

Simple Summary: For this paper, we investigated the differences in adipose tissue deposition between sheep breeds with fat and thin tails, relying on advanced techniques like meta-analyses and machine learning to analyze gene expression data. Our findings revealed key genes associated with fat metabolism, shedding light on the genetic factors influencing tail fat in sheep. Notably, three specific genes (POSTN, K35, and SETD4) were identified as significant biosignatures related to fat deposition. This innovative approach (combining data analysis and machine learning) enhances our understanding of how to optimize fat deposition in sheep breeds, which holds potential for more efficient animal breeding strategies and carcass fat reduction. It has been shown that tail fat content varies significantly among sheep breeds and plays a significant role in meat quality. Recently, significant efforts have been made to understand the physiological, biochemical, and genomic regulation of fat deposition in sheep tails in order to unravel the mechanisms underlying energy storage and adipose tissue lipid metabolism. RNA-seq has enabled us to provide a high-resolution snapshot of differential gene expression between fat- and thin-tailed sheep breeds. Therefore, three RNA-seq datasets were meta-analyzed for the current work to elucidate the transcriptome profile differences between them. Specifically, we identified hub genes, performed gene ontology (GO) analysis, carried out enrichment analyses of the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways, and validated hub genes using machine learning algorithms. This approach revealed a total of 136 meta-genes, 39 of which were not significant in any of the individual studies, indicating the higher statistical power of the meta-analysis. Furthermore, the results derived from the use of machine learning revealed POSTN, K35, SETD4, USP29, ANKRD37, RTN2, PRG4, and LRRC4C as substantial genes that were assigned a higher weight (0.7) than other meta-genes. Among the decision tree models, the Random Forest ones surpassed the others in adipose tissue predictive power fat deposition in fat- and thin-tailed breeds (accuracy > 0.85%). In this regard, combining meta-analyses and machine learning approaches allowed for the identification of three important genes (POSTN, K35, SETD4) related to lipid metabolism, and our findings could help animal breeding strategies optimize fat-tailed breeds' tail sizes. [ABSTRACT FROM AUTHOR]

Published

2023