β-Hydroxy-β-methylbutyrate modulates lipid metabolism in adipose tissues of growing pigs

2018 ◽  
Vol 9 (9) ◽  
pp. 4836-4846 ◽  
Author(s):  
Yehui Duan ◽  
Lingyu Zhang ◽  
Fengna Li ◽  
Qiuping Guo ◽  
Cimin Long ◽  
...  
Keyword(s):  
Lipid Metabolism ◽  
Growing Pigs ◽  
Adipose Tissues

Background: The effects and roles of the leucine (Leu) metabolite β-hydroxy-β-methylbutyrate (HMB) in lipid metabolism in adipose tissues of pigs are still unknown.

Branched-chain amino acid ratios modulate lipid metabolism in adipose tissues of growing pigs

2018 ◽  
Vol 40 ◽  
pp. 614-624 ◽  
Author(s):  
Yehui Duan ◽  
Fengna Li ◽  
Qiuping Guo ◽  
Wenlong Wang ◽  
Lingyu Zhang ◽  
...  
Keyword(s):  
Lipid Metabolism ◽  
Amino Acid ◽  
Growing Pigs ◽  
Adipose Tissues ◽  
Branched Chain Amino Acid ◽  
Branched Chain

scholarly journals Proto-oncoprotein Zbtb7c and SIRT1 repression: implications in high-fat diet-induced and age-dependent obesity

2021 ◽  
Author(s):  
Won-Il Choi ◽  
Jae-Hyun Yoon ◽  
Seo-Hyun Choi ◽  
Bu-Nam Jeon ◽  
Hail Kim ◽  
...  
Keyword(s):  
Lipid Metabolism ◽  
High Fat Diet ◽  
Target Genes ◽  
Proximal Promoter ◽  
High Fat ◽  
Tissue Mass ◽  
Adipose Tissues ◽  
Adipose Tissue Mass ◽  
Age Dependent ◽  
Treatment Of Diabetes

AbstractZbtb7c is a proto-oncoprotein that controls the cell cycle and glucose, glutamate, and lipid metabolism. Zbtb7c expression is increased in the liver and white adipose tissues of aging or high-fat diet-fed mice. Knockout or knockdown of Zbtb7c gene expression inhibits the adipocyte differentiation of 3T3-L1 cells and decreases adipose tissue mass in aging mice. We found that Zbtb7c was a potent transcriptional repressor of SIRT1 and that SIRT1 was derepressed in various tissues of Zbtb7c-KO mice. Mechanistically, Zbtb7c interacted with p53 and bound to the proximal promoter p53RE1 and p53RE2 to repress the SIRT1 gene, in which p53RE2 was particularly critical. Zbtb7c induced p53 to interact with the corepressor mSin3A-HADC1 complex at p53RE. By repressing the SIRT1 gene, Zbtb7c increased the acetylation of Pgc-1α and Pparγ, which resulted in repression or activation of Pgc-1α or Pparγ target genes involved in lipid metabolism. Our study provides a molecular target that can overexpress SIRT1 protein in the liver, pancreas, and adipose tissues, which can be beneficial in the treatment of diabetes, obesity, longevity, etc.

scholarly journals Feedback looping between ChREBP and PPAR^|^alpha; in the regulation of lipid metabolism in brown adipose tissues

2013 ◽  
Vol 60 (10) ◽  
pp. 1145-1153 ◽  
Author(s):  
Katsumi Iizuka ◽  
Wudelehu Wu ◽  
Yukio Horikawa ◽  
Masayuki Saito ◽  
Jun Takeda
Keyword(s):  
Lipid Metabolism ◽  
Ppar Alpha ◽  
Adipose Tissues ◽  
Brown Adipose

Loss of diurnal behavioral rhythms and impaired lipid metabolism in growing pigs with mistimed feeding

2021 ◽  
Vol 35 (11) ◽  
Author(s):  
Qiang‐Jun Wang ◽  
Yao Guo ◽  
Chun‐Yan Yao ◽  
Ke‐Hao Zhang ◽  
Qin Li ◽  
...  
Keyword(s):  
Lipid Metabolism ◽  
Growing Pigs ◽  
Behavioral Rhythms

scholarly journals Apolipoprotein A-IV Enhances Fatty Acid Uptake by Adipose Tissues of Male Mice via Sympathetic Activation

Endocrinology ◽  
2020 ◽  
Vol 161 (4) ◽  
Author(s):  
Qi Zhu ◽  
Jonathan Weng ◽  
Minqian Shen ◽  
Jace Fish ◽  
Zhujun Shen ◽  
...  
Keyword(s):  
Adipose Tissue ◽  
Fatty Acid ◽  
Lipid Metabolism ◽  
Sympathetic Activity ◽  
Sympathetic Innervation ◽  
Acid Uptake ◽  
Adipose Tissues ◽  
Lipid Mixture ◽  
Apolipoprotein A ◽  
Brown Adipose

Abstract Apolipoprotein A-IV (ApoA-IV) synthesized by the gut regulates lipid metabolism. Sympathetic innervation of adipose tissues also controls lipid metabolism. We hypothesized that ApoA-IV required sympathetic innervation to increase fatty acid (FA) uptake by adipose tissues and brown adipose tissue (BAT) thermogenesis. After 3 weeks feeding of either a standard chow diet or a high-fat diet (HFD), mice with unilateral denervation of adipose tissues received intraperitoneal administration of recombinant ApoA-IV protein and intravenous infusion of lipid mixture with radioactive triolein. In chow-fed mice, ApoA-IV administration increased FA uptake by intact BAT but not the contralateral denervated BAT or intact white adipose tissue (WAT). Immunoblots showed that, in chow-fed mice, ApoA-IV increased expression of lipoprotein lipase and tyrosine hydroxylase in both intact BAT and inguinal WAT (IWAT), while ApoA-IV enhanced protein levels of β3 adrenergic receptor, adipose triglyceride lipase, and uncoupling protein 1 in the intact BAT only. In HFD-fed mice, ApoA-IV elevated FA uptake by intact epididymal WAT (EWAT) but not intact BAT or IWAT. ApoA-IV increased sympathetic activity assessed by norepinephrine turnover (NETO) rate in BAT and EWAT of chow-fed mice, whereas it elevated NETO only in EWAT of HFD-fed mice. These observations suggest that, in chow-fed mice, ApoA-IV activates sympathetic activity of BAT and increases FA uptake by BAT via innervation, while in HFD-fed mice, ApoA-IV stimulates sympathetic activity of EWAT to shunt FAs into the EWAT.

scholarly journals CMO1 Deficiency Abolishes Vitamin A Production from β-Carotene and Alters Lipid Metabolism in Mice

2007 ◽  
Vol 282 (46) ◽  
pp. 33553-33561 ◽  
Author(s):  
Susanne Hessel ◽  
Anne Eichinger ◽  
Andrea Isken ◽  
Jaume Amengual ◽  
Silke Hunzelmann ◽  
...  
Keyword(s):  
Lipid Metabolism ◽  
Vitamin A ◽  
Vitamin A Deficiency ◽  
Elevated Serum ◽  
Pcr Analysis ◽  
Marker Genes ◽  
Mouse Mutant ◽  
Adipose Tissues ◽  
Β Carotene

Carotenoids are currently investigated regarding their potential to lower the risk of chronic disease and to combat vitamin A deficiency in humans. These plant-derived compounds must be cleaved and metabolically converted by intrinsic carotenoid oxygenases to support the panoply of vitamin A-dependent physiological processes. Two different carotenoid-cleaving enzymes were identified in mammals, the classical carotenoid-15,15′-oxygenase (CMO1) and a putative carotenoid-9′,10′-oxygenase (CMO2). To analyze the role of CMO1 in mammalian physiology, here we disrupted the corresponding gene by targeted homologous recombination in mice. On a diet providing β-carotene as major vitamin A precursor, vitamin A levels fell dramatically in several tissues examined. Instead, this mouse mutant accumulated the provitamin in large quantities (e.g. as seen by an orange coloring of adipose tissues). Besides impairments in β-carotene metabolism, CMO1 deficiency more generally interfered with lipid homeostasis. Even on a vitamin A-sufficient chow, CMO1-/- mice developed a fatty liver and displayed altered serum lipid levels with elevated serum unesterified fatty acids. Additionally, this mouse mutant was more susceptible to high fat diet-induced impairments in fatty acid metabolism. Quantitative reverse transcription-PCR analysis revealed that the expression of peroxisome proliferator-activated receptor γ-regulated marker genes related to adipogenesis was elevated in visceral adipose tissues. Thus, our study identifies CMO1 as the key enzyme for vitamin A production and provides evidence for a role of carotenoids as more general regulators of lipid metabolism.

scholarly journals Acylated Ghrelin and The Regulation of Lipid Metabolism in The Intestine

2019 ◽  
Vol 9 (1) ◽  
Author(s):  
N. Auclair ◽  
N. Patey ◽  
L. Melbouci ◽  
Y. Ou ◽  
L. Magri-Tomaz ◽  
...  
Keyword(s):  
Lipid Metabolism ◽  
Lipid Droplets ◽  
Physiological Saline ◽  
Fatty Acid Uptake ◽  
Intimate Relationship ◽  
Acid Uptake ◽  
Acylated Ghrelin ◽  
Adipose Tissues ◽  
Syrian Golden Hamsters

AbstractAcylated ghrelin (AG) is a gastrointestinal (GI) peptide mainly secreted by the stomach that promotes cytosolic lipid droplets (CLD) hypertrophy in adipose tissues and liver. However, the role of AG in the regulation of lipid metabolism in the intestine remains unexplored. This study aimed at determining whether AG influences CLD production and chylomicron (CM) secretion in the intestine. The effects of AG and oleic acid on CLD accumulation and CM secretion were first investigated in cultured Caco-2/15 enterocytes. Intestinal lipid metabolism was also studied in Syrian Golden Hamsters submitted to conventional (CD) or Western (WD) diets for 8 weeks and continuously administered with AG or physiological saline for the ultimate 2 weeks. In cultured Caco-2/15 enterocytes, CLD accumulation influenced CM secretion while AG reduced fatty acid uptake. In WD hamsters, continuous AG treatment amplified chylomicron output while reducing postprandial CLD accumulation in the intestine. The present study supports the intimate relationship between CLD accumulation and CM secretion in the intestine and it underlines the importance of further characterizing the mechanisms through which AG exerts its effects on lipid metabolism in the intestine.

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