Your search keyword '"lipid mobilization"' showing total 2,518 results

1. Nervonic acid and its sphingolipids: Biological functions and potential food applications.

Author

Phung, Nghi Van, Rong, Fei, Xia, Wan Yue, Fan, Yong, Li, Xian Yu, Wang, Shi An, and Li, Fu Li

Subjects

*CELL membrane formation, *PARKINSON'S disease, *MOVEMENT disorders, *CELL anatomy, *DOUBLE bonds

Abstract

Nervonic acid, a 24-carbon fatty acid with only one double bond at the 9th carbon (C24:1n-9), is abundant in the human brain, liver, and kidney. It not only functions in free form but also serves as a critical component of sphingolipids which participate in many biological processes such as cell membrane formation, apoptosis, and neurotransmission. Recent studies show that nervonic acid supplementation is not only beneficial to human health but also can improve the many medical conditions such as neurological diseases, cancers, diabetes, obesity, and their complications. Nervonic acid and its sphingomyelins serve as a special material for myelination in infants and remyelination patients with multiple sclerosis. Besides, the administration of nervonic acid is reported to reduce motor disorder in mice with Parkinson's disease and limit weight gain. Perturbations of nervonic acid and its sphingolipids might lead to the pathogenesis of many diseases and understanding these mechanisms is critical for investigating potential therapeutic approaches for such diseases. However, available studies about this aspect are limited. In this review, relevant findings about functional mechanisms of nervonic acid have been comprehensively and systematically described, focusing on four interconnected functions: cellular structure, signaling, anti-inflammation, lipid mobilization, and their related diseases. [ABSTRACT FROM AUTHOR]

Published

2024

2. Functional analysis of adipokinetic hormone signaling in reproductive diapause of Coccinella septempunctata.

Author

Shen, Zhongjian, Liu, Zhaohan, Chen, Junjie, Li, Yuyan, Mao, Jianjun, Wang, Mengqing, and Zhang, Lisheng

Subjects

SEVEN-spotted ladybug, DIAPAUSE, SWEETPOTATO whitefly, FUNCTIONAL analysis, FORKHEAD transcription factors, JUVENILE hormones, GENE expression

Abstract

BACKGROUND: The ladybeetle, Coccinella septempunctata, an important predator, is widely used to control aphids, whiteflies, mites, thrips, and lepidopteran pests. Diapause control technology is key to extending C. septempunctata shelf‐life and commercialization. Lipid accumulation is a major feature of reproductive diapause, but the function of AKH signaling as a regulator of lipid mobilization in reproductive diapause remains unclear. This study aimed to identify and characterize AKH and AKHR genes, and clarify their functions in reproductive diapause. RESULTS: The relative expression levels of CsAKH and CsAKHR were the highest in the head and fat body, respectively, and were significantly decreased under diapause conditions, both in developmental stages and tissues (head, midgut, fat body, and ovary). Furthermore, CsAKH and CsAKHR expression was increased significantly after juvenile hormone (JH) injection, but CsMet silencing significantly inhibited CsAKH and CsAKHR expression, whereas CsMet knockdown blocked the induction effect of JH. CsAKH and CsAKHR knockdown significantly reduced water content, increased lipid storage, and promoted the expression of genes related to lipid synthesis, but significantly blocked ovarian development, and induced forkhead box O (FOXO) gene expression in C. septempunctata under reproduction conditions. By contrast, injection of AKH peptide significantly inhibited FOXO expression, reduced lipid storage, and increased water content in C. septempunctata under diapause conditions. CONCLUSION: These results indicate that CsAKH and CsAKHR are involved in the regulation of lipid accumulation and ovarian development during diapause in C. septempunctata, and provide a promising target for manipulating C. septempunctata diapause. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

3. Insights into lipid function for ovarian development in the swimming crab (Portunus trituberculatus): A comparison of lipid mobilization and deposition in hepatopancreas and ovary

Author

Tingting Zhu, Yu He, Haiqing Cao, Wenhao Zhan, Qicun Zhou, Wenli Zhao, Yuedong Shen, Peng Sun, and Min Jin

Subjects

Portunus trituberculatus, Ovarian development, Lipid metabolism, Lipid mobilization, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Ovarian development is a complex and dynamical process regulated by the coordinated actions of the hepatopancreas and ovary. In mammals, lipids provide necessary energy for oocytes to mature, whereas their regulatory role in crustaceans is not fully understood. This study compares lipid mobilization and deposition in hepatopancreas and ovary of the swimming crab at different stages of ovarian maturation. The results revealed that cholesterol (CHO) and triglyceride (TG) content in hepatopancreas increased with ovary development increased from stage I to Ⅲ, and then decreased at stage V, while those content in ovary significantly increased from stage I to V. Additionally, apolipoprotein (ApoA and ApoB) contents in hepatopancreas and ovary increased significantly during ovary development. Moreover, the highest expression levels of cholesterol transport related genes (srb, ldlr, lrp2 and abcg1) were observed in the hepatopancreas at stage Ⅲ and in the ovary at stage Ⅳ. Furthermore, as ovary development form stage I to Ⅳ, the hepatopancreas up-regulated the expression levels of genes related to lipid anabolism (fas, acc, g6pd, and 6pgd) and fatty acid transport (fabp9 and fatp4). Concurrently, genes related to lipid catabolism (il) and fatty acid β-oxidation (acox2 and acox3) in the hepatopancreas were down-regulated. Differently, with the ovary development increased from stage I to Ⅳ, the ovary up-regulated gene expression levels involved in lipid anabolism (acc, 6pgd, g6pd, dgat1, and gpat3), fatty acid synthesis (elovl and elovl4) and fatty acid β-oxidation (cpt1, cpt2, acox1, and acox3). The mRNA expression levels of lipolysis (tgl) and fatty acid transport (fabp1, fbap9, and fatp4) in ovary were down-regulated. Overall, these findings demonstrate that the hepatopancreas and ovary exhibit different responses to lipid metabolism during ovarian development.

Published

2024

4. Additives and Nutritional Supplements for Transition Cows

Author

Kour, Dilshad, Sharma, Divya, Sharma, Vijay Kumar, Mahesh, M. S., Mahesh, M. S., editor, and Yata, Vinod Kumar, editor

Published

2024

5. Effects of Summer Heat on Adipose Tissue Activity in Periparturient Simmental Cows.

Author

Turk, Romana, Rošić, Nikola, Beer Ljubić, Blanka, and Vince, Silvijo

Subjects

ADIPOSE tissues, COWS, LACTATION in cattle, FATTY acid oxidation, ENERGY metabolism

Abstract

Hot climate is one of the major factors affecting the dairy industry. Heat stress could be responsible for decreased feed intake and consequently leads to alterations in energy metabolism, particularly during late pregnancy and early lactation. This study aimed to assess the effects of summer heat on adipose tissue activities during the periparturient period in Simmental cows. Two groups of cows were involved: heat-stressed cows (n = 12) that calved from June to August and thermoneutral cows (n = 12) that calved from October to December. Blood samples were taken from each cow during the periparturient period: 21 and 7 days before calving and 8, 16, 24, 32, and 40 days after calving. Glucose, beta-hydroxy butyrate (BHB), non-esterified fatty acids (NEFA), leptin (LP), and adiponectin (ADP) were measured in serum samples by commercial kits. Thermoneutral cows expressed higher degrees of lipomobilization syndrome than heat-stressed cows, indicated by significantly higher serum NEFA and BHB concentrations in the early lactation. Leptin levels were significantly decreased, while adiponectin was increased in heat-stressed cows compared to thermoneutral ones. The results indicated that heat-stressed cows during the periparturient period mobilized less fat from adipose tissue to reduce the heat generation by fatty acid oxidation. [ABSTRACT FROM AUTHOR]

Published

2024

6. The Complex Interplay of Insulin Resistance and Metabolic Inflammation in Transition Dairy Cows.

Author

Qiao, Kaixi, Jiang, Renjiao, Contreras, Genaro Andres, Xie, Lei, Pascottini, Osvaldo Bogado, Opsomer, Geert, and Dong, Qiang

Subjects

*LIPOLYSIS, *DAIRY cattle, *INSULIN resistance, *MAMMARY glands, *ANIMAL herds, *FREE fatty acids, *INFLAMMATION

Abstract

Simple Summary: This review critically examined the literature on the interaction between insulin resistance (IR) and metabolic inflammation in transition dairy cows. Our review emphasizes how IR and metabolic inflammation mutually influence each other, leading to heightened lipolysis, immune activation, and tissue inflammatory pathways. These processes contribute to a harmful cycle where inflammatory mediators exacerbate IR and metabolic inflammation. While transient IR and metabolic inflammation are natural adaptations in transitioning cows, this review highlights the increased disease risk in over-conditioned cows. Understanding these interactions is crucial for managing metabolic disorders in dairy herds and promoting animal health, welfare, and productivity. During the transition period, dairy cows exhibit heightened energy requirements to sustain fetal growth and lactogenesis. The mammary gland and the growing fetus increase their demand for glucose, leading to the mobilization of lipids to support the function of tissues that can use fatty acids as energy substrates. These physiological adaptations lead to negative energy balance, metabolic inflammation, and transient insulin resistance (IR), processes that are part of the normal homeorhetic adaptations related to parturition and subsequent lactation. Insulin resistance is characterized by a reduced biological response of insulin-sensitive tissues to normal physiological concentrations of insulin. Metabolic inflammation is characterized by a chronic, low-level inflammatory state that is strongly associated with metabolic disorders. The relationship between IR and metabolic inflammation in transitioning cows is intricate and mutually influential. On one hand, IR may play a role in the initiation of metabolic inflammation by promoting lipolysis in adipose tissue and increasing the release of free fatty acids. Metabolic inflammation, conversely, triggers inflammatory signaling pathways by pro-inflammatory cytokines, thereby leading to impaired insulin signaling. The interaction of these factors results in a harmful cycle in which IR and metabolic inflammation mutually reinforce each other. This article offers a comprehensive review of recent advancements in the research on IR, metabolic inflammation, and their intricate interrelationship. The text delves into multiple facets of physiological regulation, pathogenesis, and their consequent impacts. [ABSTRACT FROM AUTHOR]

Published

2024

7. Immediate Effects of Aerobic Exercise and Whole-Body Vibration on Fat Oxidation, Lipid Mobilization, and Cardiovascular Response in Individuals with Obesity.

Author

Nantakool, Sothida, Punturee, Khanittha, Konghakote, Supatcha, Sitthichoke, Cattaleeya, Phirom, Kochaphan, and Chuatrakoon, Busaba

Subjects

*WHOLE-body vibration, *AEROBIC exercises, *SYSTOLIC blood pressure, *FAT, *RATE of perceived exertion

Abstract

Among obesity, cumulative fat and poor physical activity are risk factors for cardiovascular disease. Due to the limit in performing aerobic exercise (AER), whole-body vibration (WBV) as a passive form of exercise is an alternative therapeutic strategy. Herein, this study aimed to compare the immediate effects of AER and WBV on metabolic and cardiovascular responses, and dyspnea level in obesity. Forty-nine eligible obesities performed both AER and WBV, with a random order assignment (age = 28.94 ± 11.39 years). Fat oxidation, cardiovascular parameters (i.e., heart rate (HR) and blood pressure (BP)), and dyspnea level (i.e., rating perceived exertion (RPE)) were measured during exercise, while lipid mobilization (i.e., triglycerides) was collected pre- and post-exercise. Fat oxidation rate in AER was significantly higher than in WBV. Significantly increased fat oxidation rates were shown in both groups (within-group analyses) (also shown in females aged 20–45). Triglyceride levels between AER and WBV were similar. A significant decrease in triglyceride levels was only observed in WBV (within-group change). HR and RPE in AER were significantly higher than in WBV (p < 0.05). HR and RPE were significantly increased throughout both AER and WBV, while systolic blood pressure was only significantly elevated in AER (whining-group analyses). WBV may facilitate fat oxidation (particularly in females aged below 45), induce lipid mobilization, and reduce interference on cardiovascular parameters in obesity. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effects of Summer Heat on Adipose Tissue Activity in Periparturient Simmental Cows

Author

Romana Turk, Nikola Rošić, Blanka Beer Ljubić, and Silvijo Vince

Subjects

heat stress, lipid mobilization, transition period, non-esterified fatty acids, beta-hydroxy butyrate, leptin, Microbiology, QR1-502

Abstract

Hot climate is one of the major factors affecting the dairy industry. Heat stress could be responsible for decreased feed intake and consequently leads to alterations in energy metabolism, particularly during late pregnancy and early lactation. This study aimed to assess the effects of summer heat on adipose tissue activities during the periparturient period in Simmental cows. Two groups of cows were involved: heat-stressed cows (n = 12) that calved from June to August and thermoneutral cows (n = 12) that calved from October to December. Blood samples were taken from each cow during the periparturient period: 21 and 7 days before calving and 8, 16, 24, 32, and 40 days after calving. Glucose, beta-hydroxy butyrate (BHB), non-esterified fatty acids (NEFA), leptin (LP), and adiponectin (ADP) were measured in serum samples by commercial kits. Thermoneutral cows expressed higher degrees of lipomobilization syndrome than heat-stressed cows, indicated by significantly higher serum NEFA and BHB concentrations in the early lactation. Leptin levels were significantly decreased, while adiponectin was increased in heat-stressed cows compared to thermoneutral ones. The results indicated that heat-stressed cows during the periparturient period mobilized less fat from adipose tissue to reduce the heat generation by fatty acid oxidation.

Published

2024

9. Tumor necrosis factor-α promotes lipolysis and reduces insulin sensitivity by activating nuclear factor kappa B and c-Jun N-terminal kinase in primary bovine adipocytes

Author

Xiliang Du, Mingchao Liu, Wenjun Tai, Hao Yu, Xue Hao, Juan J. Loor, Qianming Jiang, Zhiyuan Fang, Xinxing Gao, Minghe Fan, Wenwen Gao, Lin Lei, Yuxiang Song, Zhe Wang, Cai Zhang, Guowen Liu, and Xinwei Li

Subjects

proinflammatory cytokine, insulin resistance, lipid mobilization, adipocyte, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250

Abstract

ABSTRACT: Sustained lipolysis and insulin resistance increase the risk of metabolic dysfunction in dairy cows during the transition period. Proinflammatory cytokines are key regulators of adipose tissue metabolism in nonruminants, but biological functions of these molecules in ruminants are not well known. Thus, the objective of this study was to investigate whether tumor necrosis factor-α (TNF-α) could affect insulin sensitivity and lipolysis in bovine adipocytes as well as the underlying mechanisms. Bovine adipocytes (obtained from the omental and mesenteric adipose depots) isolated from 5 Holstein female calves (1 d old) with similar body weight (median: 36.9 kg, range: 35.5–41.2 kg) were differentiated and used for (1) treatment with different concentrations of TNF-α (0, 0.1, 1, or 10 ng/mL) for 12 h; (2) pretreatment with 10 μM lipolytic agonist isoproterenol (ISO) for 3 h, followed by treatment with or without 10 ng/mL TNF-α for 12 h; and (3) pretreatment with the c-Jun N-terminal kinase (JNK) inhibitor SP600125 (20 μM for 2 h) and nuclear factor kappa B (NF-κB) inhibitor BAY 11–7082 (10 μM for 1 h) followed by treatment with or without 10 ng/mL TNF-α for 12 h. The TNF-α increased glycerol content in supernatant, decreased triglyceride content and insulin-stimulated phosphorylation of protein kinase B suggesting activation of lipolysis and impairment of insulin sensitivity. The TNF-α reduced cell viability, upregulated mRNA abundance of Caspase 3 (CASP3), an apoptosis marker, and increased activity of Caspase 3. In addition, increased phosphorylation of NF-κB and JNK, upregulation of mRNA abundance of interleukin-6 (IL-6), TNFA, and suppressor of cytokine signaling 3 (SOCS3) suggested that TNF-α activated NF-κB and JNK signaling pathways. Furthermore, ISO plus TNF-α-activated NF-κB and JNK signaling pathway to a greater extent than TNF-α alone. Combining TNF-α and ISO aggravated TNF-α-induced apoptosis, insulin insensitivity and lipolysis. In the absence of TNF-α, inhibition of NF-κB and JNK did not alter glycerol content in supernatant, triglyceride content or insulin-stimulated phosphorylation of protein kinase B. In the presence of TNF-α, inhibition of NF-κB and JNK alleviated TNF-α-induced apoptosis, insulin insensitivity and lipolysis. Overall, TNF-α impairs insulin sensitivity and induces lipolysis and apoptosis in bovine adipocytes, which may be partly mediated by activation of NF-κB and JNK. Thus, the data suggested that NF-κB and JNK are potential therapeutic targets for alleviating lipolysis dysregulation and insulin resistance in adipocytes.

Published

2022

10. Longitudinal Data to Assess Relationships among Plasma Folate, Vitamin B 12 , Non-esterified Fatty Acid, and β-Hydroxybutyrate Concentrations of Holstein Cows during the Transition Period.

Author

Duplessis, Mélissa, Chorfi, Younes, and Girard, Christiane L.

Subjects

VITAMIN B12, FOLIC acid, PANEL analysis, FATTY acids, COWS, VITAMINS

Abstract

It is well established that the plasma metabolite profile changes during metabolic dysfunction, such as elevated non-esterified fatty acid (NEFA) release when body reserve mobilization is excessive in early lactation cows. Relationships between changes in plasma concentrations of metabolites caused by a metabolic impairment and the status of vitamins, such as folates and vitamin B12, have barely been studied in cattle. This study was undertaken to assess relationships between peripartum plasma concentrations of folates, vitamin B12, NEFA, and beta-hydroxybutyrate (BHB). Longitudinal data of 48 multiparous Holstein cows from 5 studies were taken from days −14 to 21 relative to calving. Blood samples were taken weekly before calving and either twice or thrice per week postpartum, and plasma was analyzed for folate, vitamin B12, NEFA, and BHB concentrations. Postpartum plasma NEFA and BHB concentrations were negatively related to plasma folate concentration at days −14 and −7 relative to parturition, whereas the opposite relationship was noted for the plasma vitamin B12:folate ratio. The plasma folate and NEFA areas under the curve from the whole studied period were negatively associated, and the opposite was observed with the association between the plasma vitamin B12:folate ratio and NEFA as well as the BHB areas under the curve. The results suggest that there is an increased use of folate for metabolic functions during elevated concentrations of plasma NEFA and BHB. Future research should focus on finding an optimal plasma vitamin B12:folate ratio to favor cow health during the challenging period of parturition. [ABSTRACT FROM AUTHOR]

Published

2023

11. The Complex Interplay of Insulin Resistance and Metabolic Inflammation in Transition Dairy Cows

Author

Kaixi Qiao, Renjiao Jiang, Genaro Andres Contreras, Lei Xie, Osvaldo Bogado Pascottini, Geert Opsomer, and Qiang Dong

Subjects

insulin resistance, metabolic inflammation, transition dairy cows, lipid mobilization, adipokine, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

During the transition period, dairy cows exhibit heightened energy requirements to sustain fetal growth and lactogenesis. The mammary gland and the growing fetus increase their demand for glucose, leading to the mobilization of lipids to support the function of tissues that can use fatty acids as energy substrates. These physiological adaptations lead to negative energy balance, metabolic inflammation, and transient insulin resistance (IR), processes that are part of the normal homeorhetic adaptations related to parturition and subsequent lactation. Insulin resistance is characterized by a reduced biological response of insulin-sensitive tissues to normal physiological concentrations of insulin. Metabolic inflammation is characterized by a chronic, low-level inflammatory state that is strongly associated with metabolic disorders. The relationship between IR and metabolic inflammation in transitioning cows is intricate and mutually influential. On one hand, IR may play a role in the initiation of metabolic inflammation by promoting lipolysis in adipose tissue and increasing the release of free fatty acids. Metabolic inflammation, conversely, triggers inflammatory signaling pathways by pro-inflammatory cytokines, thereby leading to impaired insulin signaling. The interaction of these factors results in a harmful cycle in which IR and metabolic inflammation mutually reinforce each other. This article offers a comprehensive review of recent advancements in the research on IR, metabolic inflammation, and their intricate interrelationship. The text delves into multiple facets of physiological regulation, pathogenesis, and their consequent impacts.

Published

2024

12. Activated autophagy-lysosomal pathway in dairy cows with hyperketonemia is associated with lipolysis of adipose tissues

Author

Hao Yu, Minghe Fan, Xiying Chen, Xiuhuan Jiang, Juan J. Loor, Ahmad Aboragah, Cai Zhang, Hongxu Bai, Zhiyuan Fang, Taiyu Shen, Zhe Wang, Yuxiang Song, Xinwei Li, Guowen Liu, Xiaobing Li, and Xiliang Du

Subjects

autophagy-lysosomal pathway, adipocyte, lipid mobilization, ketosis, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250

Abstract

ABSTRACT: Activated autophagy-lysosomal pathway (ALP) can degrade virtually all kinds of cellular components, including intracellular lipid droplets, especially during catabolic conditions. Sustained lipolysis and increased plasma fatty acids concentrations are characteristic of dairy cows with hyperketonemia. However, the status of ALP in adipose tissue during this physiological condition is not well known. The present study aimed to ascertain whether lipolysis is associated with activation of ALP in adipose tissues of dairy cows with hyperketonemia and in calf adipocytes. In vivo, blood and subcutaneous adipose tissue (SAT) biopsies were collected from nonhyperketonemic (nonHYK) cows [blood β-hydroxybutyrate (BHB) concentration

Published

2022

13. Genome-wide exploration of the GDSL-type esterase/lipase gene family in rapeseed reveals several BnGELP proteins active during early seedling development.

Author

Yahui Ding, Liwen Xing, Jiamin Xu, Teng Jiang, Xiuhua Tang, Yaxuan Wang, Shuhua Huang, Wenfang Hao, Xiaona Zhou, Yanfeng Zhang, and Chang Gen Xie

Subjects

GENE families, LIPOLYTIC enzymes, RAPESEED, PROTEINS, GERMINATION, LIPASES

Abstract

The Gly-Asp-Ser-Leu (GDSL)-type esterase/lipase proteins (GELP) are one of the most important families of lipolytic enzymes and play prominent roles in seed germination and early seedling establishment through mobilizing the lipids stored in seeds. However, there are no comprehensive studies systematically investigating the GELP gene family in Brassica napus (BnGELP), and their biological significance to these physiological processes are far from understood. In the present study, a total of 240 BnGELP genes were identified in B. napus cultivar "Zhongshuang 11" (ZS11), which is nearly 2.3-fold more GELP genes than in Arabidopsis thaliana. The BnGELP genes clustered into 5 clades based on phylogenetic analysis. Ten BnGELPs were identified through zymogram analysis of esterase activity followed by mass spectrometry, among which five clustered into the clade 5. Gene and protein architecture, gene expression, and cis-element analyses of BnGELP genes in clade 5 suggested that they may play different roles in different tissues and in response to different abiotic stresses. BnGELP99 and BnGELP159 were slightly induced by cold, which may be attributed to two low-temperature responsive cis-acting regulatory elements present in their promoters. An increased activity of esterase isozymes by cold was also observed, which may reflect other cold inducible esterases/lipases in addition to the ten identified BnGELPs. This study provides a systemic view of the BnGELP gene family and offers a strategy for researchers to identify candidate esterase/lipase genes responsible for lipid mobilization during seed germination and early seedling establishment. [ABSTRACT FROM AUTHOR]

Published

2023

14. Can the use of photobiomodulation for localized fat reduction induce changes in lipid profile? A critical integrative review.

Author

Sena, Michelle Mota, Marreira, Marcelo, de Almeida, Gabriela Pizani, Teixeira, Mariely, D'Amico, Mirella Marranghello, and Pavani, Christiane

Abstract

The objective of this study is to clarify whether PBM for measures reduction can cause significant changes in the lipid profile. This is an integrative review and only original articles, both in vivo and clinical trials, that were published between 2010 and 2022 were selected. The article references were also analyzed to identify additional studies. A total of 15 articles were critically analyzed. The wavelength used ranged from 532 nm (green) to 956 nm (near infrared), and many authors failed to describe dosimetric parameters properly, as well as other important characteristics for the reproducibility of those found. Although it is not fully clear about the PBM interference level on the lipid profile, in general, there was no significant difference in lipid parameters when PBM was used alone, and when associated with techniques that promote beta-oxidation, there was an improvement in these biochemical variables. PBM use for localized fat reduction do not affect lipid serum levels. Clinical trials using standardized parameters are crucial to obtain more reliable results. [ABSTRACT FROM AUTHOR]

Published

2023

15. Association of maternal late-gestation lipid mobilization and their offspring's disease risk during the pre-weaned period and performance through first lactation: A cohort study in a dairy herd

Author

Ana Velasquez-Munoz, Emily J. Schuurmans, Jill L. Brester, Kathryn Starken, and Angel Abuelo

Subjects

calf health, fetal programming, metabolic stress, transition period, lipid mobilization, Veterinary medicine, SF600-1100

Abstract

IntroductionExcessive maternal lipid mobilization in late gestation may impact the immune function of the newborn. However, the long-term effects remain unknown. The objective was to explore associations between excessive maternal lipid mobilization in the last 2 weeks of gestation with offspring health and performance.MethodsA retrospective study was performed including 1,511 calves (heifer = 692, bull = 819) born between 2015 and 2020 in one MI farm. Plasma non-esterified fatty acids (NEFA) was measured from cows 7 to 14 d before calving. Calves were categorized in 2 groups based NEFA concentration: physiological lipid mobilization (PLM = 1,373; NEFA

Published

2023

16. Tumor necrosis factor-α promotes lipolysis and reduces insulin sensitivity by activating nuclear factor kappa B and c-Jun N-terminal kinase in primary bovine adipocytes.

Author

Du, Xiliang, Liu, Mingchao, Tai, Wenjun, Yu, Hao, Hao, Xue, Loor, Juan J., Jiang, Qianming, Fang, Zhiyuan, Gao, Xinxing, Fan, Minghe, Gao, Wenwen, Lei, Lin, Song, Yuxiang, Wang, Zhe, Zhang, Cai, Liu, Guowen, and Li, Xinwei

Subjects

*LIPOLYSIS, *NF-kappa B, *INSULIN sensitivity, *PROTEIN kinase B, *BIOMOLECULES, *SUPPRESSORS of cytokine signaling

Abstract

Sustained lipolysis and insulin resistance increase the risk of metabolic dysfunction in dairy cows during the transition period. Proinflammatory cytokines are key regulators of adipose tissue metabolism in nonruminants, but biological functions of these molecules in ruminants are not well known. Thus, the objective of this study was to investigate whether tumor necrosis factor-α (TNF-α) could affect insulin sensitivity and lipolysis in bovine adipocytes as well as the underlying mechanisms. Bovine adipocytes (obtained from the omental and mesenteric adipose depots) isolated from 5 Holstein female calves (1 d old) with similar body weight (median: 36.9 kg, range: 35.5–41.2 kg) were differentiated and used for (1) treatment with different concentrations of TNF-α (0, 0.1, 1, or 10 ng/mL) for 12 h; (2) pretreatment with 10 μ M lipolytic agonist isoproterenol (ISO) for 3 h, followed by treatment with or without 10 ng/mL TNF-α for 12 h; and (3) pretreatment with the c-Jun N-terminal kinase (JNK) inhibitor SP600125 (20 μ M for 2 h) and nuclear factor kappa B (NF-κB) inhibitor BAY 11–7082 (10 μ M for 1 h) followed by treatment with or without 10 ng/mL TNF-α for 12 h. The TNF-α increased glycerol content in supernatant, decreased triglyceride content and insulin-stimulated phosphorylation of protein kinase B suggesting activation of lipolysis and impairment of insulin sensitivity. The TNF-α reduced cell viability, upregulated mRNA abundance of Caspase 3 (CASP3), an apoptosis marker, and increased activity of Caspase 3. In addition, increased phosphorylation of NF-κB and JNK, upregulation of mRNA abundance of interleukin-6 (IL-6), TNFA , and suppressor of cytokine signaling 3 (SOCS3) suggested that TNF-α activated NF-κB and JNK signaling pathways. Furthermore, ISO plus TNF-α-activated NF-κB and JNK signaling pathway to a greater extent than TNF-α alone. Combining TNF-α and ISO aggravated TNF-α-induced apoptosis, insulin insensitivity and lipolysis. In the absence of TNF-α, inhibition of NF-κB and JNK did not alter glycerol content in supernatant, triglyceride content or insulin-stimulated phosphorylation of protein kinase B. In the presence of TNF-α, inhibition of NF-κB and JNK alleviated TNF-α-induced apoptosis, insulin insensitivity and lipolysis. Overall, TNF-α impairs insulin sensitivity and induces lipolysis and apoptosis in bovine adipocytes, which may be partly mediated by activation of NF-κB and JNK. Thus, the data suggested that NF-κB and JNK are potential therapeutic targets for alleviating lipolysis dysregulation and insulin resistance in adipocytes. [ABSTRACT FROM AUTHOR]

Published

2022

17. Comparative Proteomics of Potato Cultivars with a Variable Dormancy Period.

Author

Mouzo, Daniel, Rodríguez-Vázquez, Raquel, Barrio, Carlos, García, Lucio, and Zapata, Carlos

Subjects

*DORMANCY in plants, *POTATOES, *LIQUID chromatography-mass spectrometry, *CULTIVARS, *PROTEOMICS, *SEED potatoes, *POTATO industry

Abstract

The control of the duration of the dormancy phase is a significant challenge in the potato industry and for seed producers. However, the proteome landscape involved in the regulation of the length of the dormancy period over potato cultivars remains largely unexplored. In this study, we performed for the first time a comparative proteome profiling of potato cultivars with differential duration of tuber dormancy. More specifically, the proteome profiling of Agata, Kennebec and Agria commercial potato varieties with short, medium and medium-long dormancy, respectively, was assessed at the endodormancy stage using high-resolution two-dimensional electrophoresis (2-DE) coupled to reversed-phase liquid chromatography–tandem mass spectrometry (LC-TripleTOF MS/MS). A total of 11 proteins/isoforms with statistically significant differential abundance among cultivars were detected on 2-DE gels and confidently identified by LC-TripleTOF MS/MS. Identified proteins have known functions related to tuber development, sprouting and the oxylipins biosynthesis pathway. Fructokinase, a mitochondrial ADP/ATP carrier, catalase isozyme 2 and heat shock 70 kDa were the proteins with the strongest response to dormancy variations. To the best of our knowledge, this study reports the first candidate proteins underlying variable dormancy length in potato cultivars. [ABSTRACT FROM AUTHOR]

Published

2022

18. Activated autophagy-lysosomal pathway in dairy cows with hyperketonemia is associated with lipolysis of adipose tissues.

Author

Yu, Hao, Fan, Minghe, Chen, Xiying, Jiang, Xiuhuan, Loor, Juan J., Aboragah, Ahmad, Zhang, Cai, Bai, Hongxu, Fang, Zhiyuan, Shen, Taiyu, Wang, Zhe, Song, Yuxiang, Li, Xinwei, Liu, Guowen, Li, Xiaobing, and Du, Xiliang

Subjects

*LIPOLYSIS, *ADIPOSE tissues, *DAIRY cattle, *MEMBRANE proteins, *CATHEPSIN D, *FREE fatty acids

Abstract

Activated autophagy-lysosomal pathway (ALP) can degrade virtually all kinds of cellular components, including intracellular lipid droplets, especially during catabolic conditions. Sustained lipolysis and increased plasma fatty acids concentrations are characteristic of dairy cows with hyperketonemia. However, the status of ALP in adipose tissue during this physiological condition is not well known. The present study aimed to ascertain whether lipolysis is associated with activation of ALP in adipose tissues of dairy cows with hyperketonemia and in calf adipocytes. In vivo, blood and subcutaneous adipose tissue (SAT) biopsies were collected from nonhyperketonemic (nonHYK) cows [blood β-hydroxybutyrate (BHB) concentration <1.2 m M , n = 10] and hyperketonemic (HYK) cows (blood BHB concentration 1.2–3.0 m M , n = 10) with similar days in milk (range: 3–9) and parity (range: 2–4). In vitro, calf adipocytes isolated from 5 healthy Holstein calves (1 d old, female, 30–40 kg) were differentiated and used for (1) treatment with lipolysis inducer isoproterenol (ISO, 10 µ M , 3 h) or mammalian target of rapamycin inhibitor Torin1 (250 n M , 3 h), and (2) pretreatment with or without the ALP inhibitor leupeptin (10 μg/mL, 4 h) followed by ISO (10 µ M , 3 h) treatment. Compared with nonHYK cows, serum concentration of free fatty acids was greater and serum glucose concentration, DMI, and milk yield were lower in HYK cows. In SAT of HYK cows, ratio of phosphorylated hormone-sensitive lipase to hormone-sensitive lipase, and protein abundance of adipose triacylglycerol lipase were greater, but protein abundance of perilipin 1 (PLIN1) and cell death-inducing DNA fragmentation factor-α-like effector c (CIDEC) was lower. In addition, mRNA abundance of autophagy-related 5 (ATG5), autophagy-related 7 (ATG7), and microtubule-associated protein 1 light chain 3 beta (MAP1LC3B), protein abundance of lysosome-associated membrane protein 1, and cathepsin D, and activity of β-N-acetylglucosaminidase were greater, whereas protein abundance of sequestosome-1 (p62) was lower in SAT of HYK cows. In calf adipocytes, treatment with ISO or Torin1 decreased protein abundance of PLIN1, and CIDEC, and triacylglycerol content in calf adipocytes, but increased glycerol content in the supernatant of calf adipocytes. Moreover, the mRNA abundance of ATG5 , ATG7 , and MAP1LC3B was upregulated, the protein abundance of lysosome-associated membrane protein 1, cathepsin D, and activity of β-N-acetylglucosaminidase were increased, whereas the protein abundance of p62 was decreased in calf adipocytes treated with ISO or Torin1 compared with control group. Compared with treatment with ISO alone, the protein abundance of p62, PLIN1, and CIDEC, and triacylglycerol content in calf adipocytes were higher, but the glycerol content in the supernatant of calf adipocytes was lower in ISO and leupeptin co-treated group. Overall, these data indicated that activated ALP is associated with increased lipolysis in adipose tissues of dairy cows with hyperketonemia and in calf adipocytes. [ABSTRACT FROM AUTHOR]

Published

2022

19. Longitudinal Data to Assess Relationships among Plasma Folate, Vitamin B12, Non-esterified Fatty Acid, and β-Hydroxybutyrate Concentrations of Holstein Cows during the Transition Period

Author

Mélissa Duplessis, Younes Chorfi, and Christiane L. Girard

Subjects

cobalamin, cattle, folic acid, lipid mobilization, Microbiology, QR1-502

Abstract

It is well established that the plasma metabolite profile changes during metabolic dysfunction, such as elevated non-esterified fatty acid (NEFA) release when body reserve mobilization is excessive in early lactation cows. Relationships between changes in plasma concentrations of metabolites caused by a metabolic impairment and the status of vitamins, such as folates and vitamin B12, have barely been studied in cattle. This study was undertaken to assess relationships between peripartum plasma concentrations of folates, vitamin B12, NEFA, and beta-hydroxybutyrate (BHB). Longitudinal data of 48 multiparous Holstein cows from 5 studies were taken from days −14 to 21 relative to calving. Blood samples were taken weekly before calving and either twice or thrice per week postpartum, and plasma was analyzed for folate, vitamin B12, NEFA, and BHB concentrations. Postpartum plasma NEFA and BHB concentrations were negatively related to plasma folate concentration at days −14 and −7 relative to parturition, whereas the opposite relationship was noted for the plasma vitamin B12:folate ratio. The plasma folate and NEFA areas under the curve from the whole studied period were negatively associated, and the opposite was observed with the association between the plasma vitamin B12:folate ratio and NEFA as well as the BHB areas under the curve. The results suggest that there is an increased use of folate for metabolic functions during elevated concentrations of plasma NEFA and BHB. Future research should focus on finding an optimal plasma vitamin B12:folate ratio to favor cow health during the challenging period of parturition.

Published

2023

20. Primary Tumor Fluorine‐18 Fluorodeoxydglucose (18F‐FDG) Is Associated With Cancer-Associated Weight Loss in Non-Small Cell Lung Cancer (NSCLC) and Portends Worse Survival.

Author

Olaechea, Santiago, Gannavarapu, Bhavani S., Alvarez, Christian, Gilmore, Anne, Sarver, Brandon, Xie, Donglu, Infante, Rodney, and Iyengar, Puneeth

Subjects

NON-small-cell lung carcinoma, POSITRON emission tomography

Abstract

Aim: To investigate the diagnostic potential of and associations between tumor 18F‐FDG uptake on PET imaging and cancer-associated weight loss. Methods: 774 non-small cell lung cancer (NSCLC) patients with pre-treatment PET evaluated between 2006 and 2014 were identified. Using the international validated definition of cachexia, the presence of clinically significant pretreatment cancer-associated weight loss (WL) was retrospectively determined. Maximum Standardized Uptake Value (SUVMax) of 18F‐FDG was recorded and dichotomized based on 3 experimental cutpoints for survival analyses. Each SUVMax cutpoint prioritized either survival differences, total cohort comparison sample sizes, or sample size by stage. Patient outcomes and associations between SUVMax and cancer-associated weight loss were assessed by multivariate, categorical, and survival analyses. Results: Patients were found to have an increased likelihood of having WL at diagnosis associated with increasing primary tumor SUVMax after controlling for potentially confounding patient and tumor characteristics on multivariate logistic regression (OR 1.038; 95% CI: 1.012, 1.064; P=0.0037). After stratifying the cohort by WL and dichotomized SUVMax, both factors were found to be relevant in predicting survival outcomes when the alternative variable was constant. Of note, the most striking survival differences contributed by WL status occurred in high SUVMax groups, where the presence of WL predicted a median survival time detriment of up to 10 months, significant regardless of cutpoint determination method applied to categorize high SUVMax patients. SUVMax classification was found to be most consistently relevant in both WL and no WL groups. Conclusions: The significant positive association between significant pretreatment cancer-associated weight loss and primary tumor SUVMax underscores increased glucose uptake as a component of catabolic tumor phenotypes. This substantiates 18F‐FDG PET analysis as a prospective tool for assessment of cancer-associated weight loss and corresponding survival outcomes. Furthermore, the survival differences observed between WL groups across multiple SUVMax classifications supports the importance of weight loss monitoring in oncologic workups. Weight loss in the setting of NSCLCs with higher metabolic activity as determined by 18F‐FDG PET signal should encourage more aggressive and earlier palliative care interventions. [ABSTRACT FROM AUTHOR]

Published

2022

21. Primary Tumor Fluorine‐18 Fluorodeoxydglucose (18F‐FDG) Is Associated With Cancer-Associated Weight Loss in Non-Small Cell Lung Cancer (NSCLC) and Portends Worse Survival

Author

Santiago Olaechea, Bhavani S. Gannavarapu, Christian Alvarez, Anne Gilmore, Brandon Sarver, Donglu Xie, Rodney Infante, and Puneeth Iyengar

Subjects

cachexia, positron- emission-tomography, lung neoplams, palliative cancer care, Warburg effect, lipid mobilization, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

AimTo investigate the diagnostic potential of and associations between tumor 18F‐FDG uptake on PET imaging and cancer-associated weight loss.Methods774 non-small cell lung cancer (NSCLC) patients with pre-treatment PET evaluated between 2006 and 2014 were identified. Using the international validated definition of cachexia, the presence of clinically significant pretreatment cancer-associated weight loss (WL) was retrospectively determined. Maximum Standardized Uptake Value (SUVMax) of 18F‐FDG was recorded and dichotomized based on 3 experimental cutpoints for survival analyses. Each SUVMax cutpoint prioritized either survival differences, total cohort comparison sample sizes, or sample size by stage. Patient outcomes and associations between SUVMax and cancer-associated weight loss were assessed by multivariate, categorical, and survival analyses.ResultsPatients were found to have an increased likelihood of having WL at diagnosis associated with increasing primary tumor SUVMax after controlling for potentially confounding patient and tumor characteristics on multivariate logistic regression (OR 1.038; 95% CI: 1.012, 1.064; P=0.0037). After stratifying the cohort by WL and dichotomized SUVMax, both factors were found to be relevant in predicting survival outcomes when the alternative variable was constant. Of note, the most striking survival differences contributed by WL status occurred in high SUVMax groups, where the presence of WL predicted a median survival time detriment of up to 10 months, significant regardless of cutpoint determination method applied to categorize high SUVMax patients. SUVMax classification was found to be most consistently relevant in both WL and no WL groups.ConclusionsThe significant positive association between significant pretreatment cancer-associated weight loss and primary tumor SUVMax underscores increased glucose uptake as a component of catabolic tumor phenotypes. This substantiates 18F‐FDG PET analysis as a prospective tool for assessment of cancer-associated weight loss and corresponding survival outcomes. Furthermore, the survival differences observed between WL groups across multiple SUVMax classifications supports the importance of weight loss monitoring in oncologic workups. Weight loss in the setting of NSCLCs with higher metabolic activity as determined by 18F‐FDG PET signal should encourage more aggressive and earlier palliative care interventions.

Published

2022

22. Time-restricted eating affects human adipose tissue fat mobilization.

Author

Zambrano C, González-Alvarado E, Salmerón D, Ruiz-Ojeda FJ, Luján J, Scheer FAJL, and Garaulet M

Subjects

Humans, Female, Male, Adult, Middle Aged, Adipose Tissue metabolism, Weight Loss physiology, Time Factors, Obesity, Morbid diet therapy, Obesity, Morbid metabolism, Lipid Mobilization, Glycerol metabolism, Lipolysis, Fasting

Abstract

Objective: Time-restricted eating (TRE), a dietary approach that confines food intake to specific time windows, has shown metabolic benefits. However, its impact on body weight loss remains inconclusive. The objective of this study was to investigate the influence of early TRE (eTRE) and delayed TRE (dTRE) on fat mobilization using human adipose tissue (AT) cultures., Methods: Subcutaneous AT was collected from 21 participants with severe obesity. We assessed fat mobilization by measuring glycerol release in AT culture across four treatment conditions: control, eTRE, dTRE, and 24-h fasting., Results: TRE had a significant impact on lipolysis (glycerol release [mean (SD)] in micromoles per hour per gram: control, 0.05 [0.003]; eTRE, 0.10 [0.006]; dTRE, 0.08 [0.005]; and fasting, 0.17 [0.008]; p < 0.0001). Both eTRE and dTRE increased lipolysis compared with the control group, with eTRE showing higher glycerol mobilization than dTRE during the overall 24-h time window, especially at the nighttime/habitual sleep episode (p < 0.0001). Further analysis of TRE based on fasting duration revealed that, independently of the time window, glycerol release increased with fasting duration (in micromoles per hour per gram: 8 h = 0.08 [0.001]; 12 h = 0.09 [0.008]; and 16 h of fasting = 0.12 [0.011]; p < 0.0001)., Conclusions: This study provides insights into the potential benefits of TRE on fat mobilization and may guide the design of future dietary strategies for weight management and metabolic health., (© 2024 The Authors. Obesity published by Wiley Periodicals LLC on behalf of The Obesity Society.)

Published

2024

23. Wnt/Wingless signaling promotes lipid mobilization through signal-induced transcriptional repression.

Author

Liu M, Hemba-Waduge RU, Li X, Huang X, Liu TH, Han X, Wang Y, and Ji JY

Subjects

Animals, Adipocytes metabolism, Lipid Mobilization, Drosophila melanogaster metabolism, Drosophila melanogaster genetics, Wnt1 Protein metabolism, Wnt1 Protein genetics, Lipolysis, Lipogenesis genetics, Triglycerides metabolism, Lipid Metabolism genetics, Larva metabolism, Larva genetics, Transcription, Genetic, Homeostasis, Drosophila Proteins metabolism, Drosophila Proteins genetics, Wnt Signaling Pathway

Abstract

The Wnt/Wingless signaling pathway plays critical roles in metazoan development and energy metabolism, but its role in regulating lipid homeostasis remains not fully understood. Here, we report that the activation of canonical Wnt/Wg signaling promotes lipolysis while concurrently inhibiting lipogenesis and fatty acid β-oxidation in both larval and adult adipocytes, as well as cultured S2R+ cells, in Drosophila . Using RNA-sequencing and CUT&RUN (Cleavage Under Targets & Release Using Nuclease) assays, we identified a set of Wnt target genes responsible for intracellular lipid homeostasis. Notably, active Wnt signaling directly represses the transcription of these genes, resulting in decreased de novo lipogenesis and fatty acid β-oxidation, but increased lipolysis. These changes lead to elevated free fatty acids and reduced triglyceride (TG) accumulation in adipocytes with active Wnt signaling. Conversely, downregulation of Wnt signaling in the fat body promotes TG accumulation in both larval and adult adipocytes. The attenuation of Wnt signaling also increases the expression of specific lipid metabolism-related genes in larval adipocytes, wing discs, and adult intestines. Taken together, these findings suggest that Wnt signaling-induced transcriptional repression plays an important role in regulating lipid homeostasis by enhancing lipolysis while simultaneously suppressing lipogenesis and fatty acid β-oxidation., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

24. Fatty Acid Profiles of Serum Lipid Fractions Change Minimally in Sled Dogs Before and After Short Bouts of Exercise

Author

James R. Templeman, Luciano Trevizan, David W. L. Ma, and Anna K. Shoveller

Subjects

endurance exercise, lipid metabolism, Siberian huskies, lipid fraction, lipid mobilization, Veterinary medicine, SF600-1100

Abstract

Although emerging data suggests a greater influence of gluconeogenic precursors, endurance sled dogs have long appeared to rely heavily on fatty acid oxidation for sustained energy production. However, much of the research investigating lipid utilization during exercise in sled dogs has been carried out with dogs subjected to extended bouts of endurance exercise. Less is known about changes in fatty acid composition in endurance training sled dogs subjected to short bouts of exercise, and fewer data define how fatty acid composition may change in distinct lipid fractions. As such, the study objective was to assess whether short bouts of submaximal exercise would affect fatty acid profiles of serum lipid fractions in endurance training sled dogs. Fifteen privately-owned Siberian huskies were used (8 females: 4 intact, 4 spayed; 7 males: 2 intact, 5 neutered), with an average age of 4.6 ± 2.5 years and body weight of 24.8 ± 4.2 kg. Throughout the diet acclimation and remainder of the study, all dogs were fed a dry extruded diet that met or exceeded all AAFCO nutrient recommendations. Dogs were weighed weekly and fed to maintain baseline body weight. A 12-week exercise regimen was designed to incorporate weekly increases in running distance, but weather played a role in setting the daily distance. On weeks 2, 5, and 11, an exercise challenge was implemented whereby dogs would run 4 km at 15 km/h in teams of 4. Pre- and post-exercise blood samples were taken, and gas chromatography was used to evaluate fatty acid profiles of all identified serum lipid fractions (cholesterol ester, diacylglycerol, free fatty acid, phospholipids, triglyceride). Data were analyzed using PROC MIXED of SAS, with dog as a random effect and week and sampling time point as fixed effects. Composition of oleic (18:1n9), linoleic (18:2n6), and alpha-linolenic (18:3n3) acids in the free fatty acid fraction decreased by ~9, 10, and 60%, respectively, following exercise (P ≤ 0.05). The results presented herein suggest that aside from a degree of depletion of these 18-carbon unsaturated fatty acids, short bouts of submaximal exercise do not induce considerable changes to sled dog fatty acid profiles.

Published

2021

25. Body condition score prior to parturition is associated with plasma and adipose tissue biomarkers of lipid metabolism and inflammation in Holstein cows

Author

Abdulrahman Alharthi, Zheng Zhou, Vincenzo Lopreiato, Erminio Trevisi, and Juan J. Loor

Subjects

Body condition score, Lipid mobilization, Transition cow, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Abstract Background Previous research has revealed a strong inflammatory response within adipose (AT) tissue during the transition into lactation. Whether this effect is a result of oxidative stress induced by lipolysis and fatty acid oxidation associated with differences in prepartum body condition score remains to be determined. The objectives of this study were to investigate systemic biomarkers of energy balance and inflammation and the expression of lipid metabolism- and inflammation-related genes in AT during the transition period in dairy cows. Results Twenty multiparous Holstein cows were retrospectively divided by body condition score (BCS) prior to parturition into two groups (10 cows/group): BCS ≤ 3.25 (LoBCS) and BCS ≥ 3.75 (HiBCS). Subcutaneous adipose tissue was biopsied from the tail-head region at d − 10, 7 and 20 relative to parturition. Plasma was used to evaluate biomarkers of energy balance (EBAL) [free fatty acids (NEFA), glycerol, insulin] and inflammation [IL-1β, haptoglobin, myeloperoxidase, and reactive oxygen metabolites (ROM)]. Although insulin concentration was not affected by BCS, NEFA was overall greater and glycerol lower in HiBCS cows. Greater activity of myeloperoxidase in plasma coincided with increased haptoglobin and IL-1β postpartum in LoBCS cows. Among genes related with oxidative stress, the expression of the cytosolic antioxidant enzyme SOD1 was greater in LoBCS compared to HiBCS. Cows in LoBCS compared with HiBCS had greater overall expression of ABDH5 and ATGL along with ADIPOQ, indicating enhanced basal lipolysis and secretion of adiponectin. Expression of CPT1A, ACADVL, and ACOX1 was greater overall in HiBCS than LoBCS indicating enhanced NEFA oxidation. Although the temporal increase in plasma NEFA regardless of BCS coincided with the profile of CPT1A, the gradual decrease in genes related with re-esterification of NEFA (PCK1) and glycerol efflux (AQP7) coupled with an increase in glycerol kinase (GK) suggested some stimulation of NEFA utilization within adipose tissue. This idea is supported in part by the gradual decrease in insulin regardless of BCS. Although expression of the inflammation-related gene toll-like receptor 4 (TLR4) was greater in HiBCS versus LoBCS cows at −10 d, expression of TLR9 was greater in HiBCS versus LoBCS at 20 d. These profiles did not seem to be associated with concentrations of pro-inflammatory biomarkers or ROM. Conclusions Overall, data indicated that cows with BCS 3.25 or lower before calving experienced greater alterations in systemic inflammation and basal lipolysis without excessive increases in NEFA plasma concentrations. Despite the greater plasma NEFA around parturition, cows with BCS 3.75 or higher seemed to have a more active system for catabolism of NEFA and utilization of glycerol within adipose tissue. A linkage between those pathways and risk of disorders postpartum remains to be determined.

Published

2018

26. Rhythmic change of adipokinetic hormones diurnally regulates locust vitellogenesis and egg development.

Author

Zheng, H., Chen, C., Liu, C., Song, Q., and Zhou, S.

Subjects

*VITELLOGENESIS, *MIGRATORY locust, *BODY composition, *LOCUSTS, *HORMONES, *INSECT reproduction

Abstract

Adipokinetic hormones (AKHs), the neurohormones synthesized in the insect corpora cardiaca are known to mobilize lipids and carbohydrates for energy‐consuming activities including reproduction. However, both inhibitory and stimulatory effects of AKHs on insect reproduction have been reported, and the underlying mechanisms remain elusive. Using the migratory locust, Locusta migratoria, as a model system, we report here that AKHs are expressed in response to rhythmic diel change, and AKH III expression increases markedly at photophase. Diurnal injection of AKH III but not AKH I or AKH II in adult females stimulates vitellogenesis and egg development. In contrast, AKH treatment at scotophase represses female reproduction. RNA interference‐mediated knockdown of AKH receptor (AKHR) results in significantly reduced vitellogenin (Vg) expression in the fat body at photophase along with reduced Vg deposition in the ovary. AKHR knockdown also leads to decreased expression of Brummer, triacylglycerol lipase and trehalose transporter, accompanied by suppressed mobilization of triacylglycerol and trehalose. We propose that in addition to stimulating Vg expression at photophase, AKH/AKHR signalling is likely to regulate ovarian uptake of Vg via triacylglycerol mobilization and trehalose homeostasis. This study provides new insights into the understanding of AKH/AKHR signalling in the regulation of insect reproduction. [ABSTRACT FROM AUTHOR]

Published

2020

27. Effects of feed restriction on growth performance, lipid mobilization, and gene expression in rose spotted snapper (Lutjanus guttatus).

Author

Escalante-Rojas, Mauricio, Martínez-Brown, Juan Manuel, Ibarra-Castro, Leonardo, Llera-Herrera, Raúl, and García-Gasca, Alejandra

Subjects

*SOMATOMEDIN A, *SOMATOMEDIN C, *GENE expression, *SOMATOTROPIN, *LIPIDS, *SOMATOTROPIN receptors

Abstract

The effects of feed deprivation were evaluated for 1 week and 2 weeks in Lutjanus guttatus juveniles. A significant reduction in body mass was observed in both feed deprivation schemes, as well as in hepatosomatic, viscerosomatic and mesenteric fat indexes. The composition of fasted fish was characterized by a decrease in lipid content; the liver displayed an intense reduction of lipid reserves in both fasted groups, and increased expression of the lysosomal acid lipase. 1 week after re-feeding, both experimental groups showed an increase in specific growth rate, feed intake and feed conversion ratio. A recovery in hepatic lipid reserves was observed, and the expression of the lysosomal acid lipase decreased, although lipid content in both groups was still significantly lower than in control groups. Hepatic expression of the growth hormone receptor decreased after fasting, and remained low even after the fish were fed, whereas the expression of insulin-like growth factor 1 and 2 increased after fasting and decreased in both groups when fish were fed again. Altogether, these results showed a partial compensatory growth response in L. guttatus juveniles after fasting, with enhanced growth rates and improved feed efficiency. Fish used stored lipid reserves as the main energy source, and the expression of growth-related and lipid mobilization marker genes in the liver showed similar patterns in both fasting schemes. Based on the results, we suggest as much as 1-week fasting intervals during grow-out programmes to reduce visceral fat and increase growth rate in this species. [ABSTRACT FROM AUTHOR]

Published

2020

28. Deficiency of Brummer lipase disturbs lipid mobilization and locomotion, and impairs reproduction due to defects in the eggshell ultrastructure in the insect vector Rhodnius prolixus.

Author

Arêdes DS, Rios T, Carvalho-Kelly LF, Braz V, Araripe LO, Bruno RV, Meyer-Fernandes JR, Ramos I, and Gondim KC

Subjects

Animals, Female, Egg Shell metabolism, Lipid Mobilization, Reproduction, Triglycerides metabolism, Locomotion, Insect Vectors, Mammals metabolism, Lipase genetics, Lipase metabolism, Rhodnius genetics

Abstract

Rhodnius prolixus is a hematophagous insect, which feeds on large and infrequent blood meals, and is a vector of trypanosomatids that cause Chagas disease. After feeding, lipids derived from blood meal are stored in the fat body as triacylglycerol, which is recruited under conditions of energy demand by lipolysis, where the first step is catalyzed by the Brummer lipase (Bmm), whose orthologue in mammals is the adipose triglyceride lipase (ATGL). Here, we investigated the roles of Bmm in adult Rhodnius prolixus under starvation, and after feeding. Its gene (RhoprBmm) was expressed in all the analyzed insect organs, and its transcript levels in the fat body were not altered by nutritional status. RNAi-mediated knockdown of RhoprBmm caused triacylglycerol retention in the fat body during starvation, resulting in larger lipid droplets and lower ATP levels compared to control females. The silenced females showed decreased flight capacity and locomotor activity. When RhoprBmm knockdown occurred before the blood meal and the insects were fed, the females laid fewer eggs, which collapsed and showed low hatching rates. Their hemolymph had reduced diacylglycerol content and vitellogenin concentration. The chorion (eggshell) of their eggs had no difference in hydrocarbon amounts or in dityrosine crosslinking levels compared to control eggs. However, it showed ultrastructural defects. These results demonstrated that Bmm activity is important not only to guarantee lipid mobilization to maintain energy homeostasis during starvation, but also for the production of viable eggs after a blood meal, by somehow contributing to the right formation of the egg chorion., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

29. Coordinated Lipid Mobilization during Seed Development and Germination in Peanut ( Arachis hypogaea L.).

Author

Cao D, Ma Y, Cao Z, Hu S, Li Z, Li Y, Wang K, Wang X, Wang J, Zhao K, Zhao K, Qiu D, Li Z, Ren R, Ma X, Zhang X, Gong F, Jung MY, and Yin D

Subjects

Lipid Mobilization, Oleic Acid metabolism, Triglycerides metabolism, Seeds metabolism, Germination, Arachis metabolism

Abstract

Peanut ( Arachis hypogaea L.) is one of the most important oil crops in the world due to its lipid-rich seeds. Lipid accumulation and degradation play crucial roles in peanut seed maturation and seedling establishment, respectively. Here, we utilized lipidomics and transcriptomics to comprehensively identify lipids and the associated functional genes that are important in the development and germination processes of a large-seed peanut variety. A total of 332 lipids were identified; triacylglycerols (TAGs) and diacylglycerols were the most abundant during seed maturation, constituting 70.43 and 16.11%, respectively, of the total lipids. Significant alterations in lipid profiles were observed throughout seed maturation and germination. Notably, TAG (18:1/18:1/18:2) and (18:1/18:2/18:2) peaked at 23386.63 and 23392.43 nmol/g, respectively, at the final stage of seed development. Levels of hydroxylated TAGs (HO-TAGs) increased significantly during the initial stage of germination. Accumulation patterns revealed an inverse relationship between free fatty acids and TAGs. Lipid degradation was determined to be regulated by diacylglycerol acyltransferase, triacylglycerol lipase, and associated transcription factors, predominantly yielding oleic acid, linoleic acid, and linolenic acid. Collectively, the results of this study provide valuable insights into lipid dynamics during the development and germination of large-seed peanuts, gene resources, and guiding future research into lipid accumulation in an economically important crop.

Published

2024

30. Follistatin-like 1 is a myokine regulating lipid mobilization during endurance exercise and recovery.

Author

Nam JS, Park SJ, Ahn CW, Cho ES, Kim HJ, and Kim Y

Subjects

Humans, Male, Cyclic GMP metabolism, Glycerol metabolism, Lipid Mobilization, Lipolysis physiology, Myokines, Sterol Esterase metabolism, Follistatin metabolism, Follistatin-Related Proteins genetics, Follistatin-Related Proteins metabolism

Abstract

Objective: The aim of this study was to investigate the role of the follistatin-like 1 (Fstl1) and disco-interacting protein 2 homolog A (DIP2a) axis in relation to lipid metabolism during and after endurance exercise and to elucidate the mechanisms underlying the metabolic effects of Fstl1 on adipocytes, considering its regulation by exercise and muscle mass and its link to obesity., Methods: Twenty-nine sedentary males participated in endurance exercise, and blood samples were collected during and after the exercise. Body composition, Fstl1, glycerol, epinephrine, growth hormone, and atrial natriuretic peptide were measured. 3T3-L1 adipocytes, with or without DIP2a knockdown, were treated with Fstl1 to assess glycerol release, cyclic AMP/cyclic GMP production, and hormone sensitive lipase phosphorylation. The association between DIP2a gene expression levels in human adipose tissues and exercise-induced lipolysis was examined., Results: Fstl1 levels significantly increased during endurance exercise and following recovery, correlating with lean body mass and lipolysis. In 3T3-L1 adipocytes, Fstl1 increased glycerol release, cyclic GMP production, and hormone sensitive lipase activation, but these effects were attenuated by DIP2a knockdown. DIP2a gene expression in human adipose tissues correlated with serum glycerol concentrations during endurance exercise., Conclusions: Fstl1 is a myokine facilitating lipid mobilization during and after endurance exercise through DIP2a-mediated lipolytic effects in adipocytes., (© 2023 The Obesity Society.)

Published

2024

31. Transcriptional determinants of lipid mobilization in human adipocytes.

Author

Ludzki AC, Hansen M, Zareifi D, Jalkanen J, Huang Z, Omar-Hmeadi M, Renzi G, Klingelhuber F, Boland S, Ambaw YA, Wang N, Damdimopoulos A, Liu J, Jernberg T, Petrus P, Arner P, Krahmer N, Fan R, Treuter E, Gao H, Rydén M, and Mejhert N

Subjects

Humans, Lipolysis genetics, Transcription Factors genetics, Transcription Factors metabolism, Chromatin genetics, Chromatin metabolism, Lipid Mobilization, Adipocytes metabolism

Abstract

Defects in adipocyte lipolysis drive multiple aspects of cardiometabolic disease, but the transcriptional framework controlling this process has not been established. To address this, we performed a targeted perturbation screen in primary human adipocytes. Our analyses identified 37 transcriptional regulators of lipid mobilization, which we classified as (i) transcription factors, (ii) histone chaperones, and (iii) mRNA processing proteins. On the basis of its strong relationship with multiple readouts of lipolysis in patient samples, we performed mechanistic studies on one hit, ZNF189 , which encodes the zinc finger protein 189. Using mass spectrometry and chromatin profiling techniques, we show that ZNF189 interacts with the tripartite motif family member TRIM28 and represses the transcription of an adipocyte-specific isoform of phosphodiesterase 1B (PDE1B2). The regulation of lipid mobilization by ZNF189 requires PDE1B2, and the overexpression of PDE1B2 is sufficient to attenuate hormone-stimulated lipolysis. Thus, our work identifies the ZNF189-PDE1B2 axis as a determinant of human adipocyte lipolysis and highlights a link between chromatin architecture and lipid mobilization.

Published

2024

32. Adipokinetic Hormone Receptor Mediates Lipid Mobilization to Regulate Starvation Resistance in the Brown Planthopper, Nilaparvata lugens

Author

Kai Lu, Xinyu Zhang, Xia Chen, Yue Li, Wenru Li, Yibei Cheng, Jinming Zhou, Keke You, and Qiang Zhou

Subjects

adipokinetic hormone (AKH), adipokinetic hormone receptor (AKHR), lipid mobilization, starvation resistance, Nilaparvata lugens, Physiology, QP1-981

Abstract

Lipid storage must be efficiently mobilized to sustain the energy demands during processes of exercise or starvation. In insects, adipokinetic hormone (AKH) and brummer lipase are well-known regulators of lipid mobilization. We recently demonstrated that brummer-dependent lipolysis regulates starvation resistance in the brown planthopper, Nilaparvata lugens, one of the most destructive rice pests. The present work investigated the roles of the AKH signaling system in lipid mobilization during the starvation process in N. lugens. NlAKHR is a typical G protein-coupled receptor (GPCR) and possesses high structure and sequence similarity to other insect AKHRs. Spatial and developmental expression profiles suggested that NlAKH is released from the corpora cardiaca to activate NlAKHR mainly expressed in the fat body. Starvation significantly induced the expression of NlAKH and NlAKHR, indicating a potential role of the AKH signaling system in starvation resistance. To reveal the functions of the AKH signaling system, a double-stranded RNA (dsRNA)-mediated knockdown of NlAKHR and NlAKH peptide injection was performed. The results show NlAKHR silencing decreased the levels of 1,2-diacylglycerol (DAG) in the hemolymph and increased triacylglycerol (TAG) levels in the fat body, whereas NlAKH injection led to a critical accumulation of DAG in the hemolymph and a severe reduction of TAG content in the fat body. Knockdown of NlAKHR resulted in prolonged lifespan and high levels of whole-body TAG, indicating an inability to mobilize TAG reserves during starvation. Conversely, the NlAKH injection reduced the survival and accelerated TAG mobilization during starvation, which further confirms the role of NlAKH in lipolysis. Moreover, NlAKHR silencing caused obesity in N. lugens, whereas NlAKH injection depleted organismal TAG reserves in vivo and produced a slim phenotype. These results indicate that lipid mobilization is regulated by the AKH signaling system, which is essential for adjusting body lipid homeostasis and ensuring energy supplement during starvation in N. lugens.

Published

2018

33. The autophagy protein ATG9A enables lipid mobilization from lipid droplets

Author

Chad D. Williamson, Yan Li, Juan S. Bonifacino, Carlos M. Guardia, Andy Golden, Michal Jarnik, Nunziata Maio, Elodie Mailler, and Xiaofei Bai

Subjects

Autophagosome, Phospholipid scramblase, Science, Vesicular Transport Proteins, Autophagy-Related Proteins, General Physics and Astronomy, Membrane trafficking, Mitochondrion, Article, General Biochemistry, Genetics and Molecular Biology, Animals, Genetically Modified, Gene Knockout Techniques, Lipid droplet, Macroautophagy, Autophagy, Animals, Humans, Super-resolution microscopy, Caenorhabditis elegans, Caenorhabditis elegans Proteins, Multidisciplinary, Chemistry, Fatty Acids, Lipid Mobilization, Autophagosomes, Membrane Proteins, Lipid Droplets, General Chemistry, Recombinant Proteins, Transmembrane protein, Mitochondria, Cell biology, HEK293 Cells, Membrane, Membrane protein, Mutation, lipids (amino acids, peptides, and proteins), HeLa Cells

Abstract

The multispanning membrane protein ATG9A is a scramblase that flips phospholipids between the two membrane leaflets, thus contributing to the expansion of the phagophore membrane in the early stages of autophagy. Herein, we show that depletion of ATG9A does not only inhibit autophagy but also increases the size and/or number of lipid droplets in human cell lines and C. elegans. Moreover, ATG9A depletion blocks transfer of fatty acids from lipid droplets to mitochondria and, consequently, utilization of fatty acids in mitochondrial respiration. ATG9A localizes to vesicular-tubular clusters (VTCs) that are tightly associated with an ER subdomain enriched in another multispanning membrane scramblase, TMEM41B, and also in close proximity to phagophores, lipid droplets and mitochondria. These findings indicate that ATG9A plays a critical role in lipid mobilization from lipid droplets to autophagosomes and mitochondria, highlighting the importance of ATG9A in both autophagic and non-autophagic processes., ATG9A is transmembrane autophagic machinery protein that delivers phospholipids to expanding autophagosomes. Mailler et al. show that ATG9A is required to mobilize lipids from lipid droplets for autophagosome expansion as well as mitochondrial fatty acid import and β-oxidation.

Published

2021

34. Immediate Effects of Aerobic Exercise and Whole-Body Vibration on Fat Oxidation, Lipid Mobilization, and Cardiovascular Response in Individuals with Obesity.

Author

Nantakool S, Punturee K, Konghakote S, Sitthichoke C, Phirom K, and Chuatrakoon B

Abstract

Among obesity, cumulative fat and poor physical activity are risk factors for cardiovascular disease. Due to the limit in performing aerobic exercise (AER), whole-body vibration (WBV) as a passive form of exercise is an alternative therapeutic strategy. Herein, this study aimed to compare the immediate effects of AER and WBV on metabolic and cardiovascular responses, and dyspnea level in obesity. Forty-nine eligible obesities performed both AER and WBV, with a random order assignment (age = 28.94 ± 11.39 years). Fat oxidation, cardiovascular parameters (i.e., heart rate (HR) and blood pressure (BP)), and dyspnea level (i.e., rating perceived exertion (RPE)) were measured during exercise, while lipid mobilization (i.e., triglycerides) was collected pre- and post-exercise. Fat oxidation rate in AER was significantly higher than in WBV. Significantly increased fat oxidation rates were shown in both groups (within-group analyses) (also shown in females aged 20-45). Triglyceride levels between AER and WBV were similar. A significant decrease in triglyceride levels was only observed in WBV (within-group change). HR and RPE in AER were significantly higher than in WBV ( p < 0.05). HR and RPE were significantly increased throughout both AER and WBV, while systolic blood pressure was only significantly elevated in AER (whining-group analyses). WBV may facilitate fat oxidation (particularly in females aged below 45), induce lipid mobilization, and reduce interference on cardiovascular parameters in obesity.

Published

2023

35. Comparative Proteomics of Potato Cultivars with a Variable Dormancy Period

Author

Daniel Mouzo, Raquel Rodríguez-Vázquez, Carlos Barrio, Lucio García, and Carlos Zapata

Subjects

Proteomics, Proteome, Organic Chemistry, Pharmaceutical Science, Catalase, Analytical Chemistry, Adenosine Diphosphate, Fructokinases, Isoenzymes, Plant Tubers, Adenosine Triphosphate, Tandem Mass Spectrometry, Chemistry (miscellaneous), dormancy, endodormancy, paradormancy, Solanum tuberosum, oxylipins, α-ketol, catalase, hydrogen peroxide, lipid mobilization, Drug Discovery, Molecular Medicine, Oxylipins, Physical and Theoretical Chemistry, Plant Proteins

Abstract

The control of the duration of the dormancy phase is a significant challenge in the potato industry and for seed producers. However, the proteome landscape involved in the regulation of the length of the dormancy period over potato cultivars remains largely unexplored. In this study, we performed for the first time a comparative proteome profiling of potato cultivars with differential duration of tuber dormancy. More specifically, the proteome profiling of Agata, Kennebec and Agria commercial potato varieties with short, medium and medium-long dormancy, respectively, was assessed at the endodormancy stage using high-resolution two-dimensional electrophoresis (2-DE) coupled to reversed-phase liquid chromatography–tandem mass spectrometry (LC-TripleTOF MS/MS). A total of 11 proteins/isoforms with statistically significant differential abundance among cultivars were detected on 2-DE gels and confidently identified by LC-TripleTOF MS/MS. Identified proteins have known functions related to tuber development, sprouting and the oxylipins biosynthesis pathway. Fructokinase, a mitochondrial ADP/ATP carrier, catalase isozyme 2 and heat shock 70 kDa were the proteins with the strongest response to dormancy variations. To the best of our knowledge, this study reports the first candidate proteins underlying variable dormancy length in potato cultivars.

Published

2022

36. Adipokinetic Hormone Receptor Mediates Lipid Mobilization to Regulate Starvation Resistance in the Brown Planthopper, Nilaparvata lugens.

Author

Lu, Kai, Zhang, Xinyu, Chen, Xia, Li, Yue, Li, Wenru, Cheng, Yibei, Zhou, Jinming, You, Keke, and Zhou, Qiang

Abstract

Lipid storage must be efficiently mobilized to sustain the energy demands during processes of exercise or starvation. In insects, adipokinetic hormone (AKH) and brummer lipase are well-known regulators of lipid mobilization. We recently demonstrated that brummer-dependent lipolysis regulates starvation resistance in the brown planthopper, Nilaparvata lugens , one of the most destructive rice pests. The present work investigated the roles of the AKH signaling system in lipid mobilization during the starvation process in N. lugens. Nl AKHR is a typical G protein-coupled receptor (GPCR) and possesses high structure and sequence similarity to other insect AKHRs. Spatial and developmental expression profiles suggested that Nl AKH is released from the corpora cardiaca to activate Nl AKHR mainly expressed in the fat body. Starvation significantly induced the expression of NlAKH and NlAKHR , indicating a potential role of the AKH signaling system in starvation resistance. To reveal the functions of the AKH signaling system, a double-stranded RNA (dsRNA)-mediated knockdown of NlAKHR and Nl AKH peptide injection was performed. The results show NlAKHR silencing decreased the levels of 1,2-diacylglycerol (DAG) in the hemolymph and increased triacylglycerol (TAG) levels in the fat body, whereas Nl AKH injection led to a critical accumulation of DAG in the hemolymph and a severe reduction of TAG content in the fat body. Knockdown of NlAKHR resulted in prolonged lifespan and high levels of whole-body TAG, indicating an inability to mobilize TAG reserves during starvation. Conversely, the Nl AKH injection reduced the survival and accelerated TAG mobilization during starvation, which further confirms the role of Nl AKH in lipolysis. Moreover, NlAKHR silencing caused obesity in N. lugens , whereas Nl AKH injection depleted organismal TAG reserves in vivo and produced a slim phenotype. These results indicate that lipid mobilization is regulated by the AKH signaling system, which is essential for adjusting body lipid homeostasis and ensuring energy supplement during starvation in N. lugens. [ABSTRACT FROM AUTHOR]

Published

2018

37. Maternal late-gestation metabolic stress is associated with changes in immune and metabolic responses of dairy calves.

Author

Ling, Tahlia, Hernandez-Jover, Marta, Sordillo, Lorraine M., and Abuelo, Angel

Subjects

*OXIDATIVE stress, *IMMUNITY, *CALVES, *COWS, *HAPTOGLOBINS

Abstract

Metabolic stress in periparturient dairy cows is characterized by excessive lipid mobilization, inflammation, and oxidative stress that is associated with immune dysfunction. Thus, metabolic stress around the time calving is linked to the development of various early-lactation health disorders. Maternal status during late pregnancy can have carryover effects on several health and production variables of neonatal calves. However, the effects of metabolic stress during gestation on metabolic and immune responses of newborn calves remain unknown. Thus, we aimed to investigate whether metabolic stress in late-gestation dairy cows is associated with changes in the metabolic and immune responses of their offspring during the first month of life. Holstein-Friesian cows (n = 12) were blood sampled at 28 and 15 d before expected calving. The average between these 2 sampling points in the serum concentrations of nonesterified fatty acids (NEFA), haptoglobin (Hp), and oxidant status index (OSi)—defined as the ratio between reactive oxygen and nitrogen species and total antioxidant potential—were calculated as indicators of the degree of lipid mobilization, inflammation, and oxidant status (OS), respectively. Calves were subsequently divided into groups (n = 6 each) according to their dams' high or low degree of lipid mobilization, inflammation, and OS. The metabolic responses of calves in each of these groups were compared weekly throughout their first month of life by assessing serum concentration of NEFA, Hp, and OSi. Additionally, whole blood was obtained from calves at each sampling period and subjected to a lipopolysaccharide (LPS)-stimulated tumor necrosis factor-α (TNF-α) production assay to assess cell-mediated innate immunity against induced inflammatory responses, using high (5 μg/mL of blood) and low (10 ng/mL) concentrations of LPS. Calves born to cows with higher NEFA or OSi showed lower body weight at birth and throughout the study, whereas no association between any of the maternal groups and average daily gain at 4 wk of age was identified. Serum concentrations of reactive oxygen and nitrogen species were higher in calves exposed to higher maternal NEFA concentrations or OSi when compared with calves born to cows with lower values of these biomarkers. Calves exposed to high maternal OS also had higher circulating concentrations of Hp and TNF-α, indicating greater basal inflammatory responses when compared with calves born to cows with a lower OSi. In contrast, LPS-induced inflammatory responses were less robust in calves exposed to higher maternal biomarkers of inflammation or OS, suggesting compromised immune responses to microbial agonists. Collectively, these data suggest that prenatal exposure to maternal parameters of metabolic stress may adversely affect some metabolic and inflammatory responses of the offspring that could influence disease susceptibility. [ABSTRACT FROM AUTHOR]

Published

2018

38. Genipin ameliorates diet-induced obesity via promoting lipid mobilization and browning of white adipose tissue in rats.

Author

Guan, Lili, Gong, Dezheng, Yang, Sirao, Shen, Nana, Zhang, Sai, Li, Yuchen, Wu, Qiong, Yuan, Bo, Sun, Yiping, Dai, Ning, Zhu, Liang, and Zou, Yuan

Subjects

ADIPOSE tissues, ANIMAL experimentation, BIOLOGICAL models, DIET, GENETIC disorders, HETEROCYCLIC compounds, LIPID metabolism disorders, OBESITY, RATS

Abstract

Genipin is the major active component of Gardeniae fructus and has been shown to ameliorate diabetes and insulin resistance in rat models. In this study, we first investigated the effect of genipin on obesity and the related lipid metabolism mechanisms in diet-induced obese rats. Our results showed that genipin reduced body weight, food intake, and visceral fat mass; ameliorated dyslipidemia, glucose intolerance, insulin intolerance, adipocyte hypertrophy, and hepatic steatosis; and reduced serum tumor necrosis factor-α level in diet-induced obese rats. Quantitative real-time reverse-transcription polymerase chain reaction results further illustrated that genipin promoted lipolysis and β-oxidation of fatty acid by upregulating gene expressions of hormone-sensitive lipase and adipose triglyceride lipase in white adipose tissue (WAT) and peroxisome proliferator-activated receptor-α and carnitine palmitoyltransferase 1α in hepatic tissue. Moreover, genipin promoted browning of WAT by upregulating the mRNA and protein levels of uncoupling protein 1 and PRD1-BF1-RIZ1 homologous domain containing 16 in WAT. Additionally, genipin inhibited gene expressions of activin receptor-like kinase 7, tumor necrosis factor-α, and interlukin-6 in WAT. These results indicated that genipin had a potential therapeutic role in obesity, in which regulation of lipid mobilization and browning of WAT were involved. [ABSTRACT FROM AUTHOR]

Published

2018

39. Effects of Swimming on Silvering and Maturation of the European Eel, Anguilla anguilla L.

Author

Palstra, Arjan, van Ginneken, Vincent, van den Thillart, Guido, Noakes, David L. G., editor, van den Thillart, Guido, editor, Dufour, Sylvie, editor, and Rankin, J. Cliff, editor

Published

2009

40. Untargeted lipidomics of ovine milk to analyse the influence of different diet regimens

Author

Pierluigi Caboni, Cristina Manis, Viviana Garau, Paola Scano, Maria Sitzia, Antonio Pulina, Marco Caredda, A. Pirisi, Pierpaolo Roggero, Margherita Addis, and Andrea Cabiddu

Subjects

Phosphorylcholine, Mammary gland, Lipidomics, medicine, Animals, Food science, Triglycerides, Sheep, medicine.diagnostic_test, biology, Chemistry, Phosphatidylethanolamines, Lipid mobilization, General Medicine, biology.organism_classification, Animal Feed, Lipids, Diet, Milk, medicine.anatomical_structure, Female, Animal Science and Zoology, Sarda, Composition (visual arts), Multivariate statistical, Lipid profile, Long chain, Food Science

Abstract

In this work we report a lipidomics approach to study the effects of two diet systems on the composition of ovine milk. Milk from two groups of Sarda sheep grazing on 40% (P40) and 60% (P60) of pasture were analyzed by a UHPLC-QTOF-MS analytical platform and data submitted to multivariate statistical analysis. Pairwise partial least square discriminant analysis of the lipid profile of the data was carried out to classify samples and to find discriminant lipids. The two dietary groups were characterized by differences in triacylglycerols, phosphocholines and phosphatidylethanolamines levels. Discriminants of the P40 group were TG and PC containing in their backbone saturated medium chain FA thus suggesting greater de novo fatty synthesis in the mammary gland. On the other hand, the P60 group was characterized by TG and PC formed by unsaturated long chain FA originating from the diet or from lipid mobilization.

Published

2021

41. cAMP- and cGMP-dependent control of lipolysis and lipid mobilization in humans: putative targets for fat cell management

Author

Lafontan, Max, Berlan, Michel, Sengenes, Coralie, Moro, Cédric, Crampes, François, Galitzky, Jean, Conn, Michael, editor, Kordon, Claude, editor, and Christen, Yves, editor

Published

2006

42. Investigation of Lipid Mobilization and Oxidative Stress Parameters in The Serum Before and After Surgery of Cows with Left Displacement Abomasum

Author

Aslan, Nurcanan, Yiğitarslan, Kürşad, and Büyükoğlu, Tülay

Subjects

lipid mobilization, Dairy cow, oxidative stress, displacement abomasum

Abstract

Left Abomasum Displacement (LDA) is one of the most important metabolic diseases caused by negative energy balance during the early lactation period for high milk efficient cows. This study aimed to investigate the lipid mobilization and oxidative stress parameters in cows with LDA before and after the operation. In this research, cows with LDA (n=16) were divided into three groups that are before operation (pre-op LDA), immediately after the operation (post-op LDA), and on the 10th day after the operation (post-op 10 LDA). Control groups were formed from early lactation cows (n=8) and dry period (n=8). In serum samples collected from the study groups, total cholesterol, HDL and LDL cholesterol, triacylglycerol, free fatty acid (FFA), β-hydroxybutyric acid (BHBA), malondialdehyde (MDA) levels, and AST, GGT activities were determined spectrophotometrically, total antioxidant level (TAS), total oxidant level (TOS) and paraoxonase 1/arylesterase (PON1/ARES)] enzyme activity was measured according to the procedure of the colorimetric kit. Serum TOS and MDA levels increased in cattle with pre-op LDA compared to control groups, and MDA levels decreased to normal levels in both groups after the operation. TAS levels and PON1/ARES activities decreased in cattle with pre-op LDA compared to control groups and increased gradually in post-op groups. Serum total cholesterol, HDL, and LDL cholesterol levels decreased in cattle with pre-op LDA compared to the control groups and did not return to normal levels in the groups with post-op LDA. While BHBA levels and AST activities increased in cattle with pre-op LDA compared to control groups, they reached normal values in cattle with LDA on the post-op 10th day. It has been concluded that in evaluating the diagnosis, treatment, and prognosis of the disease in dairy cows with LDA, oxidative stress parameters such as TAS, TOS, and PON1/ARES may be used together with lipid parameters.

Published

2022

43. Autophagy-regulating miRNAs: potential targets for obesity and related metabolic disorders

Author

Ruohan Lou, Zhengqiu Li, Zheng-Hong Qin, Rongsong Li, Ke-Gang Linghu, Bing Guo, Tian Zhang, Jingxin Liu, and Ligen Lin

Subjects

0301 basic medicine, Biology, Bioinformatics, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Metabolic Diseases, Adipocyte, Drug Discovery, microRNA, Adipocytes, Autophagy, medicine, Animals, Humans, Obesity, Cholesterol homeostasis, Pharmacology, Lipid mobilization, Lipid Metabolism, medicine.disease, MicroRNAs, 030104 developmental biology, chemistry, Adipogenesis, 030220 oncology & carcinogenesis

Abstract

Obesity is positively correlated with a variety of metabolic disorders. Autophagy is the major recycling process in adipocytes, dynamically regulating adipogenesis, lipid mobilization, and browning. miRNAs, a class of endogenous small noncoding RNAs, participate in each step of autophagy. Autophagy-regulating miRNAs are crucial for lipid homeostasis and proper adipocyte functioning. Herein, we summarize our current understanding of autophagy-regulating miRNAs related to obesity, as well as their specific targets. Autophagy-regulating miRNAs might fill crucial gaps in our understanding of the nature of obesity and provide promising targets for the diagnosis and treatment of obesity-related metabolic disorders.

Published

2021

44. Effects of Body Condition and Concentrate Proportion of the Ration on Mobilization of Fat Depots and Energetic Condition in Dairy Cows during Early Lactation Based on Ultrasonic Measurements

Author

Katharina Bünemann, Dirk von Soosten, Jana Frahm, Susanne Kersten, Ulrich Meyer, Jürgen Hummel, Annette Zeyner, and Sven Dänicke

Subjects

dairy cows, animal health, body condition score, concentrate feed proportion, energy metabolism, lipid mobilization, postpartal period, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

The aim of this study was to evaluate energy metabolism and lipid mobilization via ultrasonic measurements (USM), considering inner fat depots, in lactating dairy cows differing in body condition score (BCS) and fed rations with low (35% at dry matter basis; C35) or high (60% at dry matter basis; C60) concentrate feed proportions postpartum. Sixty pluriparous German Holstein cows were arranged in a 2 × 2 factorial design from d 42 antepartum (relative to calculated calving) until d 120 postpartum. Animals were divided into a group with a lower (initial BCS = 3.1 ± 0.38 SD; BCSL) and a group with a higher (initial BCS = 3.83 ± 0.41 SD; BCSH) BCS. Due to higher dry matter intake C60 groups reached the positive energy balance earlier, whereas C35 groups had a more pronounced negative energy balance. Although this would suggest a more pronounced mobilization of C35 groups the USM revealed no differences between feeding groups. Differences in BCS between both BCS groups remained almost the same over the trial. This was not reflected in ultrasonic data, as lipid mobilization was higher in higher conditioned cows. These findings demonstrate the extended possibilities of USM to depict metabolic processes.

Published

2019

45. Decellularized adipose tissue: A key factor in promoting fat regeneration by recruiting and inducing mesenchymal stem cells

Author

Hong-Wei Liu, Jin-Qiang Lu, Xiao Jiang, Xin-Rui Lai, Jinrong Zhang, and Ling-Zhi Tang

Subjects

Adult, Male, Proteomics, 0301 basic medicine, Time Factors, Proteome, Biophysics, Mice, Nude, Adipose tissue, Biology, Biochemistry, Mass Spectrometry, Rats, Sprague-Dawley, Mice, Young Adult, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, mental disorders, parasitic diseases, Animals, Humans, Regeneration, DAPI, Molecular Biology, Adipogenesis, Decellularization, Regeneration (biology), Lipid Mobilization, Mesenchymal stem cell, food and beverages, Mesenchymal Stem Cells, Cell Biology, Middle Aged, Rats, Cell biology, Transplantation, 030104 developmental biology, Adipose Tissue, nervous system, chemistry, 030220 oncology & carcinogenesis, Perilipin

Abstract

Background Decellularized adipose tissue (DAT) has attracted much attention due to its wide range of sources and adipose regeneration capacity. However, the lipogenic efficiency of DAT is still controversial due to its unclear mechanism. To this point, it is crucial to clarify the mechanism of DAT in promoting adipose regeneration Objective: This study aims to explore the mechanism of DAT promoting adipose regeneration and survival mechanism of DAT transplantation in vivo. Methods DAT preparation by repeated freeze-thaw, enzymatic digestion, and isopropanol degreasing. Histology, DAPI, immunohistochemistry, immunofluorescence and scanning electron microscopy confirmed the efficacy and reproducibility of these approaches. BM-MSCs, ADSCs and UCMSCs were cocultured with DAT for 14 days and then stained with oil red O. Adipogenic genes of three MSCs were detected by RT-PCR. DAT and adipose tissue were transplanted subcutaneously into the back of nude mice to observe medium and long-term morphological changes, vascularization, and lipid-forming efficiency. Mass spectrometry (MS)-based proteomic to analyze the adipogenic protein contents of DAT and adipose tissue. Results The DAT without any cellular components but with an abundance of collagen; neither DNA nor lipids were detected. Seeding experiments with MSCs indicated that the DAT provided an inductive microenvironment for adipogenesis, supporting the expression of the master regulators PPARγ. Within four months after transplantation, HE morphology of DAT was identical to adipose cells. Immunofluorescence markers CD31 and perilipin were increased in DAT, while the retention rate gradually decreased over time, eventually accounting for 33.7% of the original volume. MS-based proteomic analyses identified 1013 types of proteins in adipose tissue and 29 proteins in the DAT. Analyses of GO and KEGG databases suggested that DAT contained a variety of proteins involved in fat metabolism. Conclusions DAT can interact with different types of MSCs and ultimately achieve adipose regeneration. The presence of multiple adipogenic proteins in DAT make it play a vital role in adipose regeneration. DAT is expected to be an ideal bio-derived scaffold for adipose tissue engineering.

Published

2021

46. Effect of hormonal and energy-related factors on plasma adiponectin in transition dairy cows.

Author

Krumm, C. S., Giesy, S. L., Caixeta, L. S., Butler, W. R., Sauerwein, H., Kim, J. W., and Boisclair, Y. R.

Subjects

*ADIPONECTIN, *COWS, *LACTATION in cattle, *INSULIN therapy, *SOMATOTROPIN, *THERAPEUTICS, *ANIMAL health

Abstract

In transition dairy cows, plasma levels of the insulin-sensitizing hormone adiponectin fall to a nadir at parturition and recover in early lactation. The transition period is also characterized by rapid changes in metabolic and hormonal factors implicated in other species as positive regulators of adiponectin production (i.e., negative energy balance, lipid mobilization) and others as negative regulators (i.e., reduced leptin and insulin and increased growth hormone and plasma fatty acids). To assess the role of onset of negative energy balance and lipid mobilization after parturition, dairy cows were either milked thrice daily (lactating) or never milked (nonlactating) for up to 4 wk after parturition. Plasma adiponectin was 21% higher across time in nonlactating than lactating cows. Moreover, nonlactating cows recovered plasma adiponectin at similar rates as lactating cows even though they failed to lose body condition. Next, we assessed the ability of individual hormones to alter plasma adiponectin in transition dairy cows. In the first experiment, dairy cows received a constant 96-h intravenous infusion of either saline or recombinant human leptin starting on d 8 of lactation. In the second experiment, dairy cows were studied in late pregnancy (LP, starting on prepartum d −31) and again in early lactation (EL, starting on d 7 postpartum) during a 66-h period of basal sampling followed by 48 h of hyperinsulinemic-euglycemia. In the third experiment, cows were studied either in LP (starting on d −40 prepartum) or EL (starting on d 7 postpartum) during a 3-h period of basal sampling followed by 5 d of bovine somatotropin treatment. Plasma adiponectin was reduced by an average of 21% in EL relative to LP in these experiments, but neither leptin, insulin, or growth hormone treatment affected adiponectin in LP or EL. Finally, the possibility that plasma fatty acids repress plasma adiponectin was evaluated by intravenous infusion of a lipid emulsion in nonpregnant, nonlactating cows in the absence or presence of glucagon for 16 consecutive hours. The intralipid infusion increased plasma fatty acid concentration from 102 to over 570 µM within 3 h but had no effect on plasma adiponectin irrespective of presence or absence of glucagon. Overall, these data suggest that energy balance around parturition may regulate plasma adiponectin but do not support roles for lipid mobilization or sustained changes in the plasma concentration of leptin, insulin, growth hormone, or fatty acids. [ABSTRACT FROM AUTHOR]

Published

2017

47. Short-term starvation in silver pomfret ( Pampus argenteus): molecular effects on lipid mobilization and utilization.

Author

Liao, Kai, Meng, Ran, Ran, Zhaoshou, Cheng, Guoqiang, Wang, Yajun, Xu, Jilin, Xu, Shanliang, and Yan, Xiaojun

Subjects

*BRAMIDAE, *STARVATION, *FISH feeds, *LIPOLYSIS, *LIPASE regulation, *FISHES

Abstract

To investigate the effects of short-term starvation on lipid metabolism, juvenile silver pomfret ( Pampus argenteus) with an initial weight of 18.1 ± 1.53 g were starved for 6 days. Fish were sampled on days 0, 2, 4 and 6 of starvation (S0, S2, S4 and S6, respectively) and then analysed. The results showed that short-term starvation induced a significant decrease in visceral index, hepatosomatic index. The crude lipid content was also significantly decreased by 42.22% and 82.96% on S2 and S6 respectively. In addition, short-term starvation significantly decreased the plasma triacylglycerol, non-esterified fatty acid and low-density lipoprotein cholesterol. Moreover, short-term starvation significantly increased the expressions of hormone-sensitive lipase ( HSL) and adipose triglyceride lipase ( ATGL) at the mRNA and protein levels in the muscle and the ATGL expression at the protein level in the liver. The expressions of fatty acid translocase ( CD36) and plasma membrane fatty acid-binding protein ( FABPpm) at the protein level in the muscle were significantly increased by short-term starvation, while the expressions of fatty acid transport protein 1 ( FATP1), FABPpm and lipoprotein lipase ( LPL) at the protein level in the liver were significantly increased by short-term starvation. Furthermore, the expressions of peroxisome proliferator activated receptor ( PPAR) α and PPARγ at the mRNA and protein levels in the muscle were significantly elevated by short-term starvation. These findings suggested that short-term starvation increased lipid mobilization and utilization possibly through activation of lipolysis-related genes ( HSL and ATGL), lipid uptake-related genes ( LPL, CD36, FATP1 and FABPpm) and PPARs. [ABSTRACT FROM AUTHOR]

Published

2017

48. The ubiquitin-protein ligase MIEL1 localizes to peroxisomes to promote seedling oleosin degradation and lipid droplet mobilization.

Author

Traver MS and Bartel B

Subjects

Humans, Lipid Droplets metabolism, Lipid Mobilization, Peroxisomes metabolism, Seedlings genetics, Seedlings metabolism, Transcription Factors metabolism, Tumor Suppressor Protein p53 metabolism, Ubiquitin-Protein Ligases genetics, Ubiquitin-Protein Ligases metabolism, Arabidopsis metabolism, Arabidopsis Proteins metabolism

Abstract

Lipid droplets are organelles conserved across eukaryotes that store and release neutral lipids to regulate energy homeostasis. In oilseed plants, fats stored in seed lipid droplets provide fixed carbon for seedling growth before photosynthesis begins. As fatty acids released from lipid droplet triacylglycerol are catabolized in peroxisomes, lipid droplet coat proteins are ubiquitinated, extracted, and degraded. In Arabidopsis seeds, the predominant lipid droplet coat protein is OLEOSIN1 (OLE1). To identify genes modulating lipid droplet dynamics, we mutagenized a line expressing mNeonGreen-tagged OLE1 expressed from the OLE1 promoter and isolated mutants with delayed oleosin degradation. From this screen, we identified four miel1 mutant alleles. MIEL1 (MYB30-interacting E3 ligase 1) targets specific MYB transcription factors for degradation during hormone and pathogen responses [D. Marino et al ., Nat. Commun. 4 , 1476 (2013); H. G. Lee and P. J. Seo, Nat. Commun. 7 mutants, indicating that MIEL1 modulates oleosin levels posttranscriptionally. When overexpressed, fluorescently tagged MIEL1 reduced oleosin levels, causing very large lipid droplets. Unexpectedly, fluorescently tagged MIEL1 localized to peroxisomes. Our data suggest that MIEL1 ubiquitinates peroxisome-proximal seed oleosins, targeting them for degradation during seedling lipid mobilization. The human MIEL1 homolog (PIRH2; p53-induced protein with a RING-H2 domain) targets p53 and other proteins for degradation and promotes tumorigenesis [A. Daks OLE1 transcript levels were unchanged in miel1 mutants, indicating that MIEL1 modulates oleosin levels posttranscriptionally. When overexpressed, fluorescently tagged MIEL1 reduced oleosin levels, causing very large lipid droplets. Unexpectedly, fluorescently tagged MIEL1 localized to peroxisomes. Our data suggest that MIEL1 ubiquitinates peroxisome-proximal seed oleosins, targeting them for degradation during seedling lipid mobilization. The human MIEL1 homolog (PIRH2; p53-induced protein with a RING-H2 domain) targets p53 and other proteins for degradation and promotes tumorigenesis [A. Daks et al ., Cells 11 , 1515 (2022)]. When expressed in Arabidopsis , human PIRH2 also localized to peroxisomes, hinting at a previously unexplored role for PIRH2 in lipid catabolism and peroxisome biology in mammals.

Published

2023

49. Fat Metabolism in Obesity, with Special Emphasis on the Insulin Resistance and Elevated Lipid Mobilization in Visceral Obesity

Author

Björntorp, P., Lockwood, Dean H., editor, and Heffner, Thomas C., editor

Published

2000

50. Co-Administration of Soluble Fibres and Lactobacillus casei NCDC19 Fermented Milk Prevents Adiposity and Insulin Resistance Via Modulation of Lipid Mobilization Genes in Diet-Induced Obese Mice

Author

Surender Jangra, Gaurav Bhakri, Ramesh Pothuraju, and Raj Kumar Sharma

Subjects

Male, Sucrose, Lactobacillus casei, Cultured Milk Products, Endocrinology, Diabetes and Metabolism, Inulin, Diet, High-Fat, law.invention, Gum Arabic, Mice, chemistry.chemical_compound, Probiotic, Insulin resistance, law, Gum acacia, Adipocyte, medicine, Animals, Immunology and Allergy, Obesity, Food science, Adiposity, biology, Adiponectin, Lipid Mobilization, food and beverages, medicine.disease, biology.organism_classification, Mice, Inbred C57BL, Lacticaseibacillus casei, chemistry, Insulin Resistance, Diet-induced obese

Abstract

Background: Numerous reports explaining the beneficial health effects of soluble fibres and probiotics on lifestyle disorders have been published. However, a little information is available on coadministration of soluble fibres such as gum acacia & inulin and probiotic lactobacilli. Therefore, in the present study, we have evaluated the synergistic effects of soluble fibres and probiotic fermented milk on adiposity, insulin resistance and dyslipidemia in C57BL/6 mice fed high-fat and sucrose diet for 18 weeks. Objective: To explore the synergistic effect of soluble fibres (gum acacia/inulin) and Lactobacillus casei NCDC19 fermented milk on adiposity, insulin resistance and lipid mobilization genes in dietinduced obese mice. Methods: C57BL/6 mice were divided randomly into three groups (n = 9/group) according to their body weights. The HFS group was fed high-fat and sucrose diet, the HFS-GFM group was fed HFS diet incorporated with gum acacia (7%, w/w) along with L. casei NCDC19 fermented milk and HFSIFM group was fed HFS diet incorporated with inulin (7%, w/w) along with L. casei NCDC19 fermented milk. Results: At the end of the experiment, final body weight, epididymal fat (E.fat) weight, and adipocyte size were found to be lower in groups received either gum acacia or inulin in combination with L. casei NCDC19 fermented milk (HFS-GFM or HFS-IFM). Also, fasting blood glucose, serum insulin, triglycerides, and VLDL-cholesterol levels were decreased significantly in both HFS-GFM and HFSIFM fed groups. Furthermore, relative mRNA expression of genes (cpt1, foxa2, pgc1β, and pparα) related to fatty acid oxidation enhanced significantly in the liver. In E.fat pad, expression of adiponectin was upregulated, whereas, leptin expression was reduced considerably. Also, expression of fasting-induced adipose factor enhanced significantly in the distal ileum of mice in HFS-GFM and HFS-IFM groups. Conclusion: Overall, we demonstrate that co-administration of soluble fibres viz. gum acacia, inulin and L. casei NCDC19 fermented milk exhibited the anti-adiposity effects, improved insulin sensitivity and dyslipidemia in mice via modulation of lipid mobilization genes.

Published

2020