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2. Enhanced SREBP2-driven cholesterol biosynthesis by PKCλ/ι deficiency in intestinal epithelial cells promotes aggressive serrated tumorigenesis

Author

Muta, Yu, Linares, Juan F., Martinez-Ordoñez, Anxo, Duran, Angeles, Cid-Diaz, Tania, Kinoshita, Hiroto, Zhang, Xiao, Han, Qixiu, Nakanishi, Yuki, Nakanishi, Naoko, Cordes, Thekla, Arora, Gurpreet K., Ruiz-Martinez, Marc, Reina-Campos, Miguel, Kasashima, Hiroaki, Yashiro, Masakazu, Maeda, Kiyoshi, Albaladejo-Gonzalez, Ana, Torres-Moreno, Daniel, García-Solano, José, Conesa-Zamora, Pablo, Inghirami, Giorgio, Metallo, Christian M., Osborne, Timothy F., Diaz-Meco, Maria T., and Moscat, Jorge

Published
2023
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3. Mitochondrial biogenesis in white adipose tissue mediated by JMJD1A-PGC-1 axis limits age-related metabolic disease

Author

Ito, Ryo, Xie, Shiyu, Tumenjargal, Myagmar, Sugahara, Yuto, Yang, Chaoran, Takahashi, Hiroki, Arai, Makoto, Inoue, Shin-Ichi, Uchida, Aoi, Nakano, Kenji, Choi, Hyunmi, Yang, Ge, Zhao, Yanan, Yamaguchi, Rei, Jin, Hitomi, Sagae, Hina, Wada, Youichiro, Tanaka, Toshiya, Kimura, Hiroshi, Kodama, Tatsuhiko, Aburatani, Hiroyuki, Takeda, Kazuhisa, Inagaki, Takeshi, Osborne, Timothy F., Yoneshiro, Takeshi, Matsumura, Yoshihiro, and Sakai, Juro

Published
2024
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7. MYPT1-PP1β phosphatase negatively regulates both chromatin landscape and co-activator recruitment for beige adipogenesis

Author

Takahashi, Hiroki, Yang, Ge, Yoneshiro, Takeshi, Abe, Yohei, Ito, Ryo, Yang, Chaoran, Nakazono, Junna, Okamoto-Katsuyama, Mayumi, Uchida, Aoi, Arai, Makoto, Jin, Hitomi, Choi, Hyunmi, Tumenjargal, Myagmar, Xie, Shiyu, Zhang, Ji, Sagae, Hina, Zhao, Yanan, Yamaguchi, Rei, Nomura, Yu, Shimizu, Yuichi, Yamada, Kaito, Yasuda, Satoshi, Kimura, Hiroshi, Tanaka, Toshiya, Wada, Youichiro, Kodama, Tatsuhiko, Aburatani, Hiroyuki, Zhu, Min-Sheng, Inagaki, Takeshi, Osborne, Timothy F., Kawamura, Takeshi, Ishihama, Yasushi, Matsumura, Yoshihiro, and Sakai, Juro

Published
2022
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10. Spatiotemporal dynamics of SETD5-containing NCoR–HDAC3 complex determines enhancer activation for adipogenesis

Author

Matsumura, Yoshihiro, Ito, Ryo, Yajima, Ayumu, Yamaguchi, Rei, Tanaka, Toshiya, Kawamura, Takeshi, Magoori, Kenta, Abe, Yohei, Uchida, Aoi, Yoneshiro, Takeshi, Hirakawa, Hiroyuki, Zhang, Ji, Arai, Makoto, Yang, Chaoran, Yang, Ge, Takahashi, Hiroki, Fujihashi, Hitomi, Nakaki, Ryo, Yamamoto, Shogo, Ota, Satoshi, Tsutsumi, Shuichi, Inoue, Shin-ichi, Kimura, Hiroshi, Wada, Youichiro, Kodama, Tatsuhiko, Inagaki, Takeshi, Osborne, Timothy F., Aburatani, Hiroyuki, Node, Koichi, and Sakai, Juro

Published
2021
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12. Lipid balance must be just right to prevent development of severe liver damage

Author

Osborne, Timothy F. and Espenshade, Peter J.

Subjects
Fatty acids -- Synthesis, Fatty liver -- Care and treatment -- Development and progression, Lipid metabolism -- Health aspects, Health care industry
Abstract

Nonalcoholic fatty liver disease (NAFLD) is a major health concern that often associates with obesity and diabetes. Fatty liver is usually a benign condition, yet a fraction of individuals progress to severe forms of liver damage, including nonalcoholic steatohepatitis (NASH) and hepatocellular carcinoma (HCC). Elevated sterol regulatory element-binding protein-driven (SREBP-driven) hepatocyte lipid synthesis is associated with NAFLD in humans and mice. In this issue of the JCI, Kawamura, Matsushita, et al. evaluated the role of SREBP-dependent lipid synthesis in the development of NAFLD, NASH, and HCC in the phosphatase and tensin homolog-knockout (PTEN-knockout) NASH model. Deletion of the gene encoding SREBP cleavage-activating protein (SCAP) from the liver resulted in decreased hepatic lipids, as expected. However, SCAP deletion accelerated progression to more severe liver damage, including NASH and HCC. This study provides a note of caution for those pursuing de novo fat biosynthesis as a therapeutic intervention in human NASH., Triglyceride and cholesterol biosynthesis Excess triglycerides (TG) in hepatocytes accumulate as the hallmark feature of nonalcoholic fatty liver disease (NAFLD) and are often accompanied by excess hepatic de novo lipid [...]

Published
2022
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14. Distinct subpopulations of human subcutaneous adipose tissue precursor cells revealed by single-cell RNA sequencing.

Author

Divoux, Adeline, Whytock, Katie L., Halasz, Laszlo, Hopf, Meghan E., Sparks, Lauren M., Osborne, Timothy F., and Smith, Steven R.

Subjects
RNA sequencing, ADIPOSE tissues, ABDOMINAL adipose tissue, LIPID metabolism, STEM cells, EXTRACELLULAR matrix, FAT
Abstract

Adipose-derived stem cells (ADSCs) play an important role in the differential capacity for excess energy storage between upper body abdominal (ABD) adipose tissue (AT) and lower body gluteofemoral (GF) AT. We cultured ADSCs from subcutaneous ABD AT and GF AT isolated from eight women with differential body fat distribution and performed single-cell RNA sequencing. Six populations of ADSCs were identified and segregated according to their anatomical origin. The three ADSC subpopulations in GF AT were characterized by strong cholesterol/fatty acid (FA) storage and proliferation signatures. The two ABD subpopulations, differentiated by higher expression of committed preadipocyte marker genes, were set apart by differential expression of extracellular matrix and ribosomal genes. The last population, identified in both depots, was similar to smooth muscle cells and when individually isolated and cultured in vitro they differentiated less than the other subpopulations. This work provides important insight into the use of ADSC as an in vitro model of adipogenesis and suggests that specific subpopulations of GF-ADSCs contribute to the more robust capacity for GF-AT to expand and grow compared with ABD-AT in women. NEW & NOTEWORTHY: Identification of distinct subpopulations of adipose-derived stem cells (ADSCs) in upper body abdominal subcutaneous (ABD) and lower body gluteofemoral subcutaneous (GF) adipose tissue depots. In ABD-ADSCs, subpopulations are more committed to adipocyte lineage. GF-ADSC subpopulations are enriched for genes involved in lipids and cholesterol metabolism. Similar depot differences were found in stem cell population identified in freshly isolated stoma vascular fraction. The repertoire of ADSCs subpopulations was different in apple-shaped versus pear-shaped women. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Skeletal muscle overexpression of nicotinamide phosphoribosyl transferase in mice coupled with voluntary exercise augments exercise endurance

Author

Costford, Sheila R., Brouwers, Bram, Hopf, Meghan E., Sparks, Lauren M., Dispagna, Mauro, Gomes, Ana P., Cornnell, Heather H., Petucci, Chris, Phelan, Peter, Xie, Hui, Yi, Fanchao, Walter, Glenn A., Osborne, Timothy F., Sinclair, David A., Mynatt, Randall L., Ayala, Julio E., Gardell, Stephen J., and Smith, Steven R.

Published
2018
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16. Transcriptional Control of Subcutaneous Adipose Tissue by the Transcription Factor CTCF Modulates Heterogeneity in Fat Distribution in Women.

Author

Erdos, Edina, Sandor, Katalin, Young-Erdos, Crystal L., Halasz, Laszlo, Smith, Steven R., Osborne, Timothy F., and Divoux, Adeline

Subjects
TRANSCRIPTION factors, FAT, OVERWEIGHT women, FUNCTIONAL genomics, GENE expression, BINDING sites, ADIPOSE tissues
Abstract

Determining the mechanism driving body fat distribution will provide insights into obesity-related health risks. We used functional genomics tools to profile the epigenomic landscape to help infer the differential transcriptional potential of apple- and pear-shaped women's subcutaneous adipose-derived stem cells (ADSCs). We found that CCCTC-binding factor (CTCF) expression and its chromatin binding were increased in ADSCs from pear donors compared to those from apple donors. Interestingly, the pear enriched CTCF binding sites were located predominantly at the active transcription start sites (TSSs) of genes with active histone marks and YY1 motifs and were also associated with pear enriched RNAPII binding. In contrast, apple enriched CTCF binding sites were mainly found at intergenic regions and when identified at TSS, they were enriched with the bivalent chromatin signatures. Altogether, we provide evidence that CTCF plays an important role in differential regulation of subcutaneous ADSCs gene expression and may influence the development of apple vs. pear body shape. [ABSTRACT FROM AUTHOR]

Published
2024
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17. An Atlas of Promoter Chromatin Modifications and HiChIP Regulatory Interactions in Human Subcutaneous Adipose-Derived Stem Cells.

Author

Halasz, Laszlo, Divoux, Adeline, Sandor, Katalin, Erdos, Edina, Daniel, Bence, Smith, Steven R., and Osborne, Timothy F.

Subjects
STEM cells, EPIGENOMICS, ABDOMINAL adipose tissue, HUMAN stem cells, SOCIAL interaction, GENE expression
Abstract

The genome of human adipose-derived stem cells (ADSCs) from abdominal and gluteofemoral adipose tissue depots are maintained in depot-specific stable epigenetic conformations that influence cell-autonomous gene expression patterns and drive unique depot-specific functions. The traditional approach to explore tissue-specific transcriptional regulation has been to correlate differential gene expression to the nearest-neighbor linear-distance regulatory region defined by associated chromatin features including open chromatin status, histone modifications, and DNA methylation. This has provided important information; nonetheless, the approach is limited because of the known organization of eukaryotic chromatin into a topologically constrained three-dimensional network. This network positions distal regulatory elements in spatial proximity with gene promoters which are not predictable based on linear genomic distance. In this work, we capture long-range chromatin interactions using HiChIP to identify remote genomic regions that influence the differential regulation of depot-specific genes in ADSCs isolated from different adipose depots. By integrating these data with RNA-seq results and histone modifications identified by ChIP-seq, we uncovered distal regulatory elements that influence depot-specific gene expression in ADSCs. Interestingly, a subset of the HiChIP-defined chromatin loops also provide previously unknown connections between waist-to-hip ratio GWAS variants with genes that are known to significantly influence ADSC differentiation and adipocyte function. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Carbon dioxide regulates cholesterol levels through SREBP2.

Author

Bolshette, Nityanand, Ezagouri, Saar, Dandavate, Vaishnavi, Karavaeva, Iuliia, Golik, Marina, Wang, Hu, Espenshade, Peter J., Osborne, Timothy F., Han, Xianlin, and Asher, Gad

Subjects
CARBON dioxide, ENDOPLASMIC reticulum, CHOLESTEROL, CELLULAR signal transduction
Abstract

In mammals, O2 and CO2 levels are tightly regulated and are altered under various pathological conditions. While the molecular mechanisms that participate in O2 sensing are well characterized, little is known regarding the signaling pathways that participate in CO2 signaling and adaptation. Here, we show that CO2 levels control a distinct cellular transcriptional response that differs from mere pH changes. Unexpectedly, we discovered that CO2 regulates the expression of cholesterogenic genes in a SREBP2-dependent manner and modulates cellular cholesterol accumulation. Molecular dissection of the underlying mechanism suggests that CO2 triggers SREBP2 activation through changes in endoplasmic reticulum (ER) membrane cholesterol levels. Collectively, we propose that SREBP2 participates in CO2 signaling and that cellular cholesterol levels can be modulated by CO2 through SREBP2. In mammals, oxygen and carbon dioxide levels are tightly regulated and are altered under various pathological conditions, but little is known regarding the pathways involved in CO2 signaling and adaptation. This study provides new insight into the interaction between carbon dioxide, SREBP2 activation and regulation of cholesterol levels, suggesting that cellular cholesterol levels can be modulated by carbon dioxide through SREBP2. [ABSTRACT FROM AUTHOR]

Published
2023
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34. SREBP-2 regulates gut peptide secretion through intestinal bitter taste receptor signaling in mice

Author

Jeon, Tae-II, Zhu, Bing, Larson, Jarrod L., and Osborne, Timothy F.

Subjects
Gene expression -- Research, Low-cholesterol diet -- Health aspects, Taste buds -- Health aspects, Taste buds -- Genetic aspects, Taste buds -- Research
Abstract

Bitter taste--sensing G protein--coupled receptors (type 2 taste receptors [T2Rs]) are expressed in taste receptor cells of the tongue, where they play an important role in limiting ingestion of bitter-tasting, potentially toxic compounds. T2Rs are also expressed in gut-derived enteroendocrine cells, where they have also been hypothesized to play a role in limiting toxin absorption. In this study, we have shown that T2R gene expression in both cultured mouse enteroendocrine cells and mouse intestine is regulated by the cholesterol-sensitive SREBP-2. In addition, T2R stimulation of cholecystokinin (CCK) secretion was enhanced directly by SREBP-2 in cultured cells and in mice fed chow supplemented with lovastatin and ezetimibe (L/E) to decrease dietary sterol absorption and increase nuclear activity of SREBP-2. Low-cholesterol diets are naturally composed of high amounts of plant matter that is likely to contain dietary toxins, and CCK is known to improve dietary absorption of fats, slow gastric emptying, and decrease food intake. Thus, these studies suggest that SREBP-2 activation of bitter signaling receptors in the intestine may sensitize the gut to a low-fat diet and to potential accompanying food-borne toxins that make it past the initial aversive response in the mouth., Introduction In mammals, the sense of taste has been divided into 5 different modalities: bitter, sweet, sour, salty, and umami. Of these, bitter perception has a particularly important role in [...]

Published
2008

35. Parasympathetic response in chick myocytes and mouse heart is controlled by SREBP

Author

Park, Ho-Jin, Georgescu, Serban P., Du, Chuang, Madias, Christopher, Aronovitz, Mark J., Welzig, C. Michael, Wang, Bo, Begley, Ulrike, Zhang, Yali, Blaustein, Robert O., Patten, Richard D., Karas, Richard H., Van Tol, Herbert H., Osborne, Timothy F., Shimano, Hitoshi, Liao, Ronglih, Link, Mark S., and Galper, Jonas B.

Subjects
Arrhythmia -- Complications and side effects, Arrhythmia -- Research, Lipid metabolism -- Health aspects, Lipid metabolism -- Research, Nervous system, Parasympathetic -- Health aspects, Nervous system, Parasympathetic -- Research
Abstract

Parasympathetic stimulation of the heart, which provides protection from arrhythmias and sudden death, involves activation of the G protein--coupled inward rectifying [K.sup.+] channel GIRK1/4 and results in an acetylcholine-sensitive [K.sup.+] current, [I.sub.KACh]. We describe a unique relationship between lipid homeostasis, the lipid-sensitive transcription factor SREBP-1, regulation of the cardiac parasympathetic response, and the development of ventricular arrhythmia. In embryonic chick atrial myocytes, lipid lowering by culture in lipoprotein-depleted serum increased SREBP-1 levels, GIRK1 expression, and [I.sub.KACh] activation. Regulation of the GIRK1 promoter by SREBP-1 and lipid lowering was dependent on interaction with 2 tandem sterol response elements and an upstream E-box motif. Expression of dominant negative SREBP-1 (DN--SREBP-1) reversed the effect of lipid lowering on [I.sub.KACh] and GIRK1. In SREBP-1 knockout mice, both the response of the heart to parasympathetic stimulation and the expression of GIRK1 were reduced compared with WT. [I.sub.KACh], attenuated in atrial myocytes from SREBP-1 knockout mice, was stimulated by SREBP-1 expression. Following myocardial infarction, SREBP-1 knockout mice were twice as likely as WT mice to develop ventricular tachycardia in response to programmed ventricular stimulation. These results demonstrate a relationship between lipid metabolism and parasympathetic response that may play a role in arrhythmogenesis., Introduction The balance between the response of the heart to sympathetic and parasympathetic stimuli not only determines the rate and force of contraction but also plays a role in regulating [...]

Published
2008

36. Soy isoflavones affect sterol regulatory element binding proteins (SREBPs) and SREBP-regulated genes in HepG2 cells

Author

Mullen, Eimear, Brown, Rachel M., Osborne, Timothy F., and Shay, Neil F.

Subjects
Soyfoods -- Health aspects, Cholesterol -- Care and treatment, Food/cooking/nutrition
Abstract

Soy intake reduces cholesterol levels. However, both the identity of the soy component or components that contribute to this reduction and the cellular mechanism producing this reduction are unknown. Soy consists of protein, lipids, fiber, and phytochemicals including isoflavones. We propose that the isoflavone component of soy mediates this effect, at least in part, by affecting cellular sterol homeostasis. We investigated the effects of an isoflavone-containing soy extract and the individual isoflavones on the maturation of the sterol regulatory element binding proteins (SREBP) and the expression of SRE-regulated genes controlling lipid metabolism. We found a corresponding increase in the mature form of SREBP-2 in both soy extract- and isoflavone-treated 'HepG2 cells, whereas there was no significant change in the levels of SREBP-1. 3-Hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase protein and HMG CoA synthase mRNA levels also increased. When HepG2 cells were transiently transfected with HMG CoA synthase and LDL receptor reporter plasmids there was an increase in expression in response to soy extract or isoflavone treatment from both of these promoters, but this induction was blunted in the presence of sterols (P < 0.05). The mechanism responsible for this effect may be via a statin-like inhibition of HMG CoA reductase enzyme activity or by enhanced SREBP processing via the SREBP cleavage activating protein. We hypothesize that maturation of SREBP and induction of SRE-regulated genes produce an increase in surface LDL receptor expression that increases the clearance of plasma cholesterol, thus decreasing plasma cholesterol levels. J. Nutr. 134: 2942-2947, 2004. KEY WORDS: * soy isoflavones * cardiovascular disease * SREBP * HMG CoA synthase * LDL receptor

Published
2004

38. CREating a SCAP-less liver keeps SREBPs pinned in the ER membrane and prevents increased lipid synthesis in response to low cholesterol and high insulin

Author

Osborne, Timothy F.

Subjects
Cytochemistry -- Research, Endoplasmic reticulum -- Genetic aspects, Liver -- Genetic aspects, Carrier proteins -- Physiological aspects, Lipid metabolism -- Physiological aspects, Mammals -- Physiological aspects, Cholesterol -- Physiological aspects, Homeostasis -- Physiological aspects, Biological sciences
Abstract

A brief overview of the sterol regulatory element binding proteins (SREBPs) pathway is given with information on SCAP in this perspective article. SREBP cleavage activation protein (SCAP), regulated by sterols, escorts SREBPs from one cellular compartment to another.

Published
2001

43. DNA Methylation as a Marker of Body Shape in Premenopausal Women.

Author

Divoux, Adeline, Eroshkin, Alexey, Erdos, Edina, Sandor, Katalin, Osborne, Timothy F., and Smith, Steven R.

Subjects
DNA methylation, GENETIC markers, FAT, BODY composition, ADIPOSE tissues
Abstract

Preferential accumulation of fat in the gluteo-femoral (GF) depot (pear shape) rather than in the abdominal (A) depot (apple shape), protects against the development of metabolic diseases but the underlying molecular mechanism is still unknown. Recent data, including our work, suggest that differential epigenetic marking is associated with regulation of genes attributed to distinct fat distribution. Here, we aimed to compare the genomic DNA methylation signatures between apple and pear-shaped premenopausal women. To investigate the contribution of upper and lower body fat, we used paired samples of A-FAT and GF-FAT, analyzed on the BeadChip Methylation Array and quantified the differentially methylated sites between the 2 groups of women. We found unique DNA methylation patterns within both fat depots that are significantly different depending on the body fat distribution. Around 60% of the body shape specific DNA methylation sites identified in adipose tissue are maintained ex vivo in cultured preadipocytes. As it has been reported before in other cell types, we found only a hand full of genes showing coordinated differential methylation and expression levels. Finally, we determined that more than 50% of the body shape specific DNA methylation sites could also be detected in whole blood derived DNA. These data reveal a strong DNA methylation program associated with adipose tissue distribution with the possibility that a simple blood test could be used as a predictive diagnostic indicator of young women who are at increased risk for progressing to the apple body shape with a higher risk of developing obesity related complications. Clinical Trial Registration: https://clinicaltrials.gov/ct2/show/NCT02728635 and https://clinicaltrials.gov/ct2/show/NCT02226640, identifiers NCT02728635 and NCT02226640. [ABSTRACT FROM AUTHOR]

Published
2021
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44. Ubiquitination‐dependent and ‐independent repression of target genes by SETDB1 reveal a context‐dependent role for its methyltransferase activity during adipogenesis.

Author

Zhang, Ji, Matsumura, Yoshihiro, Kano, Yuka, Yoshida, Ayano, Kawamura, Takeshi, Hirakawa, Hiroyuki, Inagaki, Takeshi, Tanaka, Toshiya, Kimura, Hiroshi, Yanagi, Shigeru, Fukami, Kiyoko, Doi, Takefumi, Osborne, Timothy F., Kodama, Tatsuhiko, Aburatani, Hiroyuki, and Sakai, Juro

Subjects
HUMAN embryonic stem cells, HUMAN endogenous retroviruses, GENE silencing, ADIPOGENESIS, ENDOGENOUS retroviruses, HISTONE methylation
Abstract

The lysine methyltransferase SETDB1, an enzyme responsible for methylation of histone H3 at lysine 9, plays a key role in H3K9 tri‐methylation‐dependent silencing of endogenous retroviruses and developmental genes. Recent studies have shown that ubiquitination of human SETDB1 complements its catalytic activity and the silencing of endogenous retroviruses in human embryonic stem cells. However, it is not known whether SETDB1 ubiquitination is essential for its other major role in epigenetic silencing of developmental gene programs. We previously showed that SETDB1 contributes to the formation of H3K4/H3K9me3 bivalent chromatin domains that keep adipogenic Cebpa and Pparg genes in a poised state for activation and restricts the differentiation potential of pre‐adipocytes. Here, we show that ubiquitin‐resistant K885A mutant of SETDB1 represses adipogenic genes and inhibits pre‐adipocyte differentiation similar to wild‐type SETDB1. We show this was due to a compensation mechanism for H3K9me3 chromatin modifications on the Cebpa locus by other H3K9 methyltransferases Suv39H1 and Suv39H2. In contrast, the K885A mutant did not repress other SETDB1 target genes such as Tril and Gas6 suggesting SETDB1 represses its target genes by two mechanisms; one that requires its ubiquitination and another that still requires SETDB1 but not its enzyme activity. [ABSTRACT FROM AUTHOR]

Published
2021
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45. Genome-wide analysis of hepatic LRH-1 reveals a promoter binding preference and suggests a role in regulating genes of lipid metabolism in concert with FXR

Author

Chong Hansook, Biesinger Jacob, Seo Young-Kyo, Xie Xiaohui, and Osborne Timothy F

Subjects
LRH-1, FXR, ChIP-seq, lipid metabolism, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background In a previous genome-wide analysis of FXR binding to hepatic chromatin, we noticed that an extra nuclear receptor (NR) half-site was co-enriched close to the FXR binding IR-1 elements and we provided limited support that the monomeric LRH-1 receptor that binds to NR half-sites might function together with FXR to activate gene expression. Results To analyze the global pattern for LRH-1 binding and to determine whether it might associate with FXR on a whole genome-wide scale, we analyzed LRH-1 binding to the entire hepatic genome using a non-biased genome-wide ChIP-seq approach. We identified over 10,600 LRH-1 binding sites in hepatic chromatin and over 20% were located within 2 kb of the 5' end of a known mouse gene. Additionally, the results demonstrate that a significant fraction of the genome sites occupied by LRH-1 are located close to FXR binding sites revealed in our earlier study. A Gene ontology analysis revealed that genes preferentially enriched in the LRH-1/FXR overlapping gene set are related to lipid metabolism. These results demonstrate that LRH-1 recruits FXR to lipid metabolic genes. A significant fraction of FXR binding peaks also contain a nuclear receptor half-site that does not bind LRH-1 suggesting that additional monomeric nuclear receptors such as RORs and NR4As family members may also target FXR to other pathway selective genes related to other areas of metabolism such as glucose metabolism where FXR has also been shown to play an important role. Conclusion These results document an important role for LRH-1 in hepatic metabolism through acting predominantly at proximal promoter sites and working in concert with additional nuclear receptors that bind to neighboring sites

Published
2012
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47. Fat Distribution in Women Is Associated With Depot-Specific Transcriptomic Signatures and Chromatin Structure.

Author

Divoux, Adeline, Sandor, Katalin, Bojcsuk, Dora, Yi, Fanchao, Hopf, Meghan E, Smith, Joshua S, Balint, Balint L, Osborne, Timothy F, and Smith, Steven R

Subjects
FAT, HUMAN chromatin, METABOLIC syndrome
Abstract

Background Preferential accumulation of fat in the upper body (apple shape) is associated with higher risk of developing metabolic syndrome relative to lower body fat (pear shape). We previously discovered that chromatin openness partially defined the transcriptome of preadipocytes isolated from abdominal and gluteofemoral fat. However, the molecular mechanisms underlying interindividual variation in body shape are unknown. Methods Adipocyte fraction was isolated from abdominal and gluteofemoral fat biopsies of premenopausal women (age and body mass index matched) segregated initially only by their waist-to-hip ratio. We evaluated transcriptomic and chromatin accessibility using RNA sequencing and assay for transposase-accessible chromatin using sequencing (ATAC-seq) along with key clinical parameters. Results Our data showed that higher lower body fat mass was associated with better lipid profile and free fatty acid decrease after glucose administration. Lipid and glucose metabolic pathways genes were expressed at higher levels in gluteofemoral adipocyte fraction in pears, whereas genes associated with inflammation were higher both in abdominal and gluteofemoral apple adipocyte fraction. Gluteofemoral adipocyte chromatin from pear-shaped women contained a significantly higher number of differentially open ATAC-seq peaks relative to chromatin from the apple-shaped gluteofemoral adipocytes. In contrast, abdominal adipocyte chromatin openness showed few differences between apple- and pear-shaped women. We revealed a correlation between gene transcription and open chromatin at the proximity of the transcriptional start site of some of the differentially expressed genes. Conclusions Integration of data from all 3 approaches suggests that chromatin openness partially governs the transcriptome of gluteofemoral adipocytes and may be involved in the early metabolic syndrome predisposition associated with body shape. [ABSTRACT FROM AUTHOR]

Published
2020
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48. Inflammation triggers liver X receptor-dependent lipogenesis.

Author

Liebergall, Sophie R., Angdisen, Jerry, Shun Hang Chan, YingJu Chang, Osborne, Timothy F., Koeppel, Alexander F., Turner, Stephen D., and Schulman, Ira G.

Subjects
HEPATITIS, NUCLEAR receptors (Biochemistry), LIPID synthesis, TYPE I interferons, CELL physiology, TOLL-like receptors, CHOLESTEROL content of food, LIPID metabolism
Abstract

Immune cell function can be modulated by changes in lipid metabolism. Our studies indicate that cholesterol and fatty acid synthesis increases in macrophages between and hours after the activation of toll-like receptors with pro-inflammatory stimuli and that up regulation of lipogenesis may contribute to the resolution of inflammation. The inflammation dependent increase in lipogenesis requires induction of the liver X receptors, members of the nuclear receptor superfamily of transcription factors, by type I interferons in response to inflammatory signals. Instead of the well-established role for liver X receptors in stimulating cholesterol efflux, we demonstrate that liver X receptors are necessary for the proper resumption of cholesterol synthesis in response to inflammatory signals. Thus, liver X receptors function as bidirectional regulators of cholesterol homeostasis driving efflux when cholesterol levels are high and facilitating synthesis in response to inflammatory signals. Liver X receptor activity is also required for the proper shutdown of a subset of type I interferon-stimulated genes as inflammation subsides, placing the receptors in a negative feedback loop that may contribute to resolution of the inflammatory response. [ABSTRACT FROM AUTHOR]

Published
2020
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50. SREBP-1a-stimulated lipid synthesis is required for macrophage phagocytosis downstream of TLR4-directed mTORC1.

Author

Jae-Ho Lee, Phelan, Peter, Minsang Shin, Byung-Chul Oh, Xianlin Han, Seung-Soon Im, and Osborne, Timothy F.

Subjects
STEROL regulatory element-binding proteins, PHAGOCYTOSIS, LIPID synthesis, MACROPHAGES, CYTOSKELETON, PROTEIN expression, LIPID metabolism
Abstract

There is a growing appreciation for a fundamental connection between lipid metabolism and the immune response. Macrophage phagocytosis is a signature innate immune response to pathogen exposure, and cytoplasmic membrane expansion is required to engulf the phagocytic target. The sterol regulatory element binding proteins (SREBPs) are key transcriptional regulatory proteins that sense the intracellular lipid environment and modulate expression of key genes of fatty acid and cholesterol metabolism to maintain lipid homeostasis. In this study, we show that TLR4-dependent stimulation of macrophage phagocytosis requires mTORC1-directed SREBP-1a-dependent lipid synthesis. We also show that the phagocytic defect in macrophages from SREBP-1a-deficient mice results from decreased interaction between membrane lipid rafts and the actin cytoskeleton, presumably due to reduced accumulation of newly synthesized fatty acyl chains within major membrane phospholipids. We show that mTORC1-deficient macrophages also have a phagocytic block downstream from TLR4 signaling, and, interestingly, the reduced level of phagocytosis in both SREBP-1a- and mTORC1-deficient macrophages can be restored by ectopic SREBP-1a expression. Taken together, these observations indicate SREBP-1a is a major downstream effector of TLR4-mTORC1 directed interactions between membrane lipid rafts and the actin cytoskeleton that are required for pathogen-stimulated phagocytosis in macrophages. [ABSTRACT FROM AUTHOR]

Published
2018
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