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19. The lipid sensor GPR120 promotes brown fat activation and FGF21 release from adipocytes

Author

Quesada-López, Tania, Cereijo, Rubén, Turatsinze, Jean-Valery, Planavila, Anna, Cairó, Montserrat, Gavaldà-Navarro, Aleix, Peyrou, Marion, Moure, Ricardo, Iglesias, Roser, Giralt, Marta, Eizirik, Decio L., and Villarroya, Francesc

Subjects
Mice, Knockout, Physique, Adipose Tissue, White, Science, Astronomie, p38 Mitogen-Activated Protein Kinases, Article, Receptors, G-Protein-Coupled, Up-Regulation, Cold Temperature, Fibroblast Growth Factors, Technologie de l'environnement, contrôle de la pollution, Methylamines, Mice, Adipose Tissue, Brown, Eicosapentaenoic Acid, Gene Expression Regulation, Fatty Acids, Omega-3, Adipocytes, Chimie, Animals, Propionates, Cells, Cultured, Body Temperature Regulation
Abstract

The thermogenic activity of brown adipose tissue (BAT) and browning of white adipose tissue are important components of energy expenditure. Here we show that GPR120, a receptor for polyunsaturated fatty acids, promotes brown fat activation. Using RNA-seq to analyse mouse BAT transcriptome, we find that the gene encoding GPR120 is induced by thermogenic activation. We further show that GPR120 activation induces BAT activity and promotes the browning of white fat in mice, whereas GRP120-null mice show impaired cold-induced browning. Omega-3 polyunsaturated fatty acids induce brown and beige adipocyte differentiation and thermogenic activation, and these effects require GPR120. GPR120 activation induces the release of fibroblast growth factor-21 (FGF21) by brown and beige adipocytes, and increases blood FGF21 levels. The effects of GPR120 activation on BAT activation and browning are impaired in FGF21-null mice and cells. Thus, the lipid sensor GPR120 activates brown fat via a mechanism that involves induction of FGF21., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2016

30. Pharmacological and gene modification-based models for studying the impacto of perinatal metabolic disturbances in adult life

Author

Villarroya, Francesc., Bocos, Carlos., Ramos, Pilar., Herrera Castillón, Emilio., Sevilla, Julio., Gual, Margalida., Rosell, Meritxell., and Iglesias, Roser.

Subjects
Neonate, Fetus, Fatty acids, Insulin sensitivity, Peroxisome proliferator-activated receptor, Thiazolidinedione
Abstract

En: Early nutrition programming and health : outcomes in latter life. London : Springer Science, 2009. p. 141-148 ISBN. 9781402091735

Published
2009

31. PPARs in the Control of Uncoupling Proteins Gene Expression

Author

Villarroya, Francesc, Iglesias, Roser, and Giralt, Marta

Subjects
Article Subject
Abstract

Uncoupling proteins (UCPs) are mitochondrial membrane transporters involved in the control of energy conversion in mitochondria. Experimental and genetic evidence relate dysfunctions of UCPs with metabolic syndrome and obesity. The PPAR subtypes mediate to a large extent the transcriptional regulation of the UCP genes, with a distinct relevance depending on the UCP gene and the tissue in which it is expressed. UCP1 gene is under the dual control of PPARγ and PPARα in relation to brown adipocyte differentiation and lipid oxidation, respectively. UCP3 gene is regulated by PPARα and PPARδ in the muscle, heart, and adipose tissues. UCP2 gene is also under the control of PPARs even in tissues in which it is the predominantly expressed UCP (eg, the pancreas and liver). This review summarizes the current understanding of the role of PPARs in UCPs gene expression in normal conditions and also in the context of type-2 diabetes or obesity.

Published
2007
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33. This title is unavailable for guests, please login to see more information.

Author

Hondares, Elayne, Rosell, Meritxell, Díaz Delfín, Julieta, Olmos Buchelt, Yolanda, Monsalve, María, Iglesias, Roser, Villarroya, Francesc, Giralt, Marta, Hondares, Elayne, Rosell, Meritxell, Díaz Delfín, Julieta, Olmos Buchelt, Yolanda, Monsalve, María, Iglesias, Roser, Villarroya, Francesc, and Giralt, Marta

Abstract

Depto. de Biología Celular, Fac. de Ciencias Biológicas, TRUE, pub

Published
2011

35. Defective thermoregulation, impaired lipid metabolism, but preserved adrenergic induction of gene expression in brown fat of mice lacking C/EBPβ

Author

CARMONA, M. Carmen, primary, HONDARES, Elayne, additional, RODRÍGUEZ DE LA CONCEPCIÓN, M. Luisa, additional, RODRÍGUEZ-SUREDA, Víctor, additional, PEINADO-ONSURBE, Julia, additional, POLI, Valeria, additional, IGLESIAS, Roser, additional, VILLARROYA, Francesc, additional, and GIRALT, Marta, additional

Published
2005
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38. Iodothyronine 5'-deiodinase activity and thyroid hormone content in brown adipose tissue during the breeding cycle of the rat

Author

Viñas, Octavi, Giralt, Marta, Obregón, María Jesús, Iglesias, Roser, Villaroya, Francesc, Mampel, Teresa, Viñas, Octavi, Giralt, Marta, Obregón, María Jesús, Iglesias, Roser, Villaroya, Francesc, and Mampel, Teresa

Abstract

Brown adipose tissue iodothyronine 5'-deiodinase activity is significantly lower in 17-day pregnant rats compared with virgin controls and remains low during late pregnancy and lactation. It fully recovers with abrupt weaning, but only partially with spontaneous weaning. Even though this profile of changes is remarkably in step with the known pattern of modifications in brown fat thermogenesis during the breeding cycle, the lowered iodothyronine 5'-deiodinase activity appearing between days 15 and 17 of pregnancy occurs earlier than the reduction in brown adipose tissue thermogenesis. Brown fat 3,3',5-tri-iodothyronine content is also reduced in late pregnant, early and mid-lactating rats, most probably as a consequence of the lowered 5'-deiodination of thyroxine in situ. Acute insulin treatment increases brown fat iodothyronine 5'-deiodinase activity in virgin animals as well as in late-pregnant and lactating rats, despite the lowered basal enzyme activity levels in the latter groups. Thus an impaired response to insulin in brown fat does not appear to be a factor leading to the lowered iodothyronine 5'-deiodinase activity during late pregnancy and lactation.

Published
1998

43. Dominant Negative Regulation by c-Jun of Transcription of the Uncoupling Protein-1 Gene through a Proximal cAMP-Regulatory Element: A Mechanism for Repressing Basal and Norepinephrine-Induced Expression of the Gene before Brown Adipocyte Differentiation

Author

Yubero, Pilar, primary, Barberá, MaJosé, additional, Alvarez, Rosa, additional, Viñas, Octavi, additional, Mampel, Teresa, additional, Iglesias, Roser, additional, Villarroya, Francesc, additional, and Giralt, Marta, additional

Published
1998
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49. Mitochondrial biogenesis and thyroid status maturation in brown fat require CCAAT/enhancer-binding protein alpha.

Author

Carmona, M Carmen, Iglesias, Roser, Obregón, María-Jesús, Darlington, Gretchen J, Villarroya, Francesc, and Giralt, Marta

Abstract

Brown fat differentiation in mice is fully achieved in fetuses at term and entails the acquisition of not only adipogenic but also thermogenic and oxidative mitochondrial capacities. The present study of the mice homozygous for a deletion in the gene for CCAAT/enhancer-binding protein alpha (C/EBPalpha-null mice) demonstrates that C/EBPalpha is essential for all of these processes. Developing brown fat from C/EBPalpha-null mice showed a lack of uncoupling protein-1 expression, impaired adipogenesis, and reduced size and number of mitochondria per cell when compared with wild-type mice. Furthermore, immature mitochondrial morphology was found in brown fat, but not in liver or heart, from C/EBPalpha-null mice. Concordantly, expression of both nuclear and mitochondrial genome-encoded genes for mitochondrial proteins was reduced in C/EBPalpha-null brown fat, although expression of mitochondrial rRNA and mitochondrial DNA content were unaltered. Expression of nuclear respiratory factor-2, thyroid hormone nuclear receptors, and peroxisome proliferator-activated receptor gamma coactivator-1, was delayed in C/EBPalpha-null brown fat. Iodothyronine 5'-deiodinase activity and thyroid hormone content were also reduced in brown fat from C/EBPalpha-null mice, indicating for the first time a crucial role for C/EBPalpha in controlling thyroid status in developing brown fat, which may contribute to impaired mitochondrial biogenesis and cell differentiation. When survival of C/EBPalpha-null mice was achieved by transgenically expressing C/EBPalpha only in the liver, a substantial recovery in brown fat differentiation was found by day 7 of postnatal age, which is associated with a compensatory overexpression of C/EBPdelta and C/EBPbeta.

Published
2002
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50. Inhibition of Iodothyronine 5′Deiodinase by Iopanoic Acid Does Not Block Nuclear T3Accumulation During Rat Fetal Development

Author

TUCA, ALEX, GIRALT, MARTA, VILLARROYA, FRANCESC, VIÑAS, OCTAVI, MAMPEL, TERESA, and IGLESIAS, ROSER

Abstract

We studied the effect of iopanoic acid (IOP), an iodinated contrast medium, on iodothyronine 5′-deio-dinase (5'D) and nuclear T3 content (nT3) in fetal tissues. In 18− and 20 day-old fetuses from control dams, nT3was higher in interscapular brown adipose tissue (IBAT, 69 ± 5 and 281 ± 8 fmol/mg of DNA) than in brain (16 ± 2 and 42 ± 3 fmol/mg of DNA) or liver (5.6 ± 1 and 27 ± 2 fmol/mg of DNA). IOP administration (10 mg, twice daily) to pregnant rats on days 18 and 19 postconception significantly blocked 5'D activity in fetal IBAT and brain at day 20. Liver 5'D was not affected. The rise in nT3was not modified by IOP treatment in IBAT, but it was enhanced in brain and liver of IOP-treated fetuses on day 20. In contrast, in adult rats, IOP treatment reduced IBAT nT3. Prolongation of IOP treatment until day 21 decreased fetal body weight on day 22 and inhibited IBAT 5'D. No change was produced in mitochondrial oxidative capacity, the subunit II of cytochrome oxidase, or uncoupling protein mRNA expression in IBAT from IOP-treated fetuses. Thus, the finding that IOP does not decrease the nT3of fetal IBAT explains the lack of effect of IOP on uncoupling protein expression in fetuses, in contrast with the known decrease in adults. Present results also show that IOP increases nT3in brain and liver, indicating a general incapacity of IOP to decrease nT3in fetal tissues. It is concluded that the effects of IOP during fetal life differ from those in adults.

Published
1994

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