The Obesity-Associated<i>FTO</i>Gene Encodes a 2-Oxoglutarate-Dependent Nucleic Acid Demethylase

Gerken, Thomas A.; Girard, Christophe A.; Tung, Yi-Chun Loraine; Webby, Celia J.; Saudek, Vladimı́r; Hewitson, Kirsty S.; Yeo, Giles S.H.; McDonough, Michael A.; Cunliffe, Sharon L.; McNeill, Luke A.; Galvanovskis, Juris; Rorsman, Patrik; Robins, Peter; Prieur, Xavier; Coll, Anthony P.; Ma, Marcella; Jovanović, Zorica; Farooqi, I. Sadaf; Sedgwick, Barbara; Barroso, Inês; Lindahl, Tomas; Ponting, Chris P.; Ashcroft, Frances M.; O’Rahilly, Stephen; Schofield, Christopher J.

doi:10.1126/science.1151710

Cited by 1,337 publications

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“…Working together with Tomas Lindahl from the Cancer Research UK labs at South Mimms, UK, and later with Chris Schofield, Chris Ponting, and Fran Ashcroft from Oxford, who had independently spotted the homology, we established unequivocally that FTO was a member of this family of enzymes and was capable of demethylating specific forms of nucleic acid. 48 We also showed that FTO was particularly highly expressed in hypothalamic nuclei concerned with energy balance and, in at least one of those nuclei (the arcuate), that feeding and fasting influence its expression. Although the link between nucleic acid demethylase activity of FTO and its role in obesity is still entirely obscure, the fact that FTO is highly expressed in the hypothalamus and is nutritionally regulated there suggests that it may also play a role in the 'hypothalamic setpoint' of appetite and satiety.…”

Section: Discussionmentioning

confidence: 62%

Human obesity as a heritable disorder of the central control of energy balance

O’Rahilly

Farooqi

2008

Int J Obes

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In the spirit of celebration associated with the 20th anniversary of the Pennington Biomedical Research Center, we have seized the opportunity of taking a highly personal and not at all comprehensive 'whistle-stop tour' of a large body of evidence that, we feel, supports the following conclusions: (1) that body fat stores are regulated by biological control processes in humans as they are in lower animals; (2) that there are major inherited influences on the efficiency whereby such control processes operate in humans; (3) that the precise nature of those genetic and biological influences and how they interact with environmental factors are beginning to be understood; (4) that most of the genes discovered thus far have their principal impact on hunger, satiety and food intake; (5) that while there is understandable resistance to the notion that genes can influence a human behavior such as the habitual ingestion of food, the implications of these discoveries are essentially benign. Indeed, we hope that they may eventually lead to improved treatment for patients and, in addition, help to inculcate a more enlightened attitude to the obese with a reduction in their experience of social and economic discrimination.

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Section: Discussionmentioning

confidence: 62%

Human obesity as a heritable disorder of the central control of energy balance

O’Rahilly

Farooqi

2008

Int J Obes

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“…Transgenic larvae with this BAC inserted in their genomes had weak ubiquitous expression that appeared strongest in the eye and in muscle fibers. This is in line with in situ hybridization analyses showing that mouse Fto has low‐level ubiquitous expression (Gerken et al ., 2007; Smemo et al ., 2014). The BAC transgene also confirmed an earlier result with a very similar BAC construct, showing that replacing the first exon of Fto with a lacZ cassette recapitulated the endogenous Fto expression pattern (Smemo et al ., 2014).…”

Section: Resultsmentioning

confidence: 99%

BAC transgenic zebrafish reveal hypothalamic enhancer activity around obesity associated SNP rs9939609 within the human FTO gene

Rinkwitz

Geng

Manning

et al. 2015

Genesis

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SummarySingle Nucleotide Polymorphisms in FTO intron 1 have been associated with obesity risk, leading to the hypothesis that FTO is the obesity‐related gene. However, other studies have shown that the FTO gene is part of the regulatory domain of the neighboring IRX3 gene and that enhancers in FTO intron 1 regulate IRX3. While Irx3 activity was shown to be necessary in the hypothalamus for the metabolic function of Irx3 in mouse, no enhancers with hypothalamic activity have been demonstrated in the risk‐associated region within FTO. In order to identify potential enhancers at the human FTO locus in vivo, we tested regulatory activity in FTO intron 1 using BAC transgenesis in zebrafish. A minimal gata2 promoter‐GFP cassette was inserted 1.3 kb upstream of the obesity associated SNP rs9939609 in a human FTO BAC plasmid. In addition to the previously identified expression domains in notochord and kidney, human FTO BAC:GFP transgenic zebrafish larvae expressed GFP in the ventral posterior tuberculum, the posterior hypothalamus and the anterior brainstem, which are also expression domains of zebrafish irx3a. In contrast, an in‐frame insertion of a GFP cassette at the FTO start codon resulted in weak ubiquitous GFP expression indicating that the promoter of FTO does likely not react to enhancers located in the obesity risk‐associated region. genesis 53:640–651, 2015. © 2015 The Authors. genesis Published by Wiley Periodicals, Inc.

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“…Modification of brain RNA in wild-type and Fto-knockout mice As shown by Gerken et al, 12 3-methyl-uracil and 3-methyl-thymine in single-stranded RNA and DNA, respectively, are the preferred in vitro substrates of mouse and human Fto/FTO. Given that RNA Total RNA from whole brains of wild-type and Fto À/ À mice was prepared and separated into two fractions: large RNAs (4200 bases) and small (o 200 bases) RNAs.…”

Section: Subcellular Localization Of Ftomentioning

confidence: 95%

FTO levels affect RNA modification and the transcriptome

et al. 2012

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A block of single-nucleotide polymorphisms within intron 1 of the FTO (fat mass and obesity associated) gene is associated with variation in body weight. Previous works suggest that increased expression of FTO, which encodes a 2-oxoglutaratedependent nucleic acid demethylase, leads to increased body weight, although the underlying mechanism has remained unclear. To elucidate the function of FTO, we examined the consequences of altered FTO levels in cultured cells and murine brain. Here we show that a knockdown of FTO in HEK293 cells affects the transcripts levels of genes involved in the response to starvation, whereas overexpression of FTO affects the transcript levels of genes related to RNA processing and metabolism. Subcellular localization of FTO further strengthens the latter notion. Using immunocytochemistry and confocal laser scanning microscopy, we detected FTO in nuclear speckles and -to a lesser and varying extent -in the nucleoplasm and nucleoli of HEK293, HeLa and MCF-7 cells. Moreover, RNA modification analyses revealed that loss of Fto affects the 3-methyluridine/ uridine and pseudouridine/uridine ratios in total brain RNA. We conclude that altered levels of FTO have multiple and diverse consequences on RNA modifications and the transcriptome. Keywords: FTO; RNA modifications; nuclear speckles; transcriptome INTRODUCTION Genome-wide association studies have revealed a strong association between a block of single-nucleotide polymorphisms (SNPs) in intron 1 of the fat mass and obesity-associated (FTO) gene, body mass index and other obesity-related traits in children and adults of different populations. 1-3 Stratigopoulos et al 4 have suggested that one of the SNPs (rs8050136) affects binding of the transcriptional regulator CUX1. By studying allelic expression levels in heterozygous individuals, we have found that the risk allele of the FTO gene makes more transcripts and have proposed that increased expression of the FTO gene leads to increased body weight. 5 This hypothesis is supported by the clinical findings in rare patients and in mouse models with an FTO/Fto mutation. Homozygous loss-of-function of FTO was reported to cause severe growth retardation and multiple malformations, 6 whereas a duplication of FTO was found to be associated with morbid obesity. 7 Fto-knockout mice 8 and mice with a missense mutation in exon 6 9 showed leanness, postnatal growth retardation and a higher metabolic rate. Mice with one or two additional copies of Fto had a gene-dosage-dependent increase in body weight. 10 FTO is a member of non-heme Fe(II)-and a-ketoglutaratedependent oxygenase superfamily and is found in vertebrates and green algea, but not in invertebrate animals, fungi and green plants. 11 By in vitro studies, FTO was shown to function as a demethylase with a strong preference for 3meU and 3meT in single-stranded RNA and DNA, respectively. 12,13 Han et al 14 have provided structural evidence for understanding the substrate specificity of FTO and have suggested

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The Obesity-AssociatedFTOGene Encodes a 2-Oxoglutarate-Dependent Nucleic Acid Demethylase

Cited by 1,337 publications

References 28 publications

Human obesity as a heritable disorder of the central control of energy balance

Human obesity as a heritable disorder of the central control of energy balance

BAC transgenic zebrafish reveal hypothalamic enhancer activity around obesity associated SNP rs9939609 within the human FTO gene

FTO levels affect RNA modification and the transcriptome

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