Top

Published in:

01-12-2013 | Eating Disorders (AS Kaplan, Section Editor)

Genetics of Eating Disorders

Authors: Anke Hinney, Anna-Lena Volckmar

Published in: Current Psychiatry Reports | Issue 12/2013

Abstract

Disordered eating behavior is the core symptom of the complex disorders anorexia nervosa and bulimia nervosa. Twin and family studies derive high heritability estimates. Hence, substantial genetic influences on the etiology can be assumed for both. Initially, candidate gene studies pertaining to the monoaminergic neurotransmitter systems and to body weight regulation comprised the core of the genetic analyses. Unfortunately, confirmed, solid findings substantiated in meta-analyses are rare, so that eventually none of these associations is unequivocal. Thus, systematic, genome-wide approaches emerged to identify genes with no a priori evidence for their involvement in eating disorders. Genome-wide association studies have hinted to formerly unknown genetic regions. However, significant genome-wide findings have not yet been reported.

American Psychiatric Association (APA). Diagnostic and statistical manual of mental disorders. 5th ed. Washington: APA; 2013.

World Health Organization (WHO). ICD-10. International classification of mental and behavioural disorders. Clinical description and diagnostic guidelines. Geneva: WHO; 1998.

Hoek HW. Incidence, prevalence and mortality of anorexia nervosa and other eating disorders. Curr Opin Psychiatry. 2006;19:389–94.PubMed

Hudson JI, Hiripi E, Pope Jr HG, et al. The prevalence and correlates of eating disorders in the National Comorbidity Survey Replication. Biol Psychiatry. 2007;61:348–58.PubMed

Smink FR, van Hoeken D, Hoek HW. Epidemiology of eating disorders: incidence, prevalence and mortality rates. Curr Psychiatry Rep. 2012;14:406–14.PubMed

Trace SE, Baker JH, Peñas-Lledó E, et al. The genetics of eating disorders. Annu Rev Clin Psychol. 2013;9:589–620.PubMed

Javaras KN, Laird NM, Reichborn-Kjennerud T, et al. Familiality and heritability of binge eating disorder: results of a case–control family study and a twin study. Int J Eat Disord. 2008;41:174–9.PubMed

Mitchell KS, Neale MC, Bulik CM, et al. Binge eating disorder: a symptom-level investigation of genetic and environmental influences on liability. Psychol Med. 2010;40:1899–906.PubMed

Keski-Rahkonen A, Hoek HW, Susser ES, et al. Epidemiology and course of anorexia nervosa in the community. Am J Psychiatry. 2007;164:1259–65.PubMed

10.

Bulik CM, Sullivan PF, Wade TD, et al. Twin studies of eating disorders: a review. Int J Eat Disord. 2000;27:1–20.PubMed

11.

Klump KL, Holly A, Iaconom WG, et al. Physical similarity and twin resemblance for eating attitudes and behaviors: a test of the equal environments assumption. Behav Genet. 2000;30:51–8.PubMed

12.

Klump KL, Kaye WH, Strober M. The evolving genetic foundations of eating disorders. Psychiatr Clin North Am. 2001;24:215–25.PubMed

13.

Klump KL, Miller KB, Keel PK, et al. Genetic and environmental influences on anorexia nervosa syndromes in a population-based twin sample. Psychol Med. 2001;31:737–40.PubMed

14.

Klump KL, Wonderlich S, Lehoux P, et al. Does environment matter? A review of nonshared environment and eating disorders. Int J Eat Disord. 2002;31:118–35.PubMed

15.

• Fairburn CG, Harrison PJ. Eating disorders. Lancet. 2003;361:407–16. Comprehensive review on eating disorders.PubMed

16.

Kendler KS, Walters EE, Neale MC, et al. The structure of the genetic and environmental risk factors for six major psychiatric disorders in women. Phobia, generalized anxiety disorder, panic disorder, bulimia, major depression, and alcoholism. Arch Gen Psychiatry. 1995;52:374–83.PubMed

17.

Kipman A, Gorwood P, Mouren-Siméoni MC, et al. Genetic factors in anorexia nervosa. Eur Psychiatry. 1999;14:189–98.PubMed

18.

Bulik CM, Sullivan PF, Kendler KS. Heritability of binge-eating and broadly defined bulimia nervosa. Biol Psychiatry. 1998;44:1210–8.PubMed

19.

Wade TD, Bulik CM, Neale M, et al. Anorexia nervosa and major depression: shared genetic and environmental risk factors. Am J Psychiatry. 2000;157:469–71.PubMed

20.

Kortegaard LS, Hoerder K, Joergensen J, et al. A preliminary population-based twin study of self-reported eating disorder. Psychol Med. 2001;31:361–5.PubMed

21.

Walters EE, Kendler KS. Anorexia nervosa and anorexic-like syndromes in a population-based female twin sample. Am J Psychiatry. 1995;152:64–71.PubMed

22.

• Bulik CM, Thornton LM, Root TL, et al. Understanding the relation between anorexia nervosa and bulimia nervosa in a Swedish national twin sample. Biol Psychiatry. 2010;67:71–7. Heritability estimation and analysis of the genetic overlap between AN and BN in a large twin sample.PubMed

23.

Strober M, Freeman R, Lampert C, et al. Controlled family study of anorexia nervosa and bulimia nervosa: evidence of shared liability and transmission of partial syndromes. Am J Psychiatry. 2001;157:393–401.

24.

Hinney A, Remschmidt H, Hebebrand J. Candidate gene polymorphisms in eating disorders. Eur J Pharmacol. 2000;410:147–59.PubMed

25.

Hinney A, Scherag S, Hebebrand J. Genetic findings in anorexia and bulimia nervosa. Prog Mol Biol Transl Sci. 2010;94:241–70.PubMed

26.

Scherag S, Hebebrand J, Hinney A. Eating disorders: the current status of molecular genetic research. Eur Child Adolesc Psychiatry. 2010;19:211–26.PubMed

27.

Barry VC, Klawans HL. On the role of dopamine in the pathophysiology of anorexia nervosa. J Neural Transm. 1976;38:107–22.PubMed

28.

Golden NH, Shenker IR. Amenorrhea in anorexia nervosa. Neuroendocrine control of hypothalamic dysfunction. Int J Eat Disord. 1994;16:53–60.PubMed

29.

• Kaye WH, Gwirtsman HE, George DT, et al. Altered serotonin activity in anorexia nervosa after long-term weight restoration. Does elevated cerebrospinal fluid 5-hydroxyindoleacetic acid level correlate with rigid and obsessive behavior? Arch Gen Psychiatry. 1991;48:556–62. First report implicating the relevance of the serotonergic system as a trait marker in AN.PubMed

30.

• Kaye WH, Greeno CG, Moss H, et al. Alterations in serotonin activity and psychiatric symptoms after recovery from bulimia nervosa. Arch Gen Psychiatry. 1998;55:927–35. First report implicating the relevance of the serotonergic system as a trait marker in BN.PubMed

31.

• Kaye WH, Frank GK, McConaha C. Altered dopamine activity after recovery from restricting-type anorexia nervosa. Neuropsychopharmacology. 1999;21:503–6. First report implicating the relevance of the dopaminergic system as a trait marker in AN.PubMed

32.

Kaye WH, Klump KL, Frank GK, et al. Anorexia and bulimia nervosa. Annu Rev Med. 2000;51:299–313.PubMed

33.

Kaye WH, Lilenfeld LR, Berrettini WH, et al. A search for susceptibility loci for anorexia nervosa: methods and sample description. Biol Psychiatry. 2000;47:794–803.PubMed

34.

Kaye WH, Bulik CM, Thornton L, et al. Comorbidity of anxiety disorders with anorexia and bulimia nervosa. Am J Psychiatry. 2004;161:2215–21.PubMed

35.

Kaye WH, Fudge JL, Paulus M. New insights into symptoms and neurocircuit function of anorexia nervosa. Nat Rev Neurosci. 2009;10:573–84.PubMed

36.

Keating C. Theoretical perspective on anorexia nervosa: the conflict of reward. Neurosci Biobehav Rev. 2010;34:73–9.PubMed

37.

Wagner A, Aizenstein H, Venkatraman VK, et al. Altered reward processing in women recovered from anorexia nervosa. Am J Psychiatry. 2007;164:1842–9.PubMed

38.

Wagner A, Aizenstein H, Venkatraman VK, et al. Altered striatal response to reward in bulimia nervosa after recovery. Int J Eat Disord. 2010;43:289–94.PubMed

39.

Vaz-Leal FJ, Rodríguez Santos L, García-Herráiz MA, et al. Bulimia nervosa with history of anorexia nervosa: Could the clinical subtype of anorexia have implications for clinical status and treatment response? Int J Eat Disord. 2011;44:212–9.PubMed

40.

Fairburn CG, Cooper Z, Doll HA, et al. Risk factors for anorexia nervosa: three integrated case–control comparisons. Arch Gen Psychiatry. 1999;56:468–76.PubMed

41.

• Hebebrand J, Remschmidt H. Anorexia nervosa viewed as an extreme weight condition: genetic implications. Hum Genet. 1995;95:1–11. First report on the importance of body weight in an eating disorder.PubMed

42.

Rosenkranz K, Hinney A, Ziegler A, et al. Systematic mutation screening of the estrogen receptor beta gene in probands of different weight extremes: identification of several genetic variants. J Clin Endocrinol Metab. 1998;83:4524–7.PubMed

43.

Versini A, Ramoz N, Le Strat Y, et al. Estrogen receptor 1 gene (ESR1) is associated with restrictive anorexia nervosa. Neuropsychopharmacology. 2010;35:1818–25.PubMed

44.

Blundell JE, Lawton CL, Halford JC. Serotonin, eating behavior, and fat intake. Obes Res. 1995;3:471S–6S.PubMed

45.

Halford JC, Blundell JE. Separate systems for serotonin and leptin in appetite control. Ann Med. 2000;32:222–32.PubMed

46.

Wurtman RJ, Wurtman JJ. Brain Serotonin, Carbohydrate-craving, obesity and depression. Adv Exp Med Biol. 1996;398:35–41.PubMed

47.

Jimerson DC, Lesem MD, Kaye WH, et al. Low serotonin and dopamine metabolite concentrations in cerebrospinal fluid from bulimic patients with frequent binge episodes. Arch Gen Psychiatry. 1992;49:132–8.PubMed

48.

Brewerton TD, Jimerson DC. Studies of serotonin function in anorexia nervosa. Psychiatry Res. 1996;62:31–42.PubMed

49.

Gorwood P, Adès J, Bellodi L, et al. The 5-HT(2A) -1438G/A polymorphism in anorexia nervosa: a combined analysis of 316 trios from six European centres. Mol Psychiatry. 2002;7:90–4.PubMed

50.

Gorwood P. Eating disorders, serotonin transporter polymorphisms and potential treatment response. Am J Pharmacogenomics. 2004;4:9–17.PubMed

51.

Calati R, De Ronchi D, Bellini M, et al. The 5-HTTLPR polymorphism and eating disorders: a meta-analysis. Int J Eat Disord. 2011;44:191–9.PubMed

52.

Castellini G, Ricca V, Lelli L, et al. Association between serotonin transporter gene polymorphism and eating disorders outcome: a 6-year follow-up study. Am J Med Genet Neuropsychiatr Genet. 2012;159B:491–500.

53.

Slof-Op ’t Landt MC, Meulenbelt I, Bartels M, et al. Association study in eating disorders: TPH2 associates with anorexia nervosa and self-induced vomiting. Genes Brain Behav. 2011;10:236–43.PubMed

54.

Slof-Op’t Landt MC, Bartels M, Middeldorp CM, et al. Genetic variation at the TPH2 gene influences impulsivity in addition to eating disorders. Behav Genet. 2013;43:24–33.PubMed

55.

Lander E, Kruglyak L. Genetic dissection of complex traits: guidelines for interpreting and reporting linkage results. Nat Genet. 1995;11:241–7.PubMed

56.

Bergen AW, Yeager M, Welch RA, et al. Association of multiple DRD2 polymorphisms with anorexia nervosa. Neuropsychopharmacology. 2005;30:1703–10.PubMed

57.

Davis C, Levitan RD, Yilmaz Z, et al. Binge eating disorder and the dopamine D2 receptor: genotypes and sub-phenotypes. Prog Neuropsychopharmacol Biol Psychiatry. 2012;38:328–33.PubMed

58.

Bachner-Melman R, Lerer E, et al. Anorexia nervosa, perfectionism, and dopamine D4 receptor (DRD4). Am J Med Genet B Neuropsychiatr Genet. 2007;144B:748–56.PubMed

59.

Ahima RS, Prabakaran D, Mantzoros C, et al. Role of leptin in the neuroendocrine response to fasting. Nature. 1996;382:250–2.PubMed

60.

• Hebebrand J, van der Heyden J, Devos R, et al. Plasma concentrations of obese protein in anorexia nervosa. Lancet. 1995;346:1624–5. First description of the extremely low leptin levels in patients with AN.PubMed

61.

Hebebrand J, Müller TD, Holtkamp K, et al. The role of leptin in anorexia nervosa: clinical implications. Mol Psychiatry. 2007;12:23–35.PubMed

62.

Hebebrand J, Blum WF, Barth N, et al. Leptin levels in patients with anorexia nervosa are reduced in the acute stage and elevated upon short-term weight restoration. Mol Psychiatry. 1997;2:330–4.PubMed

63.

Grinspoon S, Gulick T, Askari H, et al. Serum leptin levels in women with anorexia nervosa. J Clin Endocrinol Metab. 1996;81:3861–3.PubMed

64.

Haas V, Onur S, Paul T, et al. Leptin and body weight regulation in patients with anorexia nervosa before and during weight recovery. Am J Clin Nutr. 2005;81:889–96.PubMed

65.

Holtkamp K, Mika C, Grzella I, et al. Reproductive function during weight gain in anorexia nervosa. Leptin represents a metabolic gate to gonadotropin secretion. J Neural Transm. 2003;110:427–35.PubMed

66.

Frey J, Hebebrand J, Müller B, et al. Reduced body fat in long-term followed-up female patients with anorexia nervosa. J Psychiatr Res. 2000;34:83–8.PubMed

67.

Haluzík M, Papezová M, Nedvídková J, et al. Serum leptin levels in patients with anorexia nervosa before and after partial refeeding, relationships to serum lipids and biochemical nutritional parameters. Physiol Res. 1999;48:197–202.PubMed

68.

Gendall KA, Kaye WH, Altemus M, et al. Leptin, neuropeptide Y, and peptide YY in long-term recovered eating disorder patients. Biol Psychiatry. 1999;46:292–9.PubMed

69.

Hinney A, Bornscheuer A, Depenbusch M, et al. No evidence for involvement of the leptin gene in anorexia nervosa, bulimia nervosa, underweight or early onset extreme obesity: identification of two novel mutations in the coding sequence and a novel polymorphism in the leptin gene linked upstream region. Mol Psychiatry. 1998;3:539–43.PubMed

70.

Quinton ND, Meechan DW, Brown K, et al. Single nucleotide polymorphisms in the leptin receptor gene: studies in anorexia nervosa. Psychiatr Genet. 2004;14:191–4.PubMed

71.

• Brandys MK, van Elburg AA, Loos RJ, et al. Are recently identified genetic variants regulating BMI in the general population associated with anorexia nervosa? Am J Med Genet B Neuropsychiatr Genet. 2010;153B:695–9. Analyses of GWAS-derived obesity genes in AN.PubMed

72.

Farooqi IS, Yeo GS, Keogh JM, et al. Dominant and recessive inheritance of morbid obesity associated with melanocortin 4 receptor deficiency. J Clin Invest. 2000;106:271–9.PubMed

73.

Hinney A, Schmidt A, Nottebom K, et al. Several mutations in the melanocortin-4 receptor gene including a nonsense and a frameshift mutation associated with dominantly inherited obesity in humans. J Clin Endocrinol Metab. 1999;84:1483–6.PubMed

74.

Hinney A, Hohmann S, Geller F, et al. Melanocortin-4 receptor gene: case–control study and transmission disequilibrium test confirm that functionally relevant mutations are compatible with a major gene effect for extreme obesity. J Clin Endocrinol Metab. 2003;88:4258–67.PubMed

75.

Hinney A, Bettecken T, Tarnow P, et al. Prevalence, spectrum, and functional characterization of melanocortin-4 receptor gene mutations in a representative population-based sample and obese adults from Germany. J Clin Endocrinol Metab. 2006;91:1761–9.PubMed

76.

Vaisse C, Clement K, Guy-Grand B, et al. A frameshift mutation in human MC4R is associated with a dominant form of obesity. Nat Genet. 1998;20:113–4.PubMed

77.

Vaisse C, Clement K, Durand E, et al. Melanocortin-4 receptor mutations are a frequent and heterogeneous cause of morbid obesity. J Clin Invest. 2000;106:253–62.PubMed

78.

Yeo GS, Farooqi IS, Aminian S, et al. A frameshift mutation in MC4R associated with dominantly inherited human obesity. Nat Genet. 1998;20:111–2.PubMed

79.

• Hebebrand J, Fichter M, Gerber G, et al. Genetic predisposition to obesity in bulimia nervosa: a mutation screen of the melanocortin-4 receptor gene. Mol Psychiatry. 2002;7:647–51. Detection of an “obesity mutation” in a patient with BN.PubMed

80.

Branson R, Potoczna N, Kral JG, et al. Binge eating as a major phenotype of melanocortin 4 receptor gene mutations. N Engl J Med. 2003;348:1096–103.PubMed

81.

Potoczna N, Branson R, Kral JG, et al. Gene variants and binge eating as predictors of comorbidity and outcome of treatment in severe obesity. J Gastrointest Surg. 2004;8:971–81.PubMed

82.

Geller F, Reichwald K, Dempfle A, et al. Melanocortin-4 receptor gene variant I103 is negatively associated with obesity. Am J Hum Genet. 2004;74:572–81.PubMed

83.

Wang D, Ma J, Zhang S, et al. Association of the MC4R V103I polymorphism with obesity: a Chinese Case–control study and meta-analysis in 55,195 individuals. Obesity (Silver Spring). 2010;18:573–9.

84.

Herpertz S, Siffert W, Hebebrand J. Binge eating as a phenotype of melanocortin 4 receptor gene mutations. N Engl J Med. 2003;349:606–9.PubMed

85.

Hebebrand J, Geller F, Dempfle A, et al. Binge-eating episodes are not characteristic of carriers of melanocortin-4 receptor gene mutations. Mol Psychiatry. 2004;9:796–800.PubMed

86.

Valette M, Bellisle F, Carette C, et al. Eating behaviour in obese patients with melanocortin-4 receptor mutations: a literature review. Int J Obes (Lond). 2013;37:1027–35.

87.

Ribasés M, Gratacòs M, Fernández-Aranda F, et al. Association of BDNF with restricting anorexia nervosa and minimum body mass index: a family-based association study of eight European populations. Eur J Hum Genet. 2005;13:428–34.PubMed

88.

Dmitrzak-Weglarz M, Skibinska M, Slopien A, et al. BDNF Met66 allele is associated with anorexia nervosa in the Polish population. Psychiatr Genet. 2007;17:245–6.PubMed

89.

Gelegen C, van den Heuvel J, Collier DA, et al. Dopaminergic and brain-derived neurotrophic factor signalling in inbred mice exposed to a restricted feeding schedule. Genes Brain Behav. 2008;7:552–9.PubMed

90.

Ribasés M, Gratacòs M, Fernández-Aranda F, et al. Association of BDNF with anorexia, bulimia and age of onset of weight loss in six European populations. Hum Mol Genet. 2004;13:1205–12.PubMed

91.

Frayling TM, Timpson NJ, Weedon MN, et al. A common variant in the FTO gene is associated with body mass index and predisposes to childhood and adult obesity. Science. 2007;316:889–94.PubMed

92.

• Hinney A, Nguyen TT, Scherag A, et al. Genome wide association (GWA) study for early onset extreme obesity supports the role of fat mass and obesity associated gene (FTO) variants. PLoS One. 2007;2:e1361. First GWAS for extreme early-onset obesity.PubMed

93.

Willer CJ, Speliotes EK, Loos RJ, et al. Six new loci associated with body mass index highlight a neuronal influence on body weight regulation. Nat Genet. 2009;41:25–34.PubMed

94.

Speliotes EK, Willer CJ, Berndt SI, et al. Association analyses of 249,796 individuals reveal 18 new loci associated with body mass index. Nat Genet. 2010;42:937–48.PubMed

95.

Jonassaint CR, Szatkiewicz JP, Bulik CM, et al. Absence of association between specific common variants of the obesity-related FTO gene and psychological and behavioral eating disorder phenotypes. Am J Med Genet B Neuropsychiatr Genet. 2011;156B:454–61.PubMed

96.

Müller TD, Greene BH, Bellodi L, et al. Fat mass and obesity-associated gene (FTO) in eating disorders: evidence for association of the rs9939609 obesity risk allele with bulimia nervosa and anorexia nervosa. Obes Facts. 2012;5:408–19.PubMed

97.

Hindorff LA, Sethupathy P, Junkins HA, et al. Potential etiologic and functional implications of genome-wide association loci for human diseases and traits. Proc Natl Acad Sci U S A. 2009;106:9362–7.PubMed

98.

Hebebrand J, Scherag A, Schimmelmann BG, et al. Child and adolescent psychiatric genetics. Eur Child Adolesc Psychiatry. 2010;19:259–79.PubMed

99.

•• Cross-Disorder Group of the Psychiatric Genomics Consortium, Smoller JW, Craddock N, Kendler K, Lee PH, Neale BM, et al. Identification of risk loci with shared effects on five major psychiatric disorders: a genome-wide analysis. Lancet. 2013;381:1371–9. Large-scale cross-disorder analysis of GWAS data.

100.

•• Wang K, Zhang H, Bloss CS, et al. A genome-wide association study on common SNPs and rare CNVs in anorexia nervosa. Mol Psychiatry. 2011;16:949–59. A genome-wide association study on common SNPs and rare CNVs in anorexia nervosa.PubMed

101.

•• Boraska V, Bulik CM, Collier DA, Sullivan PF, Zeggini E, Genetic Consortium for Anorexia Nervosa, Wellcome Trust Case Control Consortium 3. WTCCC3 and GCAN: A genomewide association scan of Anorexia nervosa. Available at: http://www.ashg.org/2012meeting/abstracts/fulltext/f120120381.htm. Accessed 5 Nov 2013. Largest GWAS for AN to date.

102.

•• Boraska V, Davis OS, Cherkas LF, et al. Genome-wide association analysis of eating disorder-related symptoms, behaviors, and personality traits. Am J Med Genet B Neuropsychiatr Genet. 2012;159B:803–11. Large population-based GWAS for eating disorder-related traits.PubMed

103.

Wade TD, Gordon S, Medland S, et al. Genetic variants associated with disordered eating. Int J Eat Disord. 2013;46:594–608.PubMed

104.

Wermter AK, Laucht M, Schimmelmann BG, et al. From nature versus nurture, via nature and nurture, to gene x environment interaction in mental disorders. Eur Child Adolesc Psychiatry. 2010;19:199–210.PubMed

105.

Mazzeo SE, Bulik CM. Environmental and genetic risk factors for eating disorders: what the clinician needs to know. Child Adolesc Psychiatr Clin N Am. 2009;18:67–82.PubMed

106.

Karwautz AF, Wagner G, Waldherr K, et al. Gene-environment interaction in anorexia nervosa: relevance of non-shared environment and the serotonin transporter gene. Mol Psychiatry. 2011;16:590–2.PubMed

107.

Dempfle A, Scherag A, Hein R, et al. Gene-environment interactions for complex traits: definitions, methodological requirements and challenges. Eur J Hum Genet. 2008;16:1164–72.PubMed

108.

• Nakabayashi K, Komaki G, Tajima A, et al. Identification of novel candidate loci for anorexia nervosa at 1q41 and 11q22 in Japanese by a genome-wide association analysis with microsatellite markers. J Hum Genet. 2009;54:531–7. First GWAS for AN based on microsatellite markers.PubMed

109.

Hebebrand J, Bulik C. Critical appraisal of the provisional DSM-5 criteria for anorexia nervosa and an alternative proposal. Int J Eat Disord. 2011;44:665–78.PubMed

110.

Petronis A. Epigenetics as a unifying principle in the aetiology of complex traits and diseases. Nature. 2010;465:721–7.PubMed

111.

Relton CL, Davey Smith G. Epigenetic epidemiology of common complex disease: prospects for prediction, prevention, and treatment. PLoS Med. 2010;7:e1000356.PubMed

112.

Barros SP, Offenbacher S. Epigenetics: connecting environment and genotype to phenotype and disease. J Dent Res. 2009;88:400–8.PubMed

113.

Berdasco M, Esteller M. Genetic syndromes caused by mutations in epigenetic genes. Hum Genet. 2013;132:359–83.PubMed

114.

Kuehnen P, Grueters A, Krude H. Two puzzling cases of thyroid dysgenesis. Horm Res. 2009;71(Suppl1):93–7.PubMed

115.

Kuehnen P, Krude H. Alu elements and human common diseases like obesity. Mob Genet Elem. 2012;2:197–201.

116.

Kuehnen P, Mischke M, Wiegand S, et al. An Alu element-associated hypermethylation variant of the POMC gene is associated with childhood obesity. PLoS Genet. 2012;8:e1002543.PubMed

117.

Stöger R. The thrifty epigenotype: an acquired and heritable predisposition for obesity and diabetes? Bioessays. 2008;30:156–66.PubMed

118.

Barrès R, Osler ME, Yan J, et al. Non-CpG methylation of the PGC-1alpha promoter through DNMT3B controls mitochondrial density. Cell Metab. 2009;10:189–98.PubMed

119.

Barrès R, Yan J, Egan B, et al. Acute exercise remodels promoter methylation in human skeletal muscle. Cell Metab. 2012;15:405–11.PubMed

120.

Barres R, Kirchner H, Rasmussen M, et al. Weight loss after gastric bypass surgery in human obesity remodels promoter methylation. Cell Rep. 2013;3:1020–7.PubMed

121.

Campbell IC, Mill J, Uher R, et al. Eating disorders, gene-environment interactions and epigenetics. Neurosci Biobehav Rev. 2011;35:784–93.PubMed

122.

Pjetri E, Dempster E, Collier DA, et al. Quantitative promoter DNA methylation analysis of four candidate genes in anorexia nervosa: a pilot study. J Psychiatr Res. 2013;47:280–2.PubMed

123.

Steiger H, Labonte B, Groleau P, et al. Methylation of the glucocorticoidreceptor gene promoter in bulimic women: associations with borderline personality disorder, suicidality, and exposure to childhood abuse. Int J Eat Disord. 2013;46:246–55.PubMed

124.

Frieling H, Gozner A, Römer KD, et al. Global DNA hypomethylation and DNA hypermethylation of the alpha synuclein promoter in females with anorexia nervosa. Mol Psychiatry. 2007;12:229–30.PubMed

125.

Frieling H, Bleich S, Otten J, et al. Epigenetic downregulation of atrial natriuretic peptide but not vasopressin mRNA expression in females with eating disorders is related to impulsivity. Neuropsychopharmacology. 2008;33:2605–9.PubMed

126.

Frieling H, Römer KD, Scholz S, et al. Epigenetic dysregulation of dopaminergic genes in eating disorders. Int J Eat Disord. 2010;43:577–83.PubMed

127.

Ehrlich S, Weiss D, Burghardt R, et al. Promoter specific DNA methylation and gene expression of POMC in acutely underweight and recovered patients with anorexia nervosa. J Psychiatr Res. 2010;44:827–33.PubMed

128.

• Psychiatric GWAS Consortium Coordinating Committee, Cichon S, Craddock N, et al. Genomewide association studies: history, rationale, and prospects for psychiatric disorders. Am J Psychiatry. 2009;166:540–56. Large international effort to unravel the genetic mechanisms in psychiatric disorders.PubMed

129.

Maher B. Personal genomes: the case of the missing heritability. Nature. 2008;456:18–21.PubMed

130.

Easter MM. “Not all my fault”: genes, stigma, and personal responsibility for women with eating disorders. Soc Sci Med. 2012;75:1408–16.PubMed

Title: Genetics of Eating Disorders
Authors: Anke Hinney
Anna-Lena Volckmar
Publication date: 01-12-2013
Publisher: Springer US
Published in: Current Psychiatry Reports / Issue 12/2013
Print ISSN: 1523-3812
Electronic ISSN: 1535-1645
DOI: https://doi.org/10.1007/s11920-013-0423-y

At a glance: The STEP trials

Springer Medicine

Genetics of Eating Disorders

Abstract

At a glance: The STEP trials

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 12/2013

Predicting Suicidal Behavior: Are We Really that Far Along? Comment on “Discovery and Validation of Blood Biomarkers for Suicidality”

Translational Approaches to Anxiety: Focus on Genetics, Fear Extinction and Brain Imaging

Problematic Boundaries in the Diagnosis of Bipolar Disorder: The Interface with Borderline Personality Disorder

New Developments in Behavioral Treatments for Substance Use Disorders

Pain and Depression: An Integrative Review of Neurobiological and Psychological Factors

Toward Clinically Applicable Biomarkers in Bipolar Disorder: Focus on BDNF, Inflammatory Markers, and Endothelial Function