Basic and Genetic Aspects of Food Intake Control and Obesity: Role of Dopamin Receptor D2 TaqIA Polymorphism

Pinto, Renata Machado; Cominetti, Cristiane; Cruz, Aparecido Divino da

doi:10.17140/oroj-2-119

Cited by 4 publications

(4 citation statements)

References 57 publications

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“…It is postulated that the genes that compose the " thrifty genotype" are responsible for: higher capacity to accumulate energy in the form of fat, ability to save energy in critical periods, ability to "turn off " non-essential metabolic pathways and ability to ingest large amounts of food whenever these are available. 10,11 The same "thrifty genotype" is currently disadvantageous because of easy access to high densely energetic foods and low caloric expenditure. 9…”

Section: Thrifty Genotype Hypothesismentioning

confidence: 99%

“…The theory suggests that the initial genetic network responsible for low weight and high body performance characteristics has been suppressed and lost over the millennia. 11…”

Section: Predator Release Hypothesismentioning

confidence: 99%

“…Monogenic obesity disorders are a heterogeneous group of rare conditions that increase food intake and reduce energy expenditure. 16 Many occur from mutations in genes related to the hypothalamic system of energy balance control, 8,11,16,17 as the leptin-melanocortin system. These mutations result in changes in the concentrations and/or activity of hormones, receptors and enzymes, leading to the phenotype of intense hyperphagia with early-onset obesity, sometimes associated with endocrine abnormalities.…”

Section: Monogenic Obesitymentioning

confidence: 99%

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The Role of Genetics in the Pathophysiology of Obesity: A Systematic Review

Pinto¹,

Steinmetz²,

Barbosa³

et al. 2019

Obes Res Open J

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The obesity epidemic has been largely attributed to changes in lifestyle habits established over the past three decades. These changes are mainly attributed to excessive nutrition and decline in physical activity as well as additional factors such as reduced intestinal microbiota diversity, sleep duration, endocrine disruptors, and reduced variability of the ambient temperature. However, the obesogenic environment is not sufficient to determine the presence of obesity, it is necessary that the lifestyle becomes associated with a personal predisposition for the phenotype to emerge. In this article, we review the main forms of monogenic and syndromic obesity, as well as a historical summary of the search for the genes that add up to confer greater risk for the development of polygenic obesity. Methods We carried out a PubMed search, along with ExcerptaMedica database (EMBASE)/Cochrane library, Web Sciences for the Medical Subject Headings (MeSH) terms "obesity'' AND "genetics" for the past 5-years. Results We found a total of 14057 articles pertaining to obesity and genetics together of which we selected 92 articles for this review after getting articles after searching cross references. Conclusion Studies with twins and adopted children show that 55 to 80% of the variation of body mass index (BMI) is attributed to genetic factors. According to the genetic criteria, obesity can be classified as A) Monogenic-when a mutated gene is responsible for the phenotype; B) Syndromic-when a set of specific symptoms are present and a small group of genes is involved; usually the term is used to describe obese patients with cognitive delay, dysmorphic features, organ-specific abnormalities, hyperphagia, and/or other signs of hypothalamic dysfunction; C) Polygenic-also called "common" obesity, present in up to 95% of cases. Many genes add up to give a greater risk to the individual, and if associated with some habits culminates in obesity. In spite of its great relevance, the search for the genes that raise the risk of obesity has not been easy. It is still a challenge for the scientific community to separate the genetic element from the environmental component in the etiology of this disease. Individuals more susceptible to excessive adiposity may carry risk variants in the genes that influence appetite control, the regulation of cellular machinery, lipid metabolism and adipogenesis, the energy expenditure, insulin signaling, and inflammation.

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Section: Thrifty Genotype Hypothesismentioning

confidence: 99%

“…The theory suggests that the initial genetic network responsible for low weight and high body performance characteristics has been suppressed and lost over the millennia. 11…”

Section: Predator Release Hypothesismentioning

confidence: 99%

Section: Monogenic Obesitymentioning

confidence: 99%

See 1 more Smart Citation

The Role of Genetics in the Pathophysiology of Obesity: A Systematic Review

Pinto¹,

Steinmetz²,

Barbosa³

et al. 2019

Obes Res Open J

View full text Add to dashboard Cite

show abstract

“…Speci cally, the ANKK1 TaqIA (rs1800497) polymorphism consists of a single cytosine (C, A2 allele) to thymine (T, A1 allele) change, which causes a glutamine to lysine substitution. This single nucleotide polymorphism (SNP) affects dopamine receptor availability (19), which has been associated with the risk of alcohol dependence and severe alcoholism (20)(21)(22), and to date, ANKK1 TaqIA is considered a current marker for addictive disorders (23). Some studies report an association between TaqIA polymorphisms and obesity, body mass index and food intake (12,24,25).…”

Section: Introductionmentioning

confidence: 99%