A comprehensive review of genetic causes of obesity.

BACKGROUND: Obesity is a multifactorial chronic disease with a high, increasing worldwide prevalence. Genetic causes account for 7% of the cases in children with extreme obesity. DATA SOURCES: This narrative review was conducted by searching for papers published in the PubMed/MEDLINE, Embase and SciELO databases and included 161 articles. The search used the following search terms: "obesity", "obesity and genetics", "leptin", "Prader-Willi syndrome", and "melanocortins". The types of studies included were systematic reviews, clinical trials, prospective cohort studies, cross-sectional and prospective studies, narrative reviews, and case reports. RESULTS: The leptin-melanocortin pathway is primarily responsible for the regulation of appetite and body weight. However, several important aspects of the pathophysiology of obesity remain unknown. Genetic causes of obesity can be grouped into syndromic, monogenic, and polygenic causes and should be assessed in children with extreme obesity before the age of 5 years, hyperphagia, or a family history of extreme obesity. A microarray study, an analysis of the melanocortin type 4 receptor gene mutations and leptin levels should be performed for this purpose. There are three therapeutic levels: lifestyle modifications, pharmacological treatment, and bariatric surgery. CONCLUSIONS: Genetic study technologies are in constant development; however, we are still far from having a personalized approach to genetic causes of obesity. A significant proportion of the affected individuals are associated with genetic causes; however, there are still barriers to its approach, as it continues to be underdiagnosed. Video Abstract (MP4 1041807 KB).

Obesidade genética não sindrômica: histórico, fisiopatologia e principais genes / Non-syndromic genetic obesity: history, pathophysiology and key genes

A obesidade é definida pelo excesso de gordura corporal acumulada no tecido adiposo quando o indivíduo atinge valores de IMC igual ou superior a 30 Kg/m2. Constitui um dos principais fatores de risco para várias doenças não transmissíveis (DNTs) como por exemplo, diabetes mellitus tipo 2 (DM2), doenças cardiovasculares, hipertensão arterial, acidente vascular cerebral e até mesmo o câncer. Embora a obesidade esteja diretamente relacionada com o consumo calórico excessivo em relação ao gasto energético diário, sua etiologia pode estar associada aos baixos níveis de atividade física, às alterações neuroendócrinas e aos fatores genéticos. Considerando o componente genético, esta pode ser classificada como sindrômicas e estar associada às alterações cromossômicas estruturais ou numéricas, ou como não sindrômica, quando relacionada, principalmente, com os polimorfismos de nucleotídeos simples (SNPs) em alelos que atuam como herança monogênica, ou ainda com a interação vários genes (poligênica multifatorial). Apesar de existirem muitas etiologias diferentes, normalmente a obesidade é tratada a partir da mesma abordagem, desconsiderando a fisiologia que a desencadeou. Dessa forma, o objetivo do presente trabalho foi abordar a obesidade genética não sindrômica por meio a) da descrição breve de perspectiva histórica sobre seu entendimento; b) da exposição dos principais mecanismos moleculares envolvidos com o controle de peso; c) da compilação dos principais genes e SNPs relacionados; d) da definição dos principais genes; e e) da abordagem das principais perspectivas de intervenção.

Obesity is defined as excess body fat accumulated in the adipose tissue when the individual reaches BMI values equal to or greater than 30 kg/m2. It is one of the main risk factors for several non-communicable diseases (NCDs), such as Type 2 Diabetes mellitus (T2D), cardiovascular diseases, high blood pressure, stroke and even cancer. Although obesity is directly related to excessive calorie intake in relation to daily energy expenditure, its etiology may be associated with low levels of physical activity, neuroendocrine changes, and genetic factors. Considering the genetic component, it can be classified as syndromic and be associated with chromosomal or numerical changes, or as non-syndromic and being related mainly to single nucleotide polymorphisms (SNPs) in alleles that act as monogenic inheritance, or with an interaction of several genes (multifactorial polygenic). Although there are many different etiologies, obesity is usually treated using the same approach, disregarding the physiology that triggered it. Thus, the aim of this study was to address non-syndromic genetic obesity through a) a brief description of a historical perspective on its understanding; b) the exposure of the main molecular mechanisms involved in weight control, c) the compilation of the key genes and related SNPs, d) the definition of the key genes and e) the approach of the main intervention representations.

Prevalence of metabolic syndrome in obese Chilean children and association with gene variants of the leptin-melanocortin system.

Metabolic syndrome (MS) related to adult type 2 diabetes mellitus and cardiovascular disease is prevalent among obese children/adolescents. Genetic variants of the leptin-melanocortin system have been associated with components of MS. The aim of our study is to estimate the prevalence of MS (according to Cook's criteria) in a Chilean cross-sectional sample of 259 obese children (47.1% girls, aged 6-12 years), and to assess the association between common genetic variants of leptin-melanocortin pathway genes (LEP, LEPR, POMC, MC3R and MC4R) with components of the MS using logistic regression. We observed an overall MS prevalence of 26.3% (32.2% in girls and 21.1% in boys) in obese Chilean children. No associations were detected between genetic variants of leptin-melanocortin genes and MS components. MS prevalence among our obese children sample is similar to those previously described in Chile, demonstrating the increased risk of diseases in adulthood that obese children carry.

Relationship of short tandem repeats flanking leptin-melanocortin pathway genes with anthropometric profile and leptinemia in Brazilian individuals.

OBJECTIVE: To investigate the relationship of short tandem repeats (STR) near genes involved in the leptin-melanocortin pathway with body mass index (BMI) and leptinemia. SUBJECTS AND METHODS: Anthropometric variables and leptinemia were measured in 100 obese and 110 nonobese individuals. D1S200, D2S1788, DS11912, and D18S858 loci were analyzed by PCR and high-resolution electrophoresis. RESULTS: Overall STR allele frequencies were similar between the obese and non-obese group (p > 0.05). Individual alleles D1S200 (17), D11S912 (43), D18S858 (11/12) were associated with obesity (p < 0.05). Individuals carrying these alleles showed higher BMI than non-carriers (p < 0.05). Moreover, a relationship between D18S858 11/12 alleles and increased waist circumference was found (p = 0.040). On the other hand, leptinemia was not influenced by the studied STRs (p > 0.05). CONCLUSIONS: D1S200, D11S912, and D18S858 loci are associated with increased BMI and risk for obesity in this sample.

Relationship of short tandem repeats flanking leptin-melanocortin pathway genes with anthropometric profile and leptinemia in Brazilian individuals / Relação de short tandem repeats (STR) em genes envolvidos na via da leptina-melanocortina com o perfil antropométrico e a leptinemia em brasileiros

OBJECTIVE: To investigate the relationship of short tandem repeats (STR) near genes involved in the leptin-melanocortin pathway with body mass index (BMI) and leptinemia. SUBJECTS AND METHODS: Anthropometric variables and leptinemia were measured in 100 obese and 110 nonobese individuals. D1S200, D2S1788, DS11912, and D18S858 loci were analyzed by PCR and high-resolution electrophoresis. RESULTS: Overall STR allele frequencies were similar between the obese and non-obese group (p > 0.05). Individual alleles D1S200 (17), D11S912 (43), D18S858 (11/12) were associated with obesity (p < 0.05). Individuals carrying these alleles showed higher BMI than non-carriers (p < 0.05). Moreover, a relationship between D18S858 11/12 alleles and increased waist circumference was found (p = 0.040). On the other hand, leptinemia was not influenced by the studied STRs (p > 0.05). CONCLUSIONS: D1S200, D11S912, and D18S858 loci are associated with increased BMI and risk for obesity in this sample.

OBJETIVO: Investigar a relação de short tandem repeats (STR) em genes envolvidos na via da leptina-melanocortina com índice de massa corporal (IMC) e leptinemia. SUJEITOS E MÉTODOS: Variáveis antropométricas e leptinemia foram medidas em 100 indivíduos obesos e 110 não obesos. Os loci D1S200, D2S1788, DS11912 e D18S858 foram analisados por PCR e eletroforese de alta resolução. RESULTADOS: As frequências globais dos alelos da STR foram similares entre os grupos obeso e não obeso (p > 0,05). Alelos individuais de D1S200 (17), D11S912 (43), D18S858 (11/12) foram associados com obesidade (p < 0,05). Indivíduos portadores desses alelos apresentaram valores de IMC maiores que os dos não portadores (p < 0,05). Além disso, a presença dos alelos D18S858 11/12 foi relacionada com circunferência abdominal elevada (p = 0,040). Por outro lado, a leptinemia não foi influenciada pelos STRs estudados (p > 0,05). CONCLUSÕES: Os loci D1S200, D11S912 e D18S858 são associados com IMC aumentado e risco de obesidade nesta amostra populacional.

[Leptin-melanocortin system, body weight regulation and obesity]. / Sistema leptina-melanocortinas en la regulación de la ingesta y el peso corporal.

Obesity is a multifactorial disease that is rarely associated to single gene defects. However, due to their direct cause-effect relationships, those genetic defects that cause some forms of monogenic obesity are relevant in the study of mechanisms that contribute to increased energy intake and body fat accumulation. Most of the genes that have been shown to cause monogenic obesity are related to the leptin-melanocortin system. The functionality of this system has been elucidated through natural mutations (Agouti, ob and db) in mice and knock-out models. Mutations related to human monogenic obesity have been described in leptin, leptin receptor, proopiomelanocortin, prohormone convertase 1 or melanocortin receptor 4 genes. Therapy with human recombinant leptin in patients with genetic deficiency of the hormone is an effective medical treatment of obesity, although only applicable to very few families. The use of leptin-melanocortin agonists, drugs to avoid leptin resistance or combinations of treatments with leptin and other satiating peptides are currently being investigated for multifacotiral human obesity.

Sistema leptina-melanocortinas en la regulación de la ingesta y el peso corporal / Leptin-melanocortin system, body weight regulation and obesity

Obesity is a multifactorial disease that is rarely associated to single gene defects. However, due to their direct cause-effect relationships, those genetic defects that cause some forms of monogenic obesity are relevant in the study of mechanisms that contribute to increased energy intake and body fat accumulation. Most of the genes that have been shown to cause monogenic obesity are related to the leptin-melanocortin system. The functionality of this system has been elucidated through natural mutations (Agouti, ob and db) in mice and knock-out models. Mutations related to human monogenic obesity have been described in leptin, leptin receptor, proopiomelanocortin, prohormone convertase 1 or melanocortin receptor 4 genes. Therapy with human recombinant leptin in patients with genetic deficiency of the hormone is an effective medical treatment of obesity, although only applicable to very few families. The use of leptin-melanocortin agonists, drugs to avoid leptin resistance or combinations of treatments with leptin and other satiating peptides are currently being investigated for multifacotiral human obesity (Rev Méd Chile 2009; 137:1225-34).