Perspectives: molecular genetic research in human obesity.

Within the past decade the molecular basis of single forms of monogenic obesity has been elucidated. With the exception of functionally relevant mutations in the melanocortin-4 receptor gene, which occur in approximately 2-4% of extremely obese individuals, all other currently known monogenic forms are rare and additionally associated with distinct endocrinological abnormalities. A large number of association studies have been performed in 'normal' obesity. Whereas many associations have been reported, it is largely unclear which of these represent true positive findings. Over 20 genome scans pertaining to obesity and related phenotypes have been performed; specific chromosomal peak regions have been identified in different scans. We review the current status and discuss relevant issues related to phenotyping, association and linkage studies. We recommend that the procedure via which a consensus is reached as to what constitutes a true positive association finding requires formalization.

No evidence for involvement of the promoter polymorphism -866 G/A of the UCP2 gene in childhood-onset obesity in humans.

Recently, an association between obesity and the G-allele of the - 866 G/A polymorphism in the promoter region of uncoupling protein-2 gene (UCP2) was reported. Both allele frequencies and genotype distributions for this polymorphism differed between obese individuals and never-obese controls. We attempted to confirm this finding. Genotyping was performed by polymerase chain reaction with subsequent restriction fragment length polymorphism analysis (PCR-RFLP). We analysed transmission disequilibrium of the (wild type) G-allele for 200 extremely obese children and adolescents from 93 concordant sib pair families using the pedigree disequilibrium test. Additionally, using a one-sided asymptotic Pearson's chi 2-test, we tested whether the G-allele occurs more frequently in 277 extremely obese children and adolescents (including the 93 index patients of the concordant sib pairs) than in 188 never-obese controls. The one-sided asymptotic Cochran Armitage trend test was used to determine differences in genotype frequencies between extremely obese and healthy underweight individuals. The PDT analysis revealed no evidence for transmission disequilibrium in obesity. Allele and genotype frequencies did not differ between the extremely obese and never-obese subjects. In conclusion, we cannot confirm the results of ) in our young sample.