AI Article Synopsis
- Obesity is a significant global health issue, with increasing evidence pointing to the central nervous system's (CNS) involvement in weight regulation.
- There is a notable connection between genetic factors, such as deficiencies in genes like BDNF and SIM1, and different forms of obesity, especially in those with developmental disorders.
- Analysis of nine patients with obesity and learning disabilities revealed unique genetic alterations (copy number variants) that are likely linked to their conditions and highlight the relationship between obesity and neurodevelopmental challenges.
Article Abstract
Obesity is a major threat to public health worldwide, and there is now mounting evidence favoring a role for the central nervous system (CNS) in weight control. A causal relationship has been recognized in both monogenic (e.g., BDNF, TRKB, and SIM1 deficiencies) and syndromic forms of obesity [e.g., Prader-Willi syndrome (PWS)]. Syndromic obesity arising from chromosomal abnormalities, that typically also affect learning and development, are often associated with congenital malformations and behavioral characteristics. We report on nine unrelated patients with a diagnosis of learning disability and/or developmental delay (DD) in addition to obesity that were found to have copy number variants (CNVs) by single nucleotide polymorphism array-based analysis. Each patient also had a distinct and complex phenotype, and most had hypotonia and other neuroendocrine issues, such as hyperphagia and hypogonadism. Molecular and clinical characterization of these patients enabled us to determine with confidence that the CNVs we observed were pathogenic or likely to be pathogenic. Overall, the CNVs reported here encompassed a candidate gene or region (e.g., SIM1) that has been reported in patients associating obesity and DD and/or intellectual disability (ID) and novel candidate genes and regions.
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| http://dx.doi.org/10.1002/ajmg.a.35761 | DOI Listing |
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