Clinically Meaningful Outcomes after 1 Year of Treatment with Setmelanotide in an Adult Patient with a Variant in SH2B1.

INTRODUCTION: Monogenic obesity is caused by a unique genetic dysfunction, often appears in childhood, and can be accompanied by neuroendocrine, skeletal, developmental, and behavioral disorders, among other manifestations. Some variants in the SH2B1 gene have been suggested as strong candidates for the development of autosomal dominant obesity. CASE PRESENTATION: We describe here the clinical response after 1 year of setmelanotide treatment in a 22-year-old patient with an SH2B1 variant. After 3 months of treatment, our patient lost 5.4% of body weight. This period was followed by a 3-month period of noncompliance, in which the patient gained 4% body weight. After reinstating daily drug administration, the patient showed a 19.5% reduction in body weight and a clear improvement in all hunger scales after 1 year of treatment. CONCLUSION: These results indicate that the changes seen are drug dependent and provide positive evidence for the administration of setmelanotide in adult patients with heterozygous variants in the SH2B1 gene.

SH2B1 variants as potential causes of non-syndromic monogenic obesity in a Brazilian cohort.

PURPOSE: SH2B1 gene encodes an important adaptor protein to receptor tyrosine kinases or cytokine receptors associated with Janus kinases. This gene has been associated with the structural and functional modulation of neurons and other cells, and impacts on energy and glucose homeostasis. Several studies suggested that alterations in this gene are strong candidates for the development of obesity. However, only a few studies have screened SH2B1 point variants in individuals with obesity. Therefore, the aim of this study was to investigate the prevalence of SH2B1 variants in a Brazilian cohort of patients with severe obesity and candidates to bariatric surgery. METHODS: The cohort comprised 122 individuals with severe obesity, who developed this phenotype during childhood. As controls, 100 normal-weight individuals were included. The coding region of SH2B1 gene was screened by Sanger sequencing. RESULTS: A total of eight variants were identified in SH2B1, of which p.(Val345Met) and p.(Arg630Gln) variants were rare and predicted as potentially pathogenic by the in the silico algorithms used in this study. The p.(Val345Met) was not found in either the control group or in publicly available databases. This variant was identified in a female patient with severe obesity, metabolic syndrome and hyperglycemia. The p.(Arg630Gln) was also absent in our control group, but it was reported in gnomAD with an extremely low frequency. This variant was observed in a female patient with morbid obesity, metabolic syndrome, hypertension and severe binge-eating disorder. CONCLUSION: Our study reported for the first time two rare and potentially pathogenic variants in Brazilian patients with severe obesity. Further functional studies will be necessary to confirm and elucidate the impact of these variants on SH2B1 protein function and stability, and their impact on energetic metabolism. LEVEL OF EVIDENCE: Level V, cross-sectional descriptive study.