ESPE2024 Poster Category 3 Fat, Metabolism and Obesity (35 abstracts)
Syndromic and monogenic obesity: Is clinical exome sequencing necessary?
Hatice Nursoy 1 , Yasemin Denkboy-Ongen 1 , Meltem Buhur-Pirimoglu 2 & Erdal Eren 1
1Uludag University Division of Pediatric Endocrinology, Bursa, Turkey. 2Gaziantep City Hospital Division of Pediatric Endocrinology, Antep, Turkey
Introduction: Syndromic and monogenic obesities are rare and may have different treatment challenges and options. Patients with POMC, PCSK1, and LEPR mutations can receive setmelanotide therapy. Setmelanotide acts on the melanocortin 4 receptor. Here, as a participant in the Rare Obesity Advanced Diagnosis Project, the results of our patient data are presented.
Method: Patients who became obese before the age of 5 and/or patients with syndromic features accompanying obesity (urinary anomalies, infantile hypotonia, developmental delay, polydactyly) were included in the study. DNA samples are collected as buccal swap between January 2023 and April 2024. Eighty genes were studied from these samples. Reports were classified as pathogenic, likely pathogenic, and VUS variants or no pathogenic variant was detected. Some VUS, likely benign or benign, were also reported as "potentially relevant variants."
Results: 29 patients aged between 3 and 19.9 years were included in the study. Their median BMI was 32.27 (min:20.37, max:54.65), and the median BMI SDS was 3.27 (min:1.98, max: 6.8). Ten patients had clinically significant variants (Table 1). Patient 6 had a homozygote LEPR mutation and was a candidate for setmelanotide treatment. Patient 1 was diagnosed with Bardet-Biedl Syndrome. His clinical evaluation has been expanded.
Conclusion: Selected patients may benefit from clinical exome sequencing for obesity.
| Gene | Description | Zygosity | Variant status | Gender | Expected clinical features* | Patient’s clinical features | |
| Patient 1 | BBS1 | c.48-1G>A | Homozygote | Pathogenic | Male | Cliopathy, retinitis pigmentosa, Bardet Biedl syndrome | Polidacthly, obesity, intellectual disability |
| Patient 2 | seq[GRCh37] del(16)(p11.2) | Chr16:g.29548560_30292931del | Heterozygote | Pathogenic | Male | İntellectual disability, obesity, glomerulopathy | Obesity, glomerulopathy |
| Patient 3 | MAGEL2 | c.290dup | Heterozygote | Pathogenic | Male | Prader Willi Syndrome, autism, Schaaf-Yang Syndrome | Obesity, hyperphagia, intellectual disability, epilepsy, infantile hypotonia |
| Patient 4 | MC4R | c.380C>T | Heterozygote | Pathogenic | Female | Obesity | Obesity |
| Patient 5 | GNAS | c.682C>T | Heterozygote | Pathogenic | Male | Disorder of GNAS inactivation, pseudohypoparathyroidism | Obesity, hypothyroidism |
| Patient 6 | LEPR | c.2929G>T | Homozygote | Likely pathogenic | Male | Obesity | Obesity |
| Patient 7 | TBX3 | c.1267T>G | Heterozygote | VUS | Male | Ulnar-Mammary Syndrome; Skeletal anomalies, delayed puberty, genital anomaly, obesity | Obesity, developmental delay, infantile hypotonia |
| Patient 8 | NR0B2 | c.134G>C | Heterozygote | VUS | Female | Obesity | Obesity |
| Patient 9 | PHIP | c.4895C>T | Heterozygote | VUS | Female | Behavioral problems, intellectual disability, obesity, dysmorphic features | Obesity |
| Patient 10 | CREBBP / MECP2 | c.7162G>A/c.1040_1063del | Heterozygote/Heterozygote | VUS/VUS | Female | Rubinstein-Tayvi Syndrome Obesity after puberty/Rett Syndrome |
Obesity, hyperphagia, developmental delay, infantile hypotonia |
| *From https://franklin.genoox.com/ and https://www.omim.org/ | |||||||
Keywords: POMC, PCSK1, LEPR, setmelanotide
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