OR33-07 ARNT2: a potential novel candidate gene for monogenic obesity in humans
OR33-07 ARNT2: a potential novel candidate gene for monogenic obesity in humans
Introduction: Aryl hydrocarbon nuclear translocator 2 (ARNT2) is a basic helix-loop-helix (bHLH)-PAS (Per/Arnt/Sim) transcription factor shown to be critical to the development of paraventricular nucleus of the hypothalamus (PVN), key region for energy homeostasis and feeding response. In vivo and in vitro studies have shown that ARNT2 is an obligate heterodimer for SIM1, known cause of monogenic obesity. Null mutations in Arnt2 in animals are not viable, but hypomorphic mutation results in hyperphagic obesity and its associated consequences (1). Due to the critical role of ARNT2 in the development of PVN, we hypothesize that hypomorphic mutations may result in early onset obesity in humans.Methods: The Genetics of Early Childhood Obesity (GECO) study recruits children with severe obesity (BMI > 120% of 95th percentile) of early onset (< 6 years). Whole exome sequencing (WES) was performed in a subset of proband-parent trios. The functional validation of the mutation(s) in ARNT2 is ongoing with co-transfection of tagged Arnt2 and Sim1 in HEK293 cells, with the induction of a luciferase reporter gene under the control of 6 repeats of bHLH-PAS core binding element by the Arnt2-Sim1 complex.Results: Two adolescents from unrelated families were found to have genetic variants in ARNT2. Subject 1 has a novel de novo heterozygous coding variant in ARNT2, c.388 C>G (p.P130A, CADD 25), predicted to be deleterious by 8/12 in silico algorithms. She is a 14-year old Caucasian girl with severe early onset obesity, BMI 28.1 kg/m2 (BMIz +4.72) at 2.5 years of age that has increased to 53.54 kg/m2 (BMIz + 3.25) at 14-years, and height > 95th %tile. She is non-dysmorphic, has developmental delay, absence seizures, behavior abnormalities & glucose intolerance/dyslipidemia secondary to obesity. Using genematcher, we identified another proband with the phenotype of obesity: an African American girl (BMIz +1.9) with biallelic inherited heterozygous variants in ARNT2, c.1228T>A (p.W410R, CADD 29) and c.916G>A (p.G306S, CADD 22). An only child conceived by IVF, she is non-dysmorphic and on treatment for bilateral focal epilepsy. All 3 variants are rare, with mean allele frequency < 0.005 in population-based databases such as gNOMAD. Both the patients have early onset obesity and a significant neurological phenotype. ARNT2 is a highly constrained gene of 717 amino acids with a significant depletion of missense variants in the N-terminus (1-244 aa) and overall fewer loss of function variants in ~282,644 alleles sequenced in gNOMAD.CConclusions: We propose that hypomorphic mutations in ARNT2 could be a potential novel cause of monogenic obesity in humans. Future studies will investigate the molecular mechanisms causing weight dysregulation in patient specific disease relevant hypothalamic neurons.Reference: (1) Turer et al., Dis Model Mech. 2018; 11(12)
Thaker, Vidhu V
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Seaby, Eleanor G
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Genetti, Casie
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Sutherland, Jacob
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Ianello, Grazia
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Rajabi, Farrah
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Schreiber, John M
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Doege, Claudia A
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Turer, Emre E
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Hirschhorn, Joel N
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Agrawal, Pankaj B
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8 May 2020
Thaker, Vidhu V
61112bba-33d0-424a-a5b0-5c425bc974fa
Seaby, Eleanor G
ec948f42-007c-4bd8-9dff-bb86278bf03f
Genetti, Casie
e9aab730-c04a-4f1b-ad19-d9adc5d912c0
Sutherland, Jacob
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Ianello, Grazia
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Rajabi, Farrah
bae58202-c5d3-4350-b61b-a9647ca81edf
Schreiber, John M
2083bc1e-8987-4c07-94ca-59d36a0abf94
Doege, Claudia A
cc3833b3-a295-43c6-ba56-f30235b66a90
Turer, Emre E
8010953a-7b08-4e79-abd8-66e329972ae8
Hirschhorn, Joel N
8d48f3cd-a3f9-491a-b2d5-3dc61e201b03
Agrawal, Pankaj B
131f4aec-f677-4db9-a0e8-a094908172b3
Thaker, Vidhu V, Seaby, Eleanor G, Genetti, Casie, Sutherland, Jacob, Ianello, Grazia, Rajabi, Farrah, Schreiber, John M, Doege, Claudia A, Turer, Emre E, Hirschhorn, Joel N and Agrawal, Pankaj B
(2020)
OR33-07 ARNT2: a potential novel candidate gene for monogenic obesity in humans.
Journal of the Endocrine Society, 4 (Supplement_1), [OR33-07].
(doi:10.1210/jendso/bvaa046.1139).
Abstract
Introduction: Aryl hydrocarbon nuclear translocator 2 (ARNT2) is a basic helix-loop-helix (bHLH)-PAS (Per/Arnt/Sim) transcription factor shown to be critical to the development of paraventricular nucleus of the hypothalamus (PVN), key region for energy homeostasis and feeding response. In vivo and in vitro studies have shown that ARNT2 is an obligate heterodimer for SIM1, known cause of monogenic obesity. Null mutations in Arnt2 in animals are not viable, but hypomorphic mutation results in hyperphagic obesity and its associated consequences (1). Due to the critical role of ARNT2 in the development of PVN, we hypothesize that hypomorphic mutations may result in early onset obesity in humans.Methods: The Genetics of Early Childhood Obesity (GECO) study recruits children with severe obesity (BMI > 120% of 95th percentile) of early onset (< 6 years). Whole exome sequencing (WES) was performed in a subset of proband-parent trios. The functional validation of the mutation(s) in ARNT2 is ongoing with co-transfection of tagged Arnt2 and Sim1 in HEK293 cells, with the induction of a luciferase reporter gene under the control of 6 repeats of bHLH-PAS core binding element by the Arnt2-Sim1 complex.Results: Two adolescents from unrelated families were found to have genetic variants in ARNT2. Subject 1 has a novel de novo heterozygous coding variant in ARNT2, c.388 C>G (p.P130A, CADD 25), predicted to be deleterious by 8/12 in silico algorithms. She is a 14-year old Caucasian girl with severe early onset obesity, BMI 28.1 kg/m2 (BMIz +4.72) at 2.5 years of age that has increased to 53.54 kg/m2 (BMIz + 3.25) at 14-years, and height > 95th %tile. She is non-dysmorphic, has developmental delay, absence seizures, behavior abnormalities & glucose intolerance/dyslipidemia secondary to obesity. Using genematcher, we identified another proband with the phenotype of obesity: an African American girl (BMIz +1.9) with biallelic inherited heterozygous variants in ARNT2, c.1228T>A (p.W410R, CADD 29) and c.916G>A (p.G306S, CADD 22). An only child conceived by IVF, she is non-dysmorphic and on treatment for bilateral focal epilepsy. All 3 variants are rare, with mean allele frequency < 0.005 in population-based databases such as gNOMAD. Both the patients have early onset obesity and a significant neurological phenotype. ARNT2 is a highly constrained gene of 717 amino acids with a significant depletion of missense variants in the N-terminus (1-244 aa) and overall fewer loss of function variants in ~282,644 alleles sequenced in gNOMAD.CConclusions: We propose that hypomorphic mutations in ARNT2 could be a potential novel cause of monogenic obesity in humans. Future studies will investigate the molecular mechanisms causing weight dysregulation in patient specific disease relevant hypothalamic neurons.Reference: (1) Turer et al., Dis Model Mech. 2018; 11(12)
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Published date: 8 May 2020
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Local EPrints ID: 470109
URI: http://eprints.soton.ac.uk/id/eprint/470109
ISSN: 2472-1972
PURE UUID: 7e05b7ba-e193-4369-b2e8-0d6ba3035ccd
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Date deposited: 03 Oct 2022 16:52
Last modified: 17 Mar 2024 04:05
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Author:
Vidhu V Thaker
Author:
Eleanor G Seaby
Author:
Casie Genetti
Author:
Jacob Sutherland
Author:
Grazia Ianello
Author:
Farrah Rajabi
Author:
John M Schreiber
Author:
Claudia A Doege
Author:
Emre E Turer
Author:
Joel N Hirschhorn
Author:
Pankaj B Agrawal
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