ESPE2024 Poster Category 1 Thyroid 3 (8 abstracts)
Genetic Etiology in Congenital Hypothyroidism
Gözde Gürpınar 1 , Gizem Böke Koçer 1 , Esra Koçyiğit 1 , Selen Hürmüzlü Közler 1 , Erhan Parıltay 2 , Haluk Akın 2 , Jeremy Huw Jones 3 & Filiz Mine Çizmecioğlu Jones 1
1Division of Pediatric Endocrinology, Department of Pediatrics, Kocaeli University School of Medicine, Kocaeli, Turkey. 2Department of Medical Genetics, Ege University School of Medicine, İzmir, Turkey. 3Department of Academic Writing, Kocaeli University, Kocaeli, Turkey
Introduction: Numerous genetic defects have been identified in relation to congenital hypothyroidism (CH). In recent years, with the increased accessibility of molecular genetic analysis, CH etiology is better understood. We evaluated patients followed with a diagnosis of CH who were diagnosed using next-generation sequencing analysis.
Methods: The study included 19 cases (10 females,52.6%). Patients with thyroid gland in situ (GIS), taking Na L-thyroxine (discontinued/continued follow-up), with persistently elevated TSH, and positive molecular genetic analysis results were included.
Results: Seventeen (89.5%) were referred from the newborn screening program, while two were referred due to prolonged jaundice. The rate of consanguineous marriages was 42%, with four (21%) being siblings. The median (range) age of starting treatment was 30 (11-330) days, median venous TSH was 28.8 (8.4-594)mIU/L, fT4 was 0.91 (0.2-1.5)ng/dL. The median duration of treatment was 6 (0.01-10.9) years, median follow-up was 7.3(1.8-14.2) years. Six (32%) discontinued medication during follow-up, at a median age of 21 (3-36) months, when TSH was 5.45 (0.34-11.40)mIU/L and fT4 was 1.41 (1.27-1.70)ng/dL. Two siblings with same TPO variants had significantly different clinical presentations. One had severe hypothyroidism (TSH:451mIU/L, fT4 <0.25ng/dL) while the other had TSH 9.2mIU/L, fT4 0.97ng/dL (Table1).
| Gene n = 19 | Variant | Inheritance | ACMG |
| TSHR | c.1532C>T | Homozygous | VUS (variant of uncertain significance) |
| c.2066T>G | Heterozygous | LP (Likely pathogenic) | |
| c.1957C>G | Heterozygous | LP | |
| c.484C>T | Homozygous | LP | |
| c.484C>G/ c.467+1G>A (n = 2) | Compound heterozygous | LP/LP | |
| TPO | c.1618C>T (n = 2) | Homozygous | P (pathogenic) |
| c.955G>A | Homozygous | VUS | |
| c.2212C>T | Heterozygous | LP | |
| TG | c.3333A>G | Heterozygous | VUS |
| DUOX2 | c.2056C>T | Homozygous | P |
| c.1873C>T/c.3509A>C | Compound heterozygous | P/VUS | |
| DUOXA2/DUOX2 | c.738C>G/c.716-374G>T | Heterozygous | P/VUS |
| DUOX2/TPO/TSHR | c.2895_2898del/ c.1184_1187dup/ c.122G>C | Heterozygous | P/P/LP |
| TSHB | c.*64T>C | Heterozygous | VUS |
| IRS4 | c.1324C>T | Hemizygous | VUS |
| AKT1 | c.440T>C | Heterozygous | VUS |
| NKX2-5 | c.876C>G | Heterozygous | VUS |
Discussion: The rate of identifying molecular etiology in GIS cases is higher in the literature, and genetic variants associated with thyroid disorders other than dyshormonogenesis can be identified, as shown in our cases. Studies have linked the AKT1 gene to non-medullary thyroid cancer and the IRS4 gene to central hypothyroidism. Furthermore, similar to our cases, cases with elevated TSH levels related to thyroid disorders other than dyshormonogenesis have been reported in the literature in the presence of a mutation in the TSHB gene associated with central hypothyroidism. Siblings sharing identical TPO variants may show different symptoms. Genetic analysis in GIS cases with CH can help personalize treatment.
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