Heterozygous GH1 p.R209H Variant within a Large Pedigree May Mimic a Growth Hormone Insensitivity Pattern

SCAGLIA, P; BALLERINI, M G; KITZMAN, J; DOMENÉ, H; CAMPER, S; BRASLAVSKY, D; ROPELATO, M G; VISHNOPOLSKA, S; REY, R; BERGADÁ, I; SANGUINETI, N; KESELMAN, A; SUCO, S; MARTI, M; PEREZ-MILLAN, M I

New Orleans

Congreso; 101st Annual Meeting of the Endocrine Society; 2019

Endocine Society

Isolated growth hormone deficiency (IGHD) is most frequently caused by mutations in the GH1 gene. Pathogenic mutations in the GHRHR and GHSR have also been reported to cause IGHD. Individuals with IGHD type II present with variable clinical phenotype. Autosomal dominant GH1 p.R209H variant impairs GH secretion despite normal GH synthesis. The aim of this work is to expand the clinical and biochemical phenotype of heterozygous GH1 p.R209H missense mutation (previously known as p.R183H) in a large Argentinean pedigree. We report a non-consanguineous 4 generation pedigree. Two affected members showed classical IGHD phenotype: short stature (height -4.13 and -2.6 SD), low GH peak after arginine/clonidine provocative tests (3.6 and 2.6 ng/ml, cut-off value 4.7 ng/ml, GH IS 98/574, Immulite), non-detectable IGF-1, and low IGFBP-3 (-2.83 and -2.28 SD). Brain MRI showed anterior pituitary gland of 3.3 mm and 2.5 mm, respectively. The use of a customized panel for congenital hypopituitarism using single molecule molecular inversion probes sequencing (smMIPS) revealed a c.626G>A transition in GH1 gene, predicted to result in p.R209H mutation. The variant was subsequently confirmed by Sanger sequencing. Parents affected with the same variant presented either short (-1.91 SDS) or normal stature (-0.72 SDS). The patients? response to rhGH treatment was adequate (Δ heights were 2.49 and 1.37 SDS in 2.4 and 1.0 year of treatment, respectively). Additionally, 4/9 siblings within this pedigree had short stature (mean height -2.48 ± 0.62 SD) with mild or no clinical phenotype of GHD, normal GH response to provocative pharmacologic tests (maximum GH peaks 5.46 to 10.9 ng/ml), associated to low serum IGF-1 (mean -3.27 ± 0.89 SD) and IGFBP3 (mean -2.61 ± 0.42 SD), resembling a pattern of growth hormone insensitivity (GHI). IGF-1 generation tests (GH dose 33 µg/kg.day) showed a mean increment in IGF-1 of 3.25 times over basal, confirming adequate GH sensitivity. Despite the absence of complete GHD phenotype, data from the extended pedigree suggested GH1 as the initial candidate gene, identifying the same pathogenic GH1 variant in these four siblings. Brain MRI showed normal height of the anterior pituitary gland (range 3.9 to 4.6 mm). Their affected father had normal stature (-1.69 SDS) with low serum IGF-1 (64 ng/mL). We have shown that members of a large pedigree affected with the p.R209H GH1 variant showed either a classical clinical and biochemical pattern of GHD or an initial biochemical pattern resembling GHI. This variability could lead in certain cases to an elusive diagnosis of GHD when the classical phenotype is absent. Therefore, these results highlight the need to explore GH1 gene in children with short stature associated to low IGF-1 and IGFBP-3 serum levels even when GH response to pharmacological tests is normal.