POLE is a pleiotropic gene with phenotypic expression of pathogenic variants depending on the type of variant, impact on the protein, and mode of inheritance. Heterozygous missense variants located within the exonuclease domain have been shown to result in polymerase proofreading-associated polyposis (PPAP) which is characterized by an increased risk for colon polyps and colorectal cancer. Biallelic variants resulting in markedly reduced amounts of normal protein have been reported in two separate recessive pediatric syndromes: facial dysmorphism, immunodeficiency, livedo, and short stature as well as intrauterine growth restriction, metaphyseal dysplasia, adrenal hypoplasia congenital, and genital anomalies. Here we report two siblings identified to have POLE c.1686 + 32C > G in trans with POLE p.(Glu709*) via exome sequencing. A detailed review of the reported phenotypes in these two siblings and from available literature revealed that individuals with biallelic POLE pathogenic variants resulting in partial loss-of-function present with a similar phenotype: short stature and facial dysmorphism with or without immunodeficiency. These data suggest a phenotypic continuum between the previously reported POLE-related recessive disorders.

The case study unveils the likely mechanism of a novel stop-loss DAX1 variant preceding the prolonged precocious puberty in the adrenal hypoplasia congenital (AHC) boy. A boy aged five years and nine months initially examined for the primary adrenal insufficiency symptoms. Next-generation sequencing confirmed the X-linked inheritance of a novel stop-loss DAX1 variant: c.1411T>C/p.Ter471Gln associated with AHC in the patient. The patient was subjected to a brief clinical follow-up from 11 to 15.1 years of age. The effect of the mutant-DAX1 variant (p.Ter471Gln) on DAX1-steroidogenic factor 1 (SF1) (protein-protein) interaction was studied by protein-protein docking using the ClusPro-online tool. At 5.9 yrs of age, the patient exhibited precocious puberty with the secondary sexual characteristics of Tanner 2 stage (of 9-14 yrs of age). The patient showed primary adrenal insufficiency with diminished cortisol concentrations at blood serum (25 ng/ml) and urine (3.55 μg/24 h) levels. Upon steroidal exposure, the patient showed normalized serum cortisol levels of 45-61 ng/ml. However, the precocious puberty got prolonged with the increased penis length of 8.5 cm and the bone age of 18 yrs old during the follow-up. The patient showed increased basal serum adrenocorticotropic hormone (110->2000 pg/ml) and follicle-stimulating hormone (18.4-22.3 mIU/ml) concentrations. Following an elevated hypothalamic-pituitary-gonadal axis activity witnessed upon gonarellin stimulation. Protein-protein docking confirmed a weaker interaction between the mutant-DAX1 (p.Ter471Gln) protein and the wild-SF1 protein. Overall, we hypothesize the weakened mutant-DAX1-SF1 (protein-protein) interaction could govern the prolonged precocious puberty augmented with the elevated hypothalamic-pituitary-gonadal/adrenal axis responses via SF1-induced neuronal nitric oxide synthetase activation in the patient.

BACKGROUND: X-linked adrenal hypoplasia congenita (AHC) is a rare but important cause of primary adrenal insufficiency and can be associated with significant morbidity and mortality. AHC is caused by mutations within the NROB1 gene that codes for the DAX-1 protein, an orphan nuclear receptor essential for the development of the hypothalamic-pituitary-adrenal axis. Affected individuals typically present in early infancy with adrenal insufficiency and growth is usually normal once medical therapy is instituted. Here we report the first case of growth hormone deficiency in an infant with AHC and a novel NROB1 missense mutation.
METHODS: A two-week old infant presented with salt-losing adrenal crises and a normal newborn screen. Tests of adrenal function confirmed adrenal hypoplasia congenita and molecular evaluation revealed a novel missense NROB1 mutation. Replacement steroid therapy was promptly initiated, but he subsequently developed growth failure despite optimal nutritional and medical steroid therapy. Further biochemical analyses confirmed isolated idiopathic growth hormone deficiency.
CONCLUSIONS: Growth failure in adequately treated infants with adrenal hypoplasia congenita is rare and the role of DAX-1 in the development of pituitary somatotropes is not known. There is variable genotype-phenotype correlation in X-linked adrenal hypoplasia congenita but novel NROB1 missense mutations could offer insight into the function of the various DAX-1 ligand-binding domains.