SUN-LB13 Idiopathic Infantile Hypercalcemia Secondary to CYP24A1 Mutation: A Rare Case Without Exogenous Vitamin D Supplementation

Abstract

Background: Mutations in CYP24A1, which encodes 24-hydroxylase, the key enzyme for Vitamin D breakdown, cause symptomatic hypercalcemia and nephrocalcinosis in infants on Vitamin D supplementation. New, symptomatic diagnoses of idiopathic infantile hypercalcemia without exogenous supplementation are rare. Previous case reports describe a seasonal effect with worsening hypercalcemia and hypercalciuria during summertime, attributed to increased sun exposure and endogenous Vitamin D production. Clinical Case: A 10-month-old female presented to endocrine care with hypercalcemia and nephrocalcinosis, detected on renal ultrasound (US) due to history of UTI. Her first renal US and serum calcium (Ca) at 3mo of age were normal. Subsequent renal US at 6mo and 9mo of age demonstrated nephrocalcinosis, prompting nephrology and endocrine evaluation. History was significant for failure to thrive. She was born in the fall, with worsening hypercalcemia and nephrocalcinosis during the summer. Diet consisted of standard infant formula and age appropriate solid foods with no added Vitamin D supplementation (~300 IU/day in her formula). She had no family history of nephrocalcinosis, nephrolithiasis, bone disease, or disorders of Ca regulation. Initial labs were notable for Ca corrected for albumin 11.5 (7.8-11.1 mg/dL), PTH <4 (8.7-77.1 pg/mL), 25-OH-Vitamin D 81 (30-96 ng/mL), 1,25-OH-Vitamin D 23.1 (26.1-95 pg/mL), Urine Ca/creatinine ratio of 0.9 mg/mg (<0.81), normal chromosomal microarray, and normal thyroid function tests. She was started on reduced mineral formula PM 60/40. One week later, repeat Ca level increased to Ca corrected 14.2 (7.8-11.1 mg/dL). She was admitted for IV fluids and pamidronate, and was transitioned to a low Ca and Vitamin D formula (Calcilo), with improvement in Ca levels. Testing revealed an increased ratio of 25-OH-Vitamin D to 24,25-OH-Vitamin D of 192 (normal <25), and genetic testing showed 2 pathogenic missense mutations in CYP24A1 genes: c.1226T>C p.(Leu409Ser) and c.1186C>T p.(Arg396Trp). The Leu409Ser mutation has shown a small amount of 24-hydroxylase activity in previous in vitro analysis. She has continued a low Ca diet with stable Ca corrected of 10.7-10.8 (8.7-9.8 mg/dL) and significantly improved weight gain. Conclusion: This is one of the few documented cases of symptomatic idiopathic infantile hypercalcemia secondary to CYP24A1 mutation in an infant without exogeneous Vitamin D supplementation. Her nephrocalcinosis and hypercalcemia worsened over the summer, suggesting increased sun exposure may have been a contributing factor. This case demonstrates that 1,25-OH-Vitamin D levels may be normal or low in this condition, particularly for individuals with the Leu409Ser mutation who may retain partial 24-hydroxylase function.