Hipercalcemia hipocalciúrica familiar: Descripción de un caso / Familial hypocalciuric hypercalcemia: A case report

La presencia de hipercalcemia mantenida obliga a realizar pruebas complementarias para determinar su origen. Es benigna y, generalmente, no requiere tratamiento. La secuenciación del gen CaSR confirma el diagnóstico y evita tratamientos innecesarios. Se presenta a un niño de 12 años, asintomático, con hipercalcemia persistente entre 11,4 y 12,2 mg/dl. El padre y dos hermanos tenían hipercalcemia asintomática. El análisis de laboratorio mostró valores de magnesio, fósforo y vitamina D normales y de hormona paratiroidea llamativamente normal para el valor de la hipercalcemia. Indice de calcio/creatinina urinario: 0,11 mg/mg; y calciuria de 24 h: 1,8 mg/kg/día. Ecografía abdominal, paratiroides, radiografías de huesos largos y densitometría ósea, normales. El estudio genético mostró mutación en exón 6 (c.1651A>G) del gen CaSR (en heterocigosis), confirmada en el padre y los hermanos.

The finding of persistent hypercalcemia suggests doing other medical tests to find the cause. Familial hypocalciuric hypercalcemia is usually benign and it requires no treatment. It is important to do CASR gene sequencing to avoid unnecessary treatments. We report a 12-year-old child, asymptomatic, with calcemia between 11.4 and 12.2 mg/dl. His father and two brothers presented asymptomatic hypercalcemia. The blood test with magnesium, phosphorus, 25(OH)Vit D was normal, remarkable normal parathyroid hormone for the level of hypercalcemia. Urinary calcium/creatinine ratio was 0,11 mg/dl and 24-hour urinary calcium was 1,8 mg/kg per day. Abdominal and parathyroid ecography, long bone radiographs and densitometry were normal. Genetic study showed a mutation, c.1651A>G, in exon 6 of the calciumsensing receptor gene, confirmed in father and brothers, too.

New mutation in the CASR gene in a family with familial hypocalciuric hypercalcemia (FHH) and neonatal severe hyperparathyroidism (NSHPT) / Nova mutação no gene CASR em uma família com hipercalcemia hipocalciúrica familiar (HHF) e hiperparatireoidismo neonatal grave (HPTNG)

A loss of calcium-sensing receptor (CASR) function due to inactivating mutations can cause familial hypocalciuric hypercalcemia (FHH) or neonatal severe hyperparathyroidism (NSHPT). NSHPT represents the most severe expression of FHH and courses as a life-threatening condition. The aim of this study was to identify and characterize a CASR mutation in a female infant brought to the health service due to dehydration, apathy, lack of breast feeding and severe hypercalcemia. Molecular analysis was performed on genomic DNA of the index case and her parents. A novel homozygous mutation (p.E519X) in CASR was identified in the proband; both mother and father had the same mutation in heterozygous state, confirming their FHH condition. The mutation results in a truncated and inactive protein due to the lack of transmembrane and intracellular domains. The identification of this novel CASR gene mutation established the basis of hypercalcemia in this family and allowed a genetic counseling.

Mutações inativadoras no gene do sensor do cálcio (CASR) podem causar hipercalcemia hipocalciúrica familiar (HHF) ou hiperparatireoidismo neonatal grave (HPTNSG). A HPTNS representa a forma mais grave da HHF cursando com risco de vida. O objetivo deste estudo foi identificar e caracterizar uma mutação no gene CASR de uma criança do sexo feminino levada ao hospital em decorrência de desidratação, apatia, dificuldade para mamar e hipercalcemia grave. A análise molecular foi realizada a partir do DNA genômico do caso índice e de seus pais. Uma nova mutação em homozigose (p.E519X) foi identificada no caso índice; ambos, mãe e pai, apresentaram a mesma mutação em heterozigose, o que os caracteriza como portadores de HHF. Essa alteração resulta em uma proteína truncada e inativa devido à falta dos domínios transmembrana e intracelular. A identificação dessa nova mutação estabeleceu a causa da hipercalcemia na família e permitiu o aconselhamento genético.