RESUMEN
Genetic defects of NKX2-1 are classically associated with hypothyroidism, benign chorea and neonatal respiratory distress. The purpose of this study was to identify the genetic pathogenesis of the "NKX2-1 triad" in a 10 year-old female presenting additional features barely described in the disorder. In the neonatal period, she presented with generalized hypotonia and respiratory distress, with later episodes of frequent wheezing. At 3â¯month-age developmental dysplasia of the hip was diagnosed and at 10â¯months, primary hypothyroidism was detected and treated. Subsequently, delayed achievement of developmental milestones and then subtle choreic movements of extremities were identified at 2â¯years of age. Furthermore, delayed teeth eruption and agenesis of some dental pieces, short stature and joint hyperlaxity were also noticed. At 10â¯years, a poor immune response to polysaccharide antigens and hypogammaglobulinemia, including all IgG subclasses were detected. Surprisingly, no mutations were identified in the complete coding region of NKX2-1 by PCR and Sanger sequencing. MLPA showed a de novo loss of gene dosage in all 3 probes located in NKX2-1 exons. A CGH-array identified a deletion of 3.32â¯Mb in chromosome 14q13.2-q21.1 containing 20 genes, including NKX2-1, PAX9 and two candidate genes (NFKB1A and PPP2R3C) involved in immune response. The Brain-Lung-Thyroid syndrome (OMIM#610978; ORPHA:209905) associated with other clinical phenotypes should suggest monoallelic deletions of chromosome 14 causing haploinsufficiency of NKX2-1, and other contiguous genes like PAX9 (hypodontia) or other dosage-sensitive genes in the chromosomal vicinity that emerge as candidates for hypogammaglobulinemia, mainly NFKBIA.