Novel TRPS1 frameshift variant in tricho-rhino-phalangeal syndrome type I accompanied by zinc deficiency

Tricho-rhino-phalangeal syndrome type I (TRPS1), caused by pathogenic variants in the transcriptional repressor GATA-binding 1 gene (TRPS1), is characterized by ectodermal and skeletal anomalies including short stature and sparse scalp hair during infancy. TRPS1 encodes a zinc finger protein transcription factor that contributes to bone homeostasis by regulating perichondral mineralization, chondrocyte proliferation, and apoptosis. Here, a male infant aged 14 months presented with sparse scalp hair, deformed nails, fused teeth, and postnatal growth retardation without neurodevelopmental disorder. As endocrinological measurements revealed low serum zinc levels, he was treated with zinc acetate hydrate, which improved his growth velocity and scalp hair. Whole-exome sequencing revealed that this patient harbored a novel pathogenic de novo heterozygous TRPS1 frame-shift variant, c.2819_2822del, p.(His940Argfs*6). Zinc deficiency induces zinc finger protein dysfunction via effects on protein folding and assembly, affecting target gene transcription and apoptosis. The symptoms of TRPS1 are similar to those caused by inadequate levels of zinc, an essential trace element with important roles in tissue growth and repair. Accompanying zinc deficiency may have affected the function of important zinc finger proteins, resulting in phenotypic deterioration. Analysis of zinc metabolism in patients harboring TRPS1 variants will enhance understanding the variety of phenotypes of TRPS1.