We report two female siblings, a 13-month-old and a newborn, with multiple anomalies including hypoplastic kidneys, severe growth restriction, facial dysmorphism, and alopecia, both found to be homozy Show more
We report two female siblings, a 13-month-old and a newborn, with multiple anomalies including hypoplastic kidneys, severe growth restriction, facial dysmorphism, and alopecia, both found to be homozygous for the c.587 T>C variant in ZPR1. Their clinical features are strikingly similar to those previously reported in a patient who was homozygous for the same variant. Our report confirms that homozygosity for c.587 T>C in ZPR1 underlies a novel genetic syndrome with autosomal recessive inheritance and that c.587 T>C is a founder variant for ZPR1 disorder in the Middle Rio Grande Valley. We expand our understanding of the phenotype by describing abnormal glucose homeostasis, growth hormone resistance, and progressive liver disease with decompensated portal hypertension and esophageal varices despite the absence of cirrhosis. Show less
A novel autosomal recessive disorder characterized by pre- and postnatal growth restriction with microcephaly, distinctive craniofacial features, congenital alopecia, hypoplastic kidneys with renal in Show more
A novel autosomal recessive disorder characterized by pre- and postnatal growth restriction with microcephaly, distinctive craniofacial features, congenital alopecia, hypoplastic kidneys with renal insufficiency, global developmental delay, severe congenital sensorineural hearing loss, early mortality, hydrocephalus, and genital hypoplasia was observed in 4 children from 3 families of New Mexican Hispanic heritage. Three of the children died before 3 years of age from uremia and/or sepsis. Exome sequencing of the surviving individual identified a homozygous c.587T>C (p.Ile196Thr) mutation in ZPR1 Zinc Finger (ZPR1) that segregated appropriately in her family. In a second family, the identical variant was shown to be heterozygous in the affected individual's parents and not homozygous in any of her unaffected siblings. ZPR1 is a ubiquitously expressed, highly conserved protein postulated to transmit proliferative signals from the cell membrane to the nucleus. Structural modeling reveals that p.Ile196Thr disrupts the hydrophobic core of ZPR1. Patient fibroblast cells showed no detectable levels of ZPR1 and the cells showed a defect in cell cycle progression where a significant number of cells remained arrested in the G1 phase. We provide genetic and molecular evidence that a homozygous missense mutation in ZPR1 is associated with a rare and recognizable multisystem syndrome. Show less