Loss of tissue-type plasminogen activator causes multiple developmental anomalies.

Abstract

Hydrocephalus and Dandy-Walker malformation are amongst the most common congenital brain anomalies. We identified three consanguineous families with both obstructive hydrocephalus and Dandy-Walker malformation. To understand the molecular basis of these anomalies, we conducted genome-wide sequencing in these families. We identified three homozygous truncating variants in the PLAT gene in the four affected family members. All of them showed tetraventricular hydrocephalus. In two individuals, a membrane at the inferior aspect of the fourth ventricle was likely the cause of their hydrocephalus. Three cases exhibited Dandy-Walker malformation, whereas the two oldest individuals displayed intellectual disability. PLAT encodes the tissue-type plasminogen activator, a serine protease whose main function is to cleave the proenzyme plasminogen to produce active plasmin. Interestingly, plasminogen deficiency has also been shown to cause obstructive hydrocephalus and Dandy-Walker malformation, suggesting that loss of PLAT causes these defects by disrupting plasmin production. In summary, we describe a recessive disorder characterized by obstructive hydrocephalus, Dandy-Walker malformation and intellectual disability in individuals with loss-of-function variants in PLAT. This discovery further strengthens the involvement of the plasminogen pathway in the pathogenesis of these developmental disorders.