Phenotypic specificity in patients with neurodevelopmental delay does not correlate with diagnostic yield of trio-exome sequencing.

In this study, we aimed to examine the diagnostic yield achieved by applying a trio approach in exome sequencing (ES) and the interdependency between the clinical specificity in families with neurodevelopmental delay. Thirty-seven families were recruited and trio-ES as well as three criteria for estimating the clinical phenotypic specificity were suggested and applied to the underaged children. All our patients showed neurodevelopmental delay and most of them a large spectrum of congenital anomalies. Applying the pathogenicity guidelines of the American College of Medical Genetics (ACMG), likely pathogenic (29.7%) and pathogenic variants (8.1%) were found in 40,5% of our index patients. Additionally, we found four variants of uncertain significance (VUS; according to ACMG) and two genes of interest (GOI; going beyond ACMG classification) (GLRA4, NRXN2). Spastic Paraplegia 4 (SPG4) caused by a formerly known SPAST variant was diagnosed in a patient with a complex phenotype, in whom a second genetic disorder may be present. A potential pathogenic variant linked to severe intellectual disability in GLRA4 requires further investigation. No interdependency between the diagnostic yield and the clinical specificity of the phenotypes could be observed. In consequence, trio-ES should be used early in the diagnostic process, independently from the specificity of the patient.

A KAT6A variant in a family with autosomal dominantly inherited microcephaly and developmental delay.

Approximately 1-3% of children have intellectual disability or global developmental delay. Heterozygous mutations have emerged as a major cause of different intellectual disability syndromes. In severely affected patients, reproductive fitness is impaired and mutations have usually arisen de novo. Massive parallel sequencing has been an effective means of diagnosing patients, especially those who carry a de novo mutation. The molecular diagnosis can be a way to shift from a more phenotype-driven management of the clinical signs to a more refined treatment based on genotype. Here, we report a novel dominantly inherited KAT6A missense variant in the C-terminal transactivation domain identified by exome sequencing in a girl and her father. Both had intellectual disability/developmental delay, short stature, microcephaly, and strabismus with the father being mildly affected. We here report the first inherited variant in KAT6A and suggest missense variants in KAT6A to be associated with an inheritable, milder clinical presentation compared to previously reported de novo, truncating mutations in this gene.