Purpose We characterize the clinical and molecular phenotypes of six unrelated individuals with intellectual disability and autism spectrum disorder who carry heterozygous missense variants of the PRKAR1B gene, which encodes the R1β subunit of the cyclic AMP-dependent protein kinase A (PKA). Methods Variants of PRKAR1B were identified by single- or trio-exome analysis. We contacted the families and physicians of the six individuals to collect phenotypic information, performed in vitro analyses of the identified PRKAR1B-variants, and investigated PRKAR1B expression during embryonic development. Results Recent studies of large patient cohorts with neurodevelopmental disorders found significant enrichment of de novo missense variants in PRKAR1B. In our cohort, de novo origin of the PRKAR1B variants could be confirmed in five of six individuals, and four carried the same heterozygous de novo variant c.1003C>T (p.Arg335Trp; NM_001164760). Global developmental delay, autism spectrum disorder, and apraxia/dyspraxia have been reported in all six, and reduced pain sensitivity was found in three individuals carrying the c.1003C>T variant. PRKAR1B expression in the brain was demonstrated during human embryonal development. Additionally, in vitro analyses revealed altered basal PKA activity in cells transfected with variant-harboring PRKAR1B expression constructs. Conclusion Our study provides strong evidence for a PRKAR1B-related neurodevelopmental disorder.
Purpose: We characterize the phenotypes of six unrelated individuals with intellectual disability and autism spectrum disorder, who carry heterozygous missense-variants of the PRKAR1B gene. Methods: Variants of PRKAR1B were identified by single-exome or trio-exome analysis. We contacted the families and physicians of the six individuals in order to collect clinical and phenotypic information. Results: PRKAR1B encodes the R1β subunit of the cyclic AMP-dependent protein kinase A (PKA), and is predominantly expressed in the central nervous system. Recent studies of patient cohorts with neurodevelopmental disorders found significant enrichment of de novo missense variants in PRKAR1B, and in vivo studies of the murine ortholog demonstrated altered hippocampal function and reduced neurogenic inflammation and long-term nociceptive pain in R1β-deficient mice. In our study, de novo origin of the PRKAR1B-variants could be confirmed in five out of six individuals, and four carried the same heterozygous de novo variant c.1003C>T (p. Arg335Trp; NM_001164760). Global developmental delay, autism spectrum disorder, and apraxia/dyspraxia has been reported in all six, and reduced pain sensitivity was found in three individuals carrying the c.1003C>T variant. Conclusion: Our study provides strong evidence for a novel, PRKAR1B-related neurodevelopmental disorder.
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