Somatic mutations in GLI3 and OFD1 involved in sonic hedgehog signaling cause hypothalamic hamartoma.

Abstract

ObjectiveHypothalamic hamartoma (HH) is a congenital anomalous brain tumor. Although most HHs are found without any other systemic features, HH is observed in syndromic disorders such as Pallister–Hall syndrome (PHS) and oral‐facial‐digital syndrome (OFD). Here, we explore the possible involvement of somatic mutations in HH.MethodsWe analyzed paired blood and hamartoma samples from 18 individuals, including three with digital anomalies, by whole‐exome sequencing. Detected somatic mutations were validated by Sanger sequencing and deep sequencing of target amplicons. The effect of GLI3 mutations on its transcriptional properties was evaluated by luciferase assays using reporters containing eight copies of the GLI‐binding site and a mutated control sequence disrupting GLI binding.ResultsWe found hamartoma‐specific somatic truncation mutations in GLI3 and OFD1, known regulators of sonic hedgehog (Shh) signaling, in two and three individuals, respectively. Deep sequencing of amplicons covering the mutations showed mutant allele rates of 7–54%. Somatic mutations in OFD1 at Xp22 were found only in male individuals. Potential pathogenic somatic mutations in UBR5 and ZNF263 were also identified in each individual. Germline nonsense mutations in GLI3 and OFD1 were identified in each individual with PHS and OFD type I in our series, respectively. The truncated GLI3 showed stronger repressor activity than the wild‐type protein. We did not detect somatic mutations in the remaining 9 individuals.InterpretationOur data indicate that a spectrum of human disorders can be caused by lesion‐specific somatic mutations, and suggest that impaired Shh signaling is one of the pathomechanisms of HH.