Abstract
Several mutations, located mainly in the MSX1 homeodomain, have been identified in non-syndromic tooth agenesis predominantly affecting premolars and third molars. We identified a novel frameshift mutation of the highly conserved C-terminal domain of MSX1, known as Msx homology domain 6 (MH6), in a Japanese family with non-syndromic tooth agenesis. To investigate the importance of MH6 in tooth development, Msx1 was targeted in mice with CRISPR/Cas system. Although heterozygous MH6 disruption did not alter craniofacial development, homozygous mice exhibited agenesis of lower incisors with or without cleft palate at E16.5. In addition, agenesis of the upper third molars and the lower second and third molars were observed in 4-week-old mutant mice. Although the upper second molars were present, they were abnormally small. These results suggest that the C-terminal domain of MSX1 is important for tooth and palate development, and demonstrate that that CRISPR/Cas system can be used as a tool to assess causality of human disorders in vivo and to study the importance of conserved domains in genes.
Highlights
Non-syndromic tooth agenesis has been associated with mutations in a variety of genes involved in tooth morphogenesis
We have reported a novel frameshift mutation in exon 2 of MSX1 in a family with autosomal-dominant inheritance of non-syndromic oligodontia
The proband and her father had tooth agenesis phenotypes that were similar to those observed with previously identified MSX1 mutations[26,27]
Summary
Non-syndromic tooth agenesis has been associated with mutations in a variety of genes involved in tooth morphogenesis. The proband was screened for mutations of genes previously related to tooth agenesis (i.e., PAX9, AXIN2, EDA, WNT10A, etc.) by targeted exome sequencing (TES), with generation technology. Most MSX1 variants isolated from patients with tooth agenesis to date involved single amino acid substitutions in the highly conserved homeodomain/MH4 sequence; few frameshift, nonsense, and splice-site mutations that lead to premature termination have been examined.
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