An in vitro and computational validation of a novel loss-of-functional mutation in PAX9 associated with non-syndromic tooth agenesis

Abstract

AbstractCongenital tooth agenesis (CTA) is one of the most common craniofacial anomalies. Its frequency varies among different population depending upon the genetic heterogeneity. CTA could be of familial or sporadic and syndromic or non-syndromic. Five major genes are found to be associated with non-syndromic CTA namely, PAX9, MSX1, EDA1, AXIN2 and WNT10A. In this study, an India family with CTA was investigated and a novel c.336C>G variation was identified in the exon 3 of PAX9, leading to substitution of evolutionary conserved Cys with Trp at 112 amino acid position located at the functionally significant DNA binding paired domain region. Functional analysis revealed that p.Cys112Trp mutation did not prevent the nuclear localization although mutant protein had higher cytoplasmic retention. EMSA using e5 probe revealed that mutant protein was unable to bind with the paired-domain binding site. Subsequently, GST pull-down assay revealed lower binding activity of the mutant protein with its known interactor MSX1. Further RNA-sequencing of PAX9 over-expressed HEK293, identified two potential novel targets, WNT4 and WNT7b those are up-regulated by wild-type PAX9 but not by mutant. These in vitro results were consistent with the computational results. The in vitro and computational observations altogether suggest that c.336C>G (p.Cys112Trp) variation leads to loss-of-function of PAX9 leading to CTA in this family.