A distinctive oral phenotype points to FAM20A mutations not identified by Sanger sequencing.

James A Poulter,Christopher M Watson,Ian M Carr,Gina Murrillo,Marianella Howell,Claire E L Smith,Sandra Silva,Sally Feather,David T Bonthron,Alan J Mighell,Chris F Inglehearn,Laura Crinnion

doi:10.1002/mgg3.164

Abstract

Biallelic FAM20A mutations cause two conditions where Amelogenesis Imperfecta (AI) is the presenting feature: Amelogenesis Imperfecta and Gingival Fibromatosis Syndrome; and Enamel Renal Syndrome. A distinctive oral phenotype is shared in both conditions. On Sanger sequencing of FAM20A in cases with that phenotype, we identified two probands with single, likely pathogenic heterozygous mutations. Given the recessive inheritance pattern seen in all previous FAM20A mutation-positive families and the potential for renal disease, further screening was carried out to look for a second pathogenic allele. Reverse transcriptase-PCR on cDNA was used to determine transcript levels. CNVseq was used to screen for genomic insertions and deletions. In one family, FAM20A cDNA screening revealed only a single mutated FAM20A allele with the wild-type allele not transcribed. In the second family, CNV detection by whole genome sequencing (CNVseq) revealed a heterozygous 54.7kb duplication encompassing exons 1 to 4 of FAM20A. This study confirms the link between biallelic FAM20A mutations and the characteristic oral phenotype. It highlights for the first time examples of FAM20A mutations missed by the most commonly used mutation screening techniques. This information informed renal assessment and ongoing clinical care.

Highlights

Biallelic FAM20A mutations cause Amelogenesis Imperfecta (AI) and Gingival Fibromatosis Syndrome (AIGFS, OMIM: 614253) (O’Sullivan et al 2011) and Enamel Renal Syndrome (ERS, OMIM: 204690) (Jaureguiberry et al 2012; Wang et al 2013)
Exons and flanking intronic sequences of FAM20A and FAM20C were amplified by the polymerase chain reaction (PCR) according to standard protocols
He presented to clinic with hypoplastic AI and mild gingival enlargement suggestive of mutations in FAM20A (Fig. 2B)

Summary

Introduction

Biallelic FAM20A mutations cause Amelogenesis Imperfecta (AI) and Gingival Fibromatosis Syndrome (AIGFS, OMIM: 614253) (O’Sullivan et al 2011) and Enamel Renal Syndrome (ERS, OMIM: 204690) (Jaureguiberry et al 2012; Wang et al 2013). Both disorders involve hypoplastic AI in the primary and secondary dentitions, together with variable degrees of gingival hyperplasia, pulpal calcifications, and delayed tooth eruption (de la Dure-Molla et al 2014). Nephrocalcinosis may subsequently develop with a variable age of onset that is incompletely defined. Some patients diagnosed with AIGFS have subsequently been recognized to have nephrocalcinosis. It has been suggested that recessive FAM20A mutations are responsible for a single disease which should be termed ERS (de la Dure-Molla et al 2014)

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Results

Conclusion