Abstract
BackgroundAutosomal recessive congenital ichthyoses (ARCI) have been associated with different phenotypes including: harlequin ichthyosis (HI), congenital ichthyosiform erythroderma (CIE), and lamellar ichthyosis (LI). While pathogenic variants in all ARCI genes are associated with LI and CIE phenotypes, the unique gene associated with HI is ABCA12. In HI, the most severe ARCI form, pathogenic variants in both ABCA12 gene alleles usually have a severe impact on protein function. The presence of at least one non‐truncating variant frequently causes a less severe congenital ichthyosis phenotype (LI and CIE).MethodsWe report the case of a 4‐year‐old Ecuadorian boy with a severe skin disease. Genetic diagnosis was performed by NGS. In silico predictions were performed using Alamut software v2.11. A review of the literature was carried out to identify all patients carrying ABCA12 splice‐site and missense variants, and to explore their genotype‐phenotype correlations.ResultsGenetic testing revealed a nonsense substitution, p.(Arg2204*), and a new missense variant, p.(Val1927Leu), in the ABCA12 gene. After performing in silico analysis and a comprehensive review of the literature, we conclude that p.(Val1927Leu) affects a well conserved residue which could either disturb the protein function or alter the splicing process, both alternatives could explain the severe phenotype of our patient.ConclusionThis case expands the spectrum of ABCA12 reported disease‐causing variants which is important to unravel genotype‐phenotype correlations and highlights the importance of missense variants in the development of HI.
Highlights
Autosomal recessive congenital ichthyoses (ARCIs) are a heterogeneous disease that can present with a wide range of phenotypes including harlequin ichthyosis, (HI), congenital ichthyosiform erythroderma (CIE), and lamellar ichthyosis (LI)
ARCI is a genetically heterogeneous condition that can be caused by pathogenic variants in at least 12 genes including TGM1 (OMIM #190195), ABCA12 (OMIM #607800), NIPAL4 (OMIM #609383), CYP4F22 (OMIM #611495), ALOX12B (OMIM #603741), ALOXE3 (OMIM #607206), LIPN (OMIM #613924), PNPLA1 (OMIM #612121), CERS3 (OMIM #615276), SDR9C7 (OMIM #609769), SULT2B1 (OMIM #604125), and CASP14 (OMIM #605848) (Fischer, 2009; Grall et al, 2012; Heinz et al, 2017; Kirchmeier, Zimmer, Bouadjar, Rösler, & Fischer, 2017; Lefèvre et al, 2003, 2006; Radner et al, 2013; Shigehara et al, 2016)
Sixteen were filtered out while two putative ABCA12 variants in heterozygous state were prioritized by its location in the gene, the type of change they originated, and the frequency in 1000G project: (a) a transition from C to T in exon 44: c.6610C>T; p.(Arg2204*) that leads to a nonsense substitution; it is located in the second transmembrane domain of the ABCA12 protein (Figure 2b,c)
Summary
This work was partially supported by Ramón Areces Foundation project awarded to A.Vega, by Spanish Instituto de Salud Carlos III (ISCIII) (INT15/00,070, INT16/00,154, INT17/00,133) and Xunta de Galicia (IN607B) (to A. Vega) and by Universidad Espíritu Santo‐Ecuador given to M. Montalván‐Suárez.
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