A novel microdeletion in LOR causing autosomal dominant loricrin keratoderma.

Dear Editor, The dramatic presentation of a collodion baby is most commonly associated with a diagnosis of autosomal recessive ichthyosis (ARCI). We investigated a family wherein the father and all four children were collodion at birth, implying an autosomal dominant inheritance pattern. Postnatally, the affected individuals presented with variable degrees of generalized ichthyosis and palmoplantar keratoderma (PPK) (Fig.​(Fig.1).1). These clinical features were more pronounced in the father than in the children, and were reported to have become more prominent with age. The phenotype was of generalized nonerythematous xerosis and fine scaling, with adherent larger scale on the lower legs, and mild PPK that exhibited honeycomb patterning. The mother was unaffected and the parents were nonconsanguineous. One of the children also had moderate neurodevelopmental delay and microcephaly, and the father had asthma. Figure 1 (a) Transgradient palmar keratoderma, (b) honeycomb patterning on the palm and (c) sole, (d) ichthyosis on the lower leg, (e) microdeletion in LOR shown by next-generation sequencing and (f) confirmed by Sanger sequencing. With research ethics committee approval, blood was taken from one child and both parents, and DNA was extracted using standard methods. Skin scrapings were obtained from the father and the child, with a 4-mm punch skin biopsy taken from the father. Next-generation sequencing of leucocyte DNA was performed using a Nextera Custom Enrichment Kit (Illumina, San Diego, CA, U.S.A.) targeting exonic regions of clinically relevant published dermatology genes, including known ichthyosis and PPK genes (Table S1; see Supporting Information). A 50-ng DNA sample was simultaneously fragmented using Illumina Enrichment Sample Prep and tagged with adaptors. Polymerase chain reaction (PCR) introduced sample-specific indexes to the library, and following quantification this was hybridized to the custom-capture probes. Streptavidin beads captured the probes containing the targeted regions of interest and a series of washes removed nonspecific binding from the beads. This enrichment and capture was repeated once to enrich the target regions further. The enriched library was amplified by limited rounds of PCR, quantified, diluted and sequenced on the Illumina MiSeq. Analysis was using an in-house pipeline, where FASTQ files were aligned using Burrows–Wheeler Aligner1 and indexed with SAMtools (http://samtools.sourceforge.net/).2 Variant calling was performed with VarScan (http://varscan.sourceforge.net/),3,4 and VCF files were annotated with Variant Effect Predictor (http://www.ensembl.org). Annotated variants were then filtered in Microsoft Excel, BAM files reviewed manually and mutations confirmed using Sanger sequencing. A novel heterozygous deletion inducing a frameshift was found in the loricrin gene Chr1 (GRCh37): g.153234085_153234086del, LOR c.660_661delGC, p.Gln222Alafs*113, predicted in silico as possibly damaging (Polyphen score 0.799; http://genetics.bwh.harvard.edu/pph2/) (Fig.​(Fig.1).1). This established a diagnosis of loricrin keratoderma (previously known as Vohwinkel syndrome with ichthyosis, or Vohwinkel syndrome variant), distinct from classical Vohwinkel syndrome by the co-occurrence of generalized ichthyosis and the absence of hearing loss.5 The two conditions are genotypically distinct, with Vohwinkel syndrome due to mutations in GJB2 and Vohwinkel with ichthyosis due to mutations in LOR.6 The occurrence of constrictive digital bands leading to autoamputation is variably reported to be a feature of the variant form, but was not present in this family. Comparison of this novel mutation with previously described pathogenic mutations in this form of loricrin keratoderma revealed a common mechanism of frameshift indels affecting the C terminus of the protein,7 with this being the first deletion reported in the literature. To characterize this mutation further we performed Western blotting for loricrin monomers and dimers on skin scale and whole-skin lysate, and immunofluorescence for loricrin, interleukin (IL)-1α, keratin 1 and mouse double minute 2 homologue (MDM2) on whole skin (Data S1; see Supporting Information). Monomeric and dimeric loricrin were clearly detectable in the patient's skin lysate compared with the normal skin lysate, where only the monomeric form was detected, There was weak expression of dimer in patient skin scale, compared with no free loricrin detectable in control scale (Fig.​(Fig.2a).2a). This defective incorporation of loricrin into the cornified envelope is analogous to that seen in ARCI.8 The domain of loricrin expression was expanded in patient hyperkeratotic skin, with nucleolar expression of loricrin as previously reported with insertions (Fig.​(Fig.22b).7 Histological analysis of patient skin showed not only hyperkeratosis, but also focal areas of parakeratosis (Fig.​(Fig.22c) Figure 2 Western blots (WB) and immunofluorescence of the proband reveal features common to both loricrin keratoderma and autosomal recessive ichthyosis (ARCI). (a) Western blot of whole-cell lysates and scale from the proband and an unaffected control. Note the ... The upregulation of IL-1α and MDM2 occurs in all lamellar-type ARCIs irrespective of genotype,9 and is consistent with the hyperkeratosis observed in MDM2-overexpressing mice.10 The upregulation of these proteins in patient skin provides further support for a common mechanism for hyperkeratosis.8,9 Interestingly keratin 1 expression was not increased in affected skin, further refining the hyperkeratosis signature common to ichthyoses due to different genetic defects. These results describe a novel mutation and the first deletion leading to loricrin keratoderma unusually presenting with collodion membrane, described only once previously,11 and provide further evidence of a common, MDM2-mediated gene expression pathway leading to ichthyosis and collodion membrane formation. This diagnosis should be considered as a rare cause of the clinical presentation of collodion baby.