We reported two neonates with homozygous mutations in ABCA12 consistent with harlequin ichthyosis who survived to discharge home with intensive care and without use of systemic retinoids.
Here we generated an ethylnitrosourea mutagenic HI pig model (named Z9), which carries a novel deep intronic mutation IVS49-727 A>G in the ABCA12 gene, resulting in abnormal mRNA splicing and truncated protein production.
In fact, loss of ABCA12 function leads to a defective lipid barrier in the stratum corneum, resulting in the HI phenotype and ABCA12 is a known keratinocyte lipid transporter associated with lipid transport in lamellar granules.
Recently, mutations in two ABC-transporter genes, ABCC6 and ABCA12, have been demonstrated to underlie phenotypically different diseases affecting the skin (pseudoxanthoma elasticum and harlequin ichthyosis, respectively), attesting to the spectrum of ABC gene mutations in human diseases.
A Mutations in the gene encoding the ABCA12 protein are associated with different subtypes of autosomal recessive congenital ichthyosis (ARCI), including Harlequin ichthyosis (HI), lamellar ichthyosis (LI) and non-bullous congenital ichthyosiform erythroderma (NCIE).
Autosomal recessive congenital ichthyosis (ARCI4B [OMIM #242500]), also known as harlequin ichthyosis, presents at birth with extreme hyperkeratosis and thick-fissured plaques, leading to tightness of the skin around the eyes, mouth, ears, chest, abdomen, and extremities.
One of these components, ABCA12, has recently been shown to be a keratinocyte lipid transporter associated with lipid transport in lamellar granules and loss of ABCA12 function leads to a defective lipid barrier in the stratum corneum, resulting in the HI phenotype.
Improved understanding of the genetic basis of HI indicates that genetic screening for candidate gene mutations related to HI, particularly mutations in the adenosine triphosphate binding-cassette transporter ABCA12, may prove beneficial in prenatal diagnosis.
Mutations in the gene encoding a member of the ABCA transporter family, ABCA12, have been linked to harlequin ichthyosis, but the molecular function of the protein is unknown.