Harlequin ichthyosis(HI)is one of the most devastating genodermatoses.Recently,ABCA12 mutations were identifiedas the cause of HI.A newborn Japanese male demonstrated the typical features of HI.The patient was treated...Harlequin ichthyosis(HI)is one of the most devastating genodermatoses.Recently,ABCA12 mutations were identifiedas the cause of HI.A newborn Japanese male demonstrated the typical features of HI.The patient was treated with oral etretinate and his general condition has been good(now aged 1.5 years).This patient with moderate clinical severity was compound heterozygous for a novel de novo missense mutation 1160G > A(S387N)in exon 10 and a maternal deletion mutation 4158 4160delTAC(T1387del)in exon 28 of ABCA12.T1387del was a deletion of a highly conserved threonine residue within the first adenosine 5’triphosphate-binding domain and is thought to seriously affect the function of the ABCA12 protein.Conversely,the residue 387 is located outside the known active sites of ABCA12 and S387N is predicted not to lead to a serious functional deficiency in ABCA12.Electron microscopy revealed abnormal lamellar granules in the granular layer cells and a moderate number of lipid vacuoles in the cornified cells.Disturbed glucosylceramide transport was confirmed in the cultured keratinocytes from the patient.No de novomutation in ABCA12 has yet been reported either in HI or lamellar ichthyosis.The present case suggested that a de novo ABCA12 mutation might underlie HI.展开更多
文摘Harlequin ichthyosis(HI)is one of the most devastating genodermatoses.Recently,ABCA12 mutations were identifiedas the cause of HI.A newborn Japanese male demonstrated the typical features of HI.The patient was treated with oral etretinate and his general condition has been good(now aged 1.5 years).This patient with moderate clinical severity was compound heterozygous for a novel de novo missense mutation 1160G > A(S387N)in exon 10 and a maternal deletion mutation 4158 4160delTAC(T1387del)in exon 28 of ABCA12.T1387del was a deletion of a highly conserved threonine residue within the first adenosine 5’triphosphate-binding domain and is thought to seriously affect the function of the ABCA12 protein.Conversely,the residue 387 is located outside the known active sites of ABCA12 and S387N is predicted not to lead to a serious functional deficiency in ABCA12.Electron microscopy revealed abnormal lamellar granules in the granular layer cells and a moderate number of lipid vacuoles in the cornified cells.Disturbed glucosylceramide transport was confirmed in the cultured keratinocytes from the patient.No de novomutation in ABCA12 has yet been reported either in HI or lamellar ichthyosis.The present case suggested that a de novo ABCA12 mutation might underlie HI.
