Upon screening 30 candidate genes, we identified a missense mutation, p.Ser63Asn in SSH1 in one family, a frameshift mutation, p.Ser19CysfsX24 in an alternative variant (isoform f) of SSH1 in another family, and a frameshift mutation, p.Pro27ProfsX54 in the same alternative variant in one non-familial case with DSAP.
Two known DSAP loci, DSAP1 and DSAP2, two DSAP candidate genes (SART3 and SSH1), one DSP-linked locus and one PPPD-linked locus were first excluded in the family.
Two known DSAP loci, DSAP1 and DSAP2, two DSAP candidate genes (SART3 and SSH1), one DSP-linked locus and one PPPD-linked locus were first excluded in the family.
The results indicate that the actinic character of DSAP is not reflected in the cellular response to the lethal effects of UV light, but suggest that DSAP shares X-ray sensitivity, which is probably associated with the cancer-prone nature of PK.
The result identified SLC17A9 as another pathogenic gene for DSAP, which suggests a correlation between the aberrant vesicular nucleotide transporter and the pathogenesis of DSAP.
The previous results and this study have shown that DSAP is a genetically heterogeneous disorder; a novel locus for DSAP, termed DSAP2, was mapped to a 6.4-cM region between markers D15S1023 and D15S1030.
Primary cultures of keratinocytes and fibroblasts were established from lesional and nonlesional skin biopsies of two subjects with DSAP. p53 mutations were analysed by DNA sequencing of the conserved region of the TP53 gene.
Patients with disseminated superficial actinic porokeratosis (DSAP) and linear porokeratosis (LP) exhibit monoallelic germline mutations in genes encoding mevalonate pathway enzymes, such as MVD or MVK.
Patients with disseminated superficial actinic porokeratosis (DSAP) and linear porokeratosis (LP) exhibit monoallelic germline mutations in genes encoding mevalonate pathway enzymes, such as MVD or MVK.
Direct DNA sequencing analysis of the whole coding regions of MVK detected three MVK missense mutations, and two were novel for DSAP: c.31C>T (P11S) and c.1004G>A (G335D).
A missense mutation (p.Ser63Asn) in SSH1 and a variation (dbSNP3759383: G>A) in the promoter region of ARPC3 were closely linked with DSAP in the pedigree.