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Controlled Clinical Trial
. 2013 Feb;45(2):67-75.
doi: 10.1002/lsm.22087.

Microarray analysis of port wine stains before and after pulsed dye laser treatment

Vivian T Laquer  1 Peter A HeveziHuguette AlbrechtTina S ChenAlbert ZlotnikKristen M Kelly
Affiliations
Controlled Clinical Trial

Microarray analysis of port wine stains before and after pulsed dye laser treatment

Vivian T Laquer et al. Lasers Surg Med. 2013 Feb.

Abstract

Background and objectives: Neither the pathogenesis of port wine stain (PWS) birthmarks nor tissue effects of pulsed dye laser (PDL) treatment of these lesions is fully understood. There are few published reports utilizing gene expression analysis in human PWS skin. We aim to compare gene expression in PWS before and after PDL, using DNA microarrays that represent most, if not all, human genes to obtain comprehensive molecular profiles of PWS lesions and PDL-associated tissue effects.

Materials and methods: Five human subjects had PDL treatment of their PWS. One week later, three biopsies were taken from each subject: normal skin (N); untreated PWS (PWS); PWS post-PDL (PWS + PDL). Samples included two lower extremity lesions, two facial lesions, and one facial nodule. High-quality total RNA isolated from skin biopsies was processed and applied to Affymetrix Human gene 1.0ST microarrays for gene expression analysis. We performed a 16 pair-wise comparison identifying either up- or down-regulated genes between N versus PWS and PWS versus PWS + PDL for four of the donor samples. The PWS nodule (nPWS) was analyzed separately.

Results: There was significant variation in gene expression profiles between individuals. By doing pair-wise comparisons between samples taken from the same donor, we were able to identify genes that may participate in the formation of PWS lesions and PDL tissue effects. Genes associated with immune, epidermal, and lipid metabolism were up-regulated in PWS skin. The nPWS exhibited more profound differences in gene expression than the rest of the samples, with significant differential expression of genes associated with angiogenesis, tumorigenesis, and inflammation.

Conclusion: In summary, gene expression profiles from N, PWS, and PWS + PDL demonstrated significant variation within samples from the same donor and between donors. By doing pair-wise comparisons between samples taken from the same donor and comparing these results between donors, we were able to identify genes that may participate in formation of PWS and PDL effects. Our preliminary results indicate changes in gene expression of angiogenesis-related genes, suggesting that dysregulation of angiogenic signals and/or components may contribute to PWS pathology.

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Conflict of interest statement

Conflict of Interest Disclosures: All authors have completed and submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest and none were reported.

Figures

Fig. 1
Fig. 1
Expression profiles of genes exhibiting co-ordinate expression profiles between PWS and laser treated lesions. Affymetrix GeneChip data are shown as normalized average intensity values for each gene in pairs of subjects as follows: (A) Peptidase Inhibitor 3, Skin-Derived (PI3), (B) Stanniocalcin 1 (STC1), (C) Purkinje Cell Protein 4 (PCP4), (D) Fatty Acid Desaturase 1 (FADS1). Panels A–C; subjects 1 (black bar) and 2 (gray bar), panel D; subjects 2 (black bar) and 4 (gray bar).
See this image and copyright information in PMC

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