p53 alterations in porokeratosis

Background:  Porokeratosis (PK) is a group of cutaneous entities characterized by disordered epidermal keratinization and by a predisposition to develop malignant transformation. The molecular mechanism of this carcinogenesis remains unclear, but p53 has been proposed as a mediator of this process. p53 overexpression, detected by immunohistochemistry, has frequently been reported in PK, and p53 mutations are direct results of ultraviolet (UV) skin exposure and are directly involved in most common skin cancers. Methods:  Eleven cases of Mibelli‐type PK, one of them associated with a squamous cell carcinoma, were reviewed. Formalin‐fixed, paraffin‐embedded archival tissue from these cases was immunostained for p53 and used for DNA extraction for the analysis of p53 mutations by polymerase chain reaction and single‐strand conformation polymorphism. Results:  Increased p53 expression was confirmed in all cases. Most of them showed a discontinuous labeling, often stronger at the base of the cornoid lamella. No relation with sun exposure was observed. Finally, no p53 mutations were found at the gene levels more frequently damaged in human cancers called ‘hot spots’. Conclusions:  p53 alterations can be involved in the pathogenesis of the PK and the carcinogenesis arising in some of the lesions. Since p53 gene inactivation in human cancer is related to mutation and/or loss, the absence of genetic damage could indicate that p53 alterations are only at the protein level, leading to an abnormal cell‐cycle control. UV exposure does not seem to play a main role in the process.