Classification of primary cutaneous lymphomas (PCLs) is the subject of ongoing controversy. Based on a series of 556 patients, the applicability of the European Organization for Research and Treatment of Cancer (EORTC) classification for PCLs was assessed and compared to the proposed World Health Organization (WHO) classification of hematologic malignancies. The large majority of patients could be properly classified according to the scheme proposed by the EORTC. Comparison of estimated 5-year survival for specific diagnostic categories of PCLs demonstrated nearly complete concordance of the present results with those of the EORTC study for most of the indolent cutaneous T-cell lymphomas and cutaneous B-cell lymphomas, whereas differences were found for mycosis fungoides-associated follicular mucinosis and Sezary syndrome. A few patients with newly described entities (CD8(+) epidermotropic cytotoxic T-cell lymphoma, primary cutaneous natural killer/T-cell lymphoma) could not be classified according to the EORTC scheme. Comparison of the EORTC with the WHO classification showed that the EORTC scheme allows a more precise categorization of the patients, especially for cutaneous B-cell lymphoma. In conclusion, the study confirmed that the EORTC classification allows a better management of patients with PCL. Small amendments to that classification should be carried out to account for recently described entities and to unify some of the diagnostic categories.
Basal cell carcinoma, the most frequent skin cancer in humans, is often linked to chronic sun exposure. In psoralen and ultraviolet A-treated psoriatic patients, basal cell carcinomas may occur even more frequently; however, the exact etiology and mechanisms of tumorigenesis in psoriatic patients are unclear because psoralen and ultraviolet A is not only a carcinogen but also an immunosuppressor and because psoralen and ultraviolet A-treated psoriatic patients often have other (co)carcinogenic risk factors (e.g, therapeutic exposure to ultraviolet B, X-ray radiation, arsenic, tar, and/or chemotherapeutic agents such as methotrexate). In this study, we analyzed the DNA of 13 basal cell carcinomas from five psoralen and ultraviolet A-treated psoriatic patients for mutations of the p53 tumor suppressor gene. DNA sequencing revealed a total of 11 mis-sense, two non-sense, and four silent mutations in seven of the 13 basal cell carcinomas (54%). Of the 13 total mis-sense or non-sense mutations, 12 (92%) occurred at dipyrimidine sites and nine (69%) were of the ultraviolet fingerprint type (eight C-->T transitions and one CC-->TT transition). Three of the C-->T transitions occurred at dipyrimidine sites opposite a 5'-TpG sequence (a potential psoralen-binding site and target for psoralen and ultraviolet A mutagenesis). Thus, whether these mutations were induced by ultraviolet or psoralen and ultraviolet A was not clear. In addition, two other mutations (15%) occurred at 5'-TpG sites, one (8%) occurred at a 5'-TpA site (the most frequent site of psoralen binding and mutagenesis in cell and murine studies), and one (8%) involved a G-->T transversion. These results suggest that (i) the major initiator of p53 mutations in basal cell carcinoma in psoralen and ultraviolet A-treated psoriasis patients is environmental and/or therapeutic ultraviolet(B) exposure, and that (ii) psoralen and ultraviolet A itself causes only a smaller portion of p53 mutations in psoralen and ultraviolet A-associated basal cell carcinomas.
Clinical follow-up studies have revealed that PUVA-treated patients are at increased risk of skin cancer, particularly squamous cell carcinoma (SCC). However, since psoralen and UVA (PUVA) is not only a potent mutagen and carcinogen but also an immunosuppressor, and since other (co)carcinogenic factors often exist in psoriasis patients, the exact causes and mechanisms of PUVA-associated SCC are still not completely understood. In order to fill this gap the tools of molecular epidemiology are being used to study the SCC mutational spectra of p53 and Ha-ras, two of the most commonly mutated genes in human cancers. A previous mutation analysis revealed that SCC in PUVA-treated patients often carried mutated p53 genes and that many of the mutations had the UV fingerprint (i.e. C-->T or CC-->TT transitions at dipyrimidine sites). In the present study DNA-sequencing analysis revealed a total of 18 Ha-ras missense or nonsense mutations at exons 1-4 in 13 of 17 SCC (76%) from 8 of 11 (73%) PUVA-treated psoriasis patients. Six of the 18 mutations (33%) were of UV-fingerprint type (C-->T transitions), five (28%) were at 5'-TpG sites (i.e. potential psoralen-binding sites and thus potentially caused by PUVA) and seven were of other type (39%), including six G:C-->T:A transversions at hotspot codon 12. In addition, in the case of 6 of the 11 subjects (55%) both tumor and normal skin samples contained a T:A-->C:G base change at codon 27 (a 5'-ATT site), a change previously hypothesized to be a possible silent Ha-ras polymorphism at one allele. When we compared the present Ha-ras mutation spectrum with the p53 mutation spectrum from a previous study of the samples, we found that approximately half of the tumors harbored mutations in both Ha-ras and p53. Together, our results indicate that Ha-ras mutations are present in a large proportion of PUVA-associated SCC and that UVB, PUVA and other agents may induce Ha-ras mutations and act together with p53 in the formation of SCC in psoriasis patients.
Context: Beginning in 1957, patients have been described with localized alopecia characterized histopathologically by mucin deposition within hair follicles (follicular mucinosis [FM]). At least 2 distinct diagnostic entities have been proposed: one occurring in children and young adults without association with other diseases ("idiopathic" FM), the other occurring in elderly patients and associated with mycosis fungoides or Sézary syndrome ("lymphoma-associated" FM).Objective: To determine whether idiopathic and lymphoma-associated FM are distinct or related entities.
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