Detection of expanded T cell clones in skin biopsy samples of patients with lichen sclerosus et atrophicus by T cell receptor-gamma polymerase chain reaction assays.
(1/40)
Lichen sclerosus et atrophicus is a chronic dermatosis of unknown etiology and pathogenesis. Lichen sclerosus et atrophicus associated skin lesions show T cell enriched infiltrates, sometimes resembling the histologic picture of early mycosis fungoides. It is supposed that the infiltrating T cells participate in the pathogenesis of atrophy and sclerosis. We investigated skin biopsies from 39 lichen sclerosus et atrophicus patients by histology, immunohistochemistry and, in order to establish the status of T cell clonality, by polymerase chain reaction amplifying the T cell receptor-gamma rearrangements. A stage-dependent shift of the CD3-positive T cells was observed from a predominantly CD4-positive to a predominantly CD8-positive phenotype. The increase of CD8-positive cells was associated with more pronounced epidermotropism and basal degeneration. Nearly all CD8-positive cells expressed cytotoxic granules (TIA1), possibly causing the basal destruction. In the late fibrotic stage of the disease, only a weak or no infiltrate was found. Regarding the T cell receptor-gamma polymerase chain reaction, the presence of clonally expanded T cells was demonstrated in 19 of 39 patients (49%) by at least one of two different high resolution electrophoresis techniques applied to separate the amplification products. Thus, for the first time clonally expanded infiltrating T cells were detected in lichen sclerosus et atrophicus. Furthermore, this is one of the first reports on the detection of clonally expanded infiltrating T cells in an inflammatory skin disease. The clonal T cells could not be assigned to the CD4 or CD8 subtype. Most likely, their presence is not the result of a malignant transformation but a response to an as yet unknown lichen sclerosus et atrophicus associated antigen. (+info)
Chromosome 17 aneusomy detected by fluorescence in situ hybridization in vulvar squamous cell carcinomas and synchronous vulvar skin.
(2/40)
Vulvar squamous cell carcinoma (SCC) affects a spectrum of women with granulomatous vulvar diseases, human papillomavirus (HPV) infections, and chronic inflammatory vulvar dermatoses. To determine whether there is evidence of chromosomal instability occurring in synchronous skin surrounding vulvar SCCs, we investigated abnormalities in chromosome 17 copy number. Samples of SCC, vulvar intraepithelial neoplasia (VIN), and surrounding vulvar skin were obtained from all vulvar excisions performed for squamous neoplasia at Albany Medical College from 1996 to 1997. Histological categorization, fluorescent in situ hybridization (FISH) for the alpha satellite region of chromosome 17, DNA content by image analysis, and Ki-67 labeling were evaluated. Controls of normal vulvar skin not associated with cancer were used for comparison. One hundred ten specimens were obtained from 33 patients with either SCC or VIN 3 and consisted of 49 neoplastic, 52 nonneoplastic, and 9 histologically normal vulvar skin samples. The majority of SCCs (88%) and a minority (18%) of VIN 3 excisions were associated with lichen sclerosus. Normal vulvar skin controls did not exhibit chromosome 17 polysomy (cells with more than four FISH signals), whereas 56% of normal vulvar skin associated with cancer did. Moreover, the frequency of polysomy significantly increased as the histological classification progressed from normal to inflammatory to neoplastic lesions. The largest mean value and variance for chromosome 17 copy number was identified in SCCs (2.4 +/- 1.0) with intermediate values identified, in decreasing order, for SCC in situ (2.1 +/- 1.0), VIN 2 (2.1 +/- 0.8), lichen sclerosus (2.0 +/- 0.5), lichen simplex chronicus (1.9 +/- 0.4), and normal skin associated with SCC (1.8 +/- 0.4) compared with control vulvar skin (1.5 +/- 0. 05). Concordance of chromosome 17 aneusomy between cancers and synchronous skin lesions was found in 48% of patients. Loss of chromosome 17 was identified 5% of all samples and was significantly associated with women with SCC in situ (HPV-related). Both DNA content and Ki-67 labeling positively and significantly correlated with mean chromosome 17 copy number (r = 0.1, P: = 0.007). A high degree of genetic instability (aneuploidy) occurs in the skin surrounding vulvar carcinomas. As these events could be detected in histologically normal skin and inflammatory lesions (lichen sclerosus), chromosomal abnormalities may be a driving force in the early stages of carcinogenesis. Differences in chromosomal patterns (loss or gain) support the concept of at least two pathways in vulvar carcinogenesis. (+info)
Clinical features of lichen sclerosus in men attending a department of genitourinary medicine.
(3/40)
OBJECTIVES: To characterise the clinical presentation and response to treatment of lichen sclerosus (LS) in men attending a department of genitourinary medicine. METHODS: A case note review of all men attending a GUM department over a 32 month period, who had been diagnosed as having LS. RESULTS: 66 men were seen with genital LS. The mean age at diagnosis was 36.5 years but symptoms had been present for up to 10 years before the diagnosis was made. 55 men underwent biopsy and the diagnosis was made histologically in 47 of these men. At the time of presentation 30% of men had no symptoms relating to their LS. All were treated with potent topical steroids and surgery was avoided in nearly all of them. CONCLUSIONS: LS is not uncommon in men presenting to a GUM department, and is often asymptomatic. The disease responds well to potent topical steroids allowing the normal anatomy to be preserved in most individuals. (+info)
Decrease in epidermal CD44 expression as a potential mechanism for abnormal hyaluronate accumulation in superficial dermis in lichen sclerosus et atrophicus.
(4/40)
CD44 is a polymorphic integral membrane glycoprotein that serves as the principal cell surface receptor for hyaluronate, the major component of the extracellular matrix. CD44 is abundantly found in the skin and functions as a cell adhesion molecule. In a recent study we have observed a massive dermal accumulation of hyaluronate as a result of the in vivo selective suppression of CD44 in keratinocytes in mice expressing a keratin 5 promoter-driven CD44 anti-sense transgene. As the histologic features of the dorsal skin of these transgenic mice display some similarities to those of the skin lesions of lichen sclerosus et atrophicus, we explored the nature of the material accumulated in the dermis of genital and extragenital lesions of 14 patients with lichen sclerosus et atrophicus by Alcian Blue and human CD44 receptor globulin stainings, as well as the epidermal expression of CD44 protein and mRNA by immunohistochemistry and in situ hybridization. In this study we provide evidence that hyaluronate is accumulated in the superficial dermis of lichen sclerosus et atrophicus lesions, in particular by the use of human CD44 receptor globulin staining, which binds specifically to hyaluronate. In addition we show that the protein and mRNA expression of CD44 in the epidermis of the involved lichen sclerosus et atrophicus skin from genital and extragenital areas is significantly decreased, and in some cases completely lost. In contrast, keratinocyte CD44 expression was un-altered in the skin lesions of lupus erythematosus, scleroderma and reticular erythematous mucinosis, despite the presence of a mucinous material in the dermis. These results suggest that a decrease in CD44 in the keratinocytes may be correlated with an abnormal dermal accumulation of hyaluronate in the lesions of lichen sclerosus et atrophicus, and may play a pathogenetic role in this disease. J Invest Dermatol 115:1054-1058 2000 (+info)
Monoclonal gamma-T-cell receptor rearrangement in vulvar lichen sclerosus and squamous cell carcinomas.
(5/40)
Risk factors for vulvar squamous cell carcinoma (SCC) are human papilloma virus (HPV) infections and lichen sclerosus (LS). The significance of monoclonal gamma-T-cell receptor (gamma-TCR) rearrangement in the lymphoid infiltrate of LS and the consequence for vulvar carcinogenesis is unknown. One hundred sixty-one biopsies of vulvar LS and SCC, with and without LS, were examined for monoclonal gamma-TCR rearrangement and HPV16 expression, and for the expression of B- and T-cell markers and fascin. Monoclonal gamma-TCR rearrangement was identified in 8 of 17 patients with LS and 11 of 21 patients with SCC arising in LS with only occasional HPV16 DNA detection. None of the 19 SCC without LS showed monoclonal gamma-TCR rearrangement, but 14 of 19 patients had strong HPV16 detection. The lichenoid infiltrate of LS with germline configuration consisted predominantly of T cells (CD8 > CD4), along with numerous B cells. However, in biopsies with monoclonally rearranged gamma-TCR, CD4-positive T cells dominated along with B cells and fascin-positive cells in the lichenoid infiltrate and in deeply located lymphocyte aggregates (LAs). These LAs additionally contained fascin-positive dendritic cells with only individual CD8, CD57, and granzyme-positive cells. LAs in biopsies with germline configuration demonstrated numerous T cells (CD8 >CD4), but only single peripheral B cells, CD57, and fascin-positive lymphocytes. Our data suggest that monoclonal gamma-TCR rearrangement is characteristic for and limited to LS and SCC arising in LS, raising the question for a LS-associated antigen. We interpret B cells, CD4-positive T cells, and fascin-expressing dendritic cells within LS as a cellular immune response to antigen or proliferating T-cell clones. The resulting local immune dysregulation in LS may provide a permissive environment for the development of a SCC. (+info)
Overexpression of wild-type p53 in lichen sclerosus adjacent to human papillomavirus-negative vulvar cancer.
(6/40)
Human papillomavirus is a risk factor for vulvar cancer, whereas human papillomavirus-negative late onset vulvar carcinoma is associated with the dermatologic condition, lichen sclerosus. Human papillomavirus E6 protein targets TP53 for degradation and by inference it has been assumed that human papillomavirus-negative vulvar cancer is dependent upon the acquisition of p53 somatic mutations and subsequent allelic loss. To investigate this, TP53 expression, loss of heterozygosity, and p53 genomic sequence were examined in 29 cases of human papillomavirus-negative vulvar carcinoma with adjacent lichen sclerosus. We examined 37 cases of lichen sclerosus without vulvar carcinoma, 10 cases of nongenital lichen sclerosus, and 12 cases of normal vulvar epithelium served as controls. TP53 was evident in 72% of vulvar carcinoma, 48% in epithelium adjacent to vulvar carcinoma, but was minimal in normal samples. When lichen sclerosus cases were selected to exclude samples with absolutely no TP53 expression through probable failed antigen retrieval or homozygous p53 loss the number of epithelial cells expressing TP53 increased progressively from nongenital lichen sclerosus to lichen sclerosus without vulvar carcinoma, then to lichen sclerosus with vulvar carcinoma (p<0.0001). These data suggest elevated TP53 is a feature of vulvar lichen sclerosus. Seventy-four percent of vulvar carcinoma had chromosome 17p-linked loss of heterozygosity, whereas 47% of adjacent lichen sclerosus featured loss of heterozygosity, but only 31% of vulvar carcinoma had p53 mutations, a frequency less than reported previously. Seven percent of adjacent lichen sclerosus had mutations, showing for the first time the presence of an identical mutation to the matched vulvar carcinoma. These data, however, implicate p53 mutations as a later event in vulvar carcinoma and in marked contrast to the original expectation, our loss of heterozygosity data are consistent with loss of another locus (not p53) on 17p operating as a tumor suppressor in lichen sclerosus destined to develop vulvar carcinoma. (+info)
TP53 mutations in vulval lichen sclerosus adjacent to squamous cell carcinoma of the vulva.
(7/40)
Non-neoplastic epithelial lesions of the vulva (NNEDV) lichen sclerosus (LS) and squamous hyperplasia (SH) have been implicated in the pathogenesis of squamous cell carcinoma of the vulva (SCC). To date, there have been no recognisable precursor lesions for SCC associated with NNEDV. TP53 is the most frequent genetic change in human cancers and can indicate both aetiology and molecular pathogenesis of tumours. A total of 27 SCC patients underwent immunohistochemistry (IHC) and TP53 mutational analysis using microdissection and direct sequencing. There were 19 patients with areas of adjacent epidermis: 17 had NNEDV (four SCCs had more than one adjacent lesion) and two had normal epidermis. In all, 70.4% of the SCCs, 40% LS and 22.2% SH demonstrated overexpression of p53. In total, 77.8% of SCCs, 46.7% of LS and 22.2% SH demonstrated mutations in TP53, with the majority of lesions having a mutation in codon 136. Eight cases were identified where the same mutation was identified in the SCC and in the adjacent area. These data suggest that TP53 mutations develop in NNEDV and are intrinsic to the clonal evolution that leads to SCC. The type of mutation detected is more likely to occur due to endogenous cellular changes rather than exogenous carcinogen exposure. (+info)
Development of antigen-specific ELISA for circulating autoantibodies to extracellular matrix protein 1 in lichen sclerosus.
(8/40)
Lichen sclerosus is a common, acquired chronic inflammatory skin disease of unknown etiology, although circulating autoantibodies to the glycoprotein extracellular matrix protein 1 (ECM1) have been detected in most patients' sera. We have examined the nature of ECM1 epitopes in lichen sclerosus sera, developed an ELISA system for serologic diagnosis, and assessed clinicopathological correlation between ELISA titer and disease. Epitope-mapping studies revealed that lichen sclerosus sera most frequently recognized the distal second tandem repeat domain and carboxyl-terminus of ECM1. We analyzed serum autoantibody reactivity against this immunodominant epitope in 413 individuals (95 subjects with lichen sclerosus, 161 normal control subjects, and 157 subjects with other autoimmune basement membrane or sclerosing diseases). The ELISA assay was highly sensitive; 76 of 95 lichen sclerosus patients (80.0%) exhibited IgG reactivity. It was also highly specific (93.7%) in discriminating between lichen sclerosus and other disease/control sera. Higher anti-ECM1 titers also correlated with more longstanding and refractory disease and cases complicated by squamous cell carcinoma. Furthermore, passive transfer of affinity-purified patient IgG reproduced some histologic and immunopathologic features of lichen sclerosus skin. This new ELISA is valuable for the accurate detection and quantification of anti-ECM1 autoantibodies. Moreover, the values may have clinical significance in patients with lichen sclerosus. (+info)