Disseminated CD8‐positive,CD30‐positive cutaneous lymphoproliferative eruption with overlapping features of mycosis fungoides and primary cutaneous anaplastic large cell lymphoma following remote solitary lesional presentation

CD8‐positive, CD30‐positive cutaneous lymphoproliferative disorders constitute a rare subset of T‐cell lymphoproliferative conditions, including variants of primary cutaneous anaplastic large cell lymphoma (ALCL), mycosis fungoides, lymphomatoid papulosis type D, cutaneous gamma‐delta T‐cell lymphoma and cutaneous peripheral T‐cell lymphoma. These entities share overlapping clinical, histopathologic and immunophenotypic features, presenting both a clinical and pathological diagnostic challenge. Presented here is a 73‐year‐old man with a disseminated, indolent CD30+, CD8+ cutaneous lymphoproliferative disorder with overlapping clinical and histopathological features of both mycosis fungoides and primary cutaneous ALCL, as well as features of lymphomatoid papulosis. To our knowledge, this is the first case of a generalized CD8+, CD30+ eruption with features of both mycosis fungoides and primary cutaneous ALCL arising following an episode of solitary primary cutaneous CD8‐positive ALCL.     

A case of mycosis fungoides after CD30 positive anaplastic large cell lymphoma

A 55-year-old woman presented with mycosis fungoides (MF) after the total excision of primary cutaneous CD30+ anaplastic large cell lymphoma (ALCL). In the specimens obtained from the nodule of CD30+ ALCL and the plaque lesion of MF, the same pattern of T-cell receptor gene rearragement was detected.     

Rare occurrence of CD30+ circulating cells in patients with cutaneous CD30+ anaplastic large cell lymphoma: a study of nine patients

BACKGROUND: The presence of a significant percentage of circulating atypical lymphocytes in peripheral blood has already been demonstrated in systemic CD30+ anaplastic large cell lymphoma (ALCL), which implies that a leukaemic component may be present in this subset of lymphomas. However, no similar data are available for the cutaneous counterpart of this particular lymphoproliferation. OBJECTIVES: To assess the presence of atypical cells, CD30+ lymphocytes and of a dominant T-cell clone in peripheral blood in a series of patients with cutaneous CD30+ ALCL. MATERIALS AND METHODS: Nine patients with either primary (four) or secondary (five) cutaneous CD4+ CD30+ ALCL were selected. The percentage of CD30+ CD4+ lymphocytes among peripheral blood mononuclear cells (PBMC) was determined by flow cytometry and the presence of a dominant circulating T-cell clone was assessed by polymerase chain reaction targeting the T-cell receptor gamma chain. A control group composed of apparently healthy individuals was similarly studied at the same time. RESULTS: The mean percentage of CD30+ cells in PBMC was slightly higher in patients than in controls (3.9% vs. 2.7%) but the difference was not statistically significant. Only two patients displayed more than 5% CD30+ cells, both of whom had a minor tumour burden. A dominant circulating T-cell clone was detected in only three cases, including these two latter patients. CONCLUSIONS: The occurrence of a significant percentage of CD30+ CD4+ circulating cells is rare in active cutaneous CD30+ ALCL, either primary or secondary. This percentage is not related to the apparent skin tumour burden but a significant figure appeared to be correlated with the detection of a dominant T-cell clone in peripheral blood. Overall, these data show that, unlike mycosis fungoides, peripheral blood involvement seems infrequent in cutaneous CD30+ ALCL. The hypothesis that a high percentage of CD30+ circulating cells might be related to the presence of a cryptic systemic disease cannot be ruled out.     

Lymphomatoid papulosis associated with mycosis fungoides: clinicopathological and molecular studies of 12 cases

The association of mycosis fungoides and a primary cutaneous CD30+ lymphoproliferative disorder has been reported and probably represents different clinical aspects of a unique T-cell monoclonal expansion. In this study, 12 patients (6 men and 6 women) presented with lymphomatoid papulosis and mycosis fungoides. A TCRgamma gene rearrangement study was performed by an automated high-resolution PCR fragment analysis method on skin biopsy specimens taken from the different clinical lesions in each patient. An indolent clinical course was observed in the majority of patients. T-cell clonality was identified in 7 of 12 lymphomatoid papulosis lesions (58%) and in 6 skin biopsies of plaque stage mycosis fungoides (50%). In each individual case, where T-cell clonality was detected, both mycosis fungoides and lymphomatoid papulosis specimens exhibited an identical peak pattern by automated high-resolution PCR fragment analysis, confirming a common clonal origin. Only one case showed a clonal TCRgamma rearrangement from the lymphomatoid papulosis lesion, which could not be demonstrated in the mycosis fungoides specimen. The demonstration of an identical clone seems to confirm that both disorders are different clinical manifestations of a unique T-cell monoclonal proliferation. Our results also seem to confirm that the association of mycosis fungoides with a primary cutaneous CD30+ lymphoproliferative disorder usually carries a favourable prognosis.     

Primary cutaneous anaplastic large cell lymphoma

Primary cutaneous anaplastic large cell lymphoma (PC‐ALCL) is a CD30+ lymphoproliferative disorder (LPD) of the skin with a relatively good prognosis in the absence of high‐stage disease. CD30+ LPDs comprise approximately 25%‐30% of primary cutaneous lymphomas and as a group represent the second most common clonal T‐cell neoplasm of the skin behind mycosis fungoides. Diagnosis of PC‐ALCL relies strongly on clinicopathologic correlation given the potential morphologic, clinical and molecular overlap with the other cutaneous CD30+ LPD, lymphomatoid papulosis, and more aggressive hematolymphoid neoplasms.     

C-KIT expression in primary cutaneous T-cell lymphomas

BACKGROUND: Mutations of the stem cell factor receptor C-KIT play a major pathogenetic role in the development of different malignant diseases like human mastocytosis, myeloproliferative disorders, gastrointestinal stromal tumors, acute myelogenous leukemia, and sinonasal lymphomas. Furthermore, the expression of C-KIT has been described in Hodgkin's disease and nodal CD30+ anaplastic large cell lymphomas (ALCLs). As it is possible to inhibit C-KIT by innovative kinase inhibitors like STI571, it may be an attractive target for new therapeutical approaches. Therefore, we screened more than 50 different types of cutaneous T-cell lymphomas (TCLs) for the presence of C-KIT. Immunohistochemical stainings were performed on paraffin-embedded tissue sections using a polyclonal rabbit anti-human C-KIT antibody. Naphtol-ASD-chloroacetate esterase (NASDCE)-control stainings were performed on every positive sample to distinguish C-KIT-positive lymphoma cells from C-KIT-positive mast cells. RESULTS: We found weak expression of C-KIT in seven of 18 patients with primary cutaneous CD30+ ALCL, two of eight patients with primary cutaneous pleomorphic TCL, six of 18 patients suffering from mycosis fungoides, and three of five patients with Sezary's syndrome. Generally, only a very small population of the lymphoma cells expressed C-KIT. This finding indicates a difference to the systemic variant of CD30+ ALCL. The potential use of C-KIT targeting new therapeutical approaches is therefore discussed critically, because C-KIT expression is very rare in all investigated types of primary cutaneous lymphoma.     

Primary "cutaneous" T-cell anaplastic large cell lymphoma, CD30+, neutrophil-rich variant with subcutaneous panniculitic lesions, in a post-renal transplant patient: report of unusual case and literature review

Posttransplantation lymphoproliferative disorders (PTLD) presenting clinically in the skin are rare and usually of B-cell phenotype. Only 7 cases of cutaneous T-cell PTLD have been previously reported, mostly mycosis fungoides type, with no known cases of "cutaneous" presentation by CD30 (Ki-1) anaplastic large cell lymphoma (ALCL).The case reported is a 59-year-old male who developed multiple skin nodules on the right leg, 6 years following renal transplantation. Initial biopsy showed ALCL involving the dermis with a background rich in neutrophils. The neoplastic cells were of T-cell phenotype, strongly CD30 with typical staining, and BCL-2 positive, but P53 negative. No EBV was detected by IHC, ISH, or DNA analysis. One year later, he developed painful subcutaneous nodules with surrounding erythema, resembling deep pustules or panniculitis, which on biopsy showed preferential involvement of the subcutaneous fat and prominent component of neutrophils. Twenty-two months following diagnosis, he died of cardiac failure with terminal myocardial infarct. There was however no clinical evidence of systemic spread of the lymphoma.This report adds to the clinical and morphologic spectrum of these rare "cutaneous" lymphomas of T-cell lineage arising in the posttransplantation setting, and suggests that EBV does not play a role in their pathogenesis.     

The significance of Leu 8 negative T cells in lymphoid skin infiltrates: malignant transformation,selective homing or T-cell activation?

The expression of Leu 8 was studied on skin biopsies from a large group of patients with benign and malignant skin disorders and correlated with the expression of T-cell differentiation antigens and activation markers. The effect of in vitro stimulation of peripheral blood T cells and T-cell subsets on the expression of Leu 8 antigen was also determined. In all the skin diseases studied an inverse relationship was found between the proportions of cells expressing Leu 8 and HLA-DR. A deficiency of Leu 8 positive cells was not specific for mycosis fungoides, but was also found in several reactive dermatoses. Stimulation of peripheral blood cells with phytohaemagglutinin (PHA), concanavalin A (Con A), and anti-CD3-PMA resulted in a considerable decrease of Leu 8 antigen expression on day 3 in both CD4+ and CD8+ T cells. These data suggest that the low proportion of Leu 8+ T cells in mycosis fungoides and several reactive skin disorders is not related to malignant transformation or selective homing of Leu 8- T cells, but probably results from local T-cell activation.     

Topical imiquimod as treatment for different kinds of cutaneous lymphoma

Imiquimod as a topical immune response modifier leads to a localized production of interferon and other cytokines. Apart from its use for genital warts it has therefore been used as treatment for different cutaneous neoplasms, including a few cases of cutaneous T-cell lymphoma. We treated 8 patients (4 with mycosis fungoides, 1 with CD30+ anaplastic large cell lymphoma and 3 with primary cutaneous B-cell lymphoma) with topical imiquimod. Therapy was started three times per week, in cases without response, the frequency was increased to a daily application. Two patients with mycosis fungoides and the patient with the CD30+ anaplastic large cell lymphoma had a complete clinical remission, the other two patients with mycosis fungoides did not show a response to imiquimod. Of the patients with cutaneous B-cell lymphoma, two reached a partial remission, one did not respond to therapy. Two patients had side effects such as erythema and pruritus which disappeared when the frequency of therapy was reduced. Our preliminary data show that imiquimod might be effective in some cases with therapy resistant lesions of cutaneous T-cell lymphoma as well as of cutaneous B-cell lymphoma, but more controlled studies are needed.     

Fascin expression in CD30-positive cutaneous lymphoproliferative disorders

BACKGROUND: CD30-positive cutaneous lymphoproliferative disorders (LPD) represent a spectrum of diseases ranging from low-grade (lymphomatoid papulosis; LyP) to high-grade (pleomorphic and anaplastic large-cell lymphoma; PTL, ALCL) with overlapping morphologic and immunophenotypic features. The common phenotypic hallmark is the expression of CD30-antigen by the tumor cells which morphologically resemble Reed-Sternberg cells. Although LyP is a non-fatal recurring disorder, it is associated with systemic lymphomas including Hodgkin's lymphoma (HL), mycosis fungoides (MF) and ALCL in 5-20% of the cases. Currently there is no marker to predict the development of systemic lymphomas in patients with LyP. Fascin, an actin bundling protein, has recently been shown to be a unique marker found in almost 100% of classical HL. METHODS: Because of the association of LyP with HL, fascin expression was analyzed by immunohistochemistry in LyP (n = 45), cutaneous CD30+ ALCL (n = 17) and pleomorphic T-cell lymphoma (n = 9) (PTL) and LyP associated with systemic lymphomas (7 HL, 2 ALCL, 1 MF), with the intent to determine if fascin expression can predict disease progression. RESULTS: Fascin was expressed by tumor cells in 11/45 (24%) cases of LyP, 11/17 (64%) cases of ALCL, 7/9 (77%) cases of PTL and 6/10 (60%) cases of LyP associated with systemic lymphomas. Fascin expression in LyP was significantly less frequent than in ALCL (p < 0.001) and also than in LyP associated with lymphomas (p < 0.05). There was no significant difference of fascin expression within the histological subtypes of LyP. We found no evidence of ALK expression nor of Epstein-Barr virus expression in any case either by in situ hybridization or immunohistochemistry in the LyP cases associated with HL. CONCLUSIONS: This is the first study to demonstrate that fascin is expressed in cutaneous CD30+ LPD and that it is a candidate marker of disease progression in LyP.     

Large cell transformation mimicking regional lymphomatoid papulosis in a patient with mycosis fungoides

A 57-year-old Japanese man with tumor-stage mycosis fungoides suddenly presented multiple small papules on the right chest. Histopathology of a biopsy specimen from the papules revealed medium-to-large pleomorphic lymphoid cells throughout the entire dermis but not in the epidermis, and the large cells expressed CD30 antigen. These newly-developed papules underwent spontaneous remission in the following 3 months. We reviewed the reported cases of mycosis fungoides, which showed CD30-positive large cell transformation and those of CD30-positive lymphoproliferative disorders associated with mycosis fungoides.     

Use of an expanded immunohistochemical panel to distinguish cutaneous Hodgkin lymphoma from histopathologic imitators

In lymph nodes, classical Hodgkin lymphoma can typically be distinguished from non-Hodgkin lymphoma (NHL) by the presence of Hodgkin and Reed-Sternberg cells that co-express CD30 and CD15. However, anaplastic large cell lymphoma (ALCL) and diffuse large B-cell lymphoma (DLBCL) can show identical features, and some cases of classical Hodgkin lymphoma lack CD15 expression, rendering them difficult to differentiate from CD30-positive NHL. The differential diagnosis of cutaneous Hodgkin lymphoma similarly includes ALCL and DLBCL, and, additionally, tumors of mycosis fungoides. Recent studies have shown that classical Hodgkin lymphoma is of B-cell origin in virtually all cases, and shows at least focal weak expression of the B-cell marker PAX5 and often focal weak expression and no expression of the B-cell markers Oct-2 and BOB.1, respectively. All three of these markers are almost invariably absent in T-cell lymphomas and are strongly expressed in B-cell lymphomas. We report a 40-year-old man with classical Hodgkin lymphoma who developed cutaneous nodules. A biopsy from one revealed Hodgkin/Reed-Sternberg cells with a similar immunophenotype to the diagnostic lymph node biopsy, namely CD30+/CD15+, diffusely but weakly PAX5+, focally weakly Oct-2+ and lacking BOB.1 expression, thereby confirming a diagnosis of cutaneous Hodgkin lymphoma. To our knowledge, this is the first report of the expression pattern of the combination of PAX5, Oct-2 and BOB.1 in the context of cutaneous involvement by Hodgkin lymphoma.     

The spectrum of cutaneous lymphomas in patients less than 20 years of age

Cutaneous lymphomas are rare in young patients and are mostly represented by mycosis fungoides and its variants and CD30+ lymphoproliferative disorders (lymphomatoid papulosis [LYP] and anaplastic large T-cell lymphoma). We report our observations in a series of 69 patients less than 20 years of age who presented either with primary cutaneous lymphoma (n = 62) or with secondary manifestations of extracutaneous disease (n = 7). Clinicopathologic features permitted classification of the cases into the following diagnostic categories: mycosis fungoides (n = 24, all primary cutaneous), anaplastic large T-cell lymphoma (n = 13, all primary cutaneous), LYP (n = 11, all primary cutaneous), subcutaneous "panniculitis-like" T-cell lymphoma (n = 1, primary cutaneous), small-medium pleomorphic T-cell lymphoma (n = 2, all primary cutaneous), natural killer (NK)/T-cell lymphoma, nasal-type (n = 1, secondary cutaneous), follicle center cell lymphoma (n = 1, primary cutaneous), marginal zone B-cell lymphoma (n = 7, all primary cutaneous), B-lymphoblastic lymphomas (n = 6, 3 primary and 3 secondary cutaneous), specific cutaneous manifestations of Hodgkin disease (n = 1, secondary cutaneous), and acute myeloid leukemia (n = 2, both secondary cutaneous). Cutaneous lymphoma in children should be differentiated from benign skin disorders that may simulate them. In particular, mycosis fungoides and LYP in this age group may present with clinicopathologic features reminiscent of inflammatory disorders such as pityriasis alba, vitiligo, pityriasis rosea, and pityriasis lichenoides et varioliformis acuta. Even in secondary cutaneous lymphomas, skin manifestations may be the first sign of the systemic disease, and a diagnosis may be achieved on examination of histopathologic specimens of a cutaneous lesion. Our study illustrates the wide spectrum of cutaneous lymphomas and leukemias in patients less than 20 years of age and underlines the need for proper interpretation of these lesions by dermatologists and dermatopathologists.     

CD30+ large cell transformation of mycosis fungoides after psoralen plus ultraviolet A photochemotherapy

Psoralen plus ultraviolet A (PUVA) photochemotherapy is widely used for the therapy of mycosis fungoides (MF). Clinical progression of MF is often associated with an increase in the size of tumour cells known as transformation. We report two patients with CD30+ large cell transformation that appeared after low-dose PUVA therapy for MF. Clinical data, histopathology, immunohistopathology and T-cell receptor gene rearrangement were studied. Nodules consisted of atypical large cells that expressed CD30. Monoclonal rearrangement of T-cell receptors was observed in one case. Low-dose PUVA therapy may be associated with CD30+ large cell transformation in patients with MF.     

Treatment of childhood mycosis fungoides with topical PUVA

Mycosis fungoides is the most common type of cutaneous T-cell lymphoma, which is usually observed in mid to late adulthood. We report 5 cases of mycosis fungoides in children, all presenting as patch- and plaque-stage disease most commonly involving the buttocks. Histologic examination showed in every case the typical features of mycosis fungoides. In 4 of the 5 cases, the infiltrating lymphocytes were characterized by the T-cell phenotype CD3(+), CD4(+), CD8(+); and in 3 cases, a monoclonal rearrangement of the T-cell receptor gamma (TCR-gamma) gene was found. Three children received topical PUVA treatment, and the other two were treated with mid-potency topical corticosteroids, resulting in complete clinical remission. A management approach to mycosis fungoides with topical PUVA may be appropriate for children.     

p53 and bcl-2 expression do not correlate with prognosis in primary cutaneous large T-cell lymphomas

Overexpression of p53 protein in cutaneous T-cell lymphoma (CTCL) has been reported in primary cutaneous large T-cell lymphomas (PCLTCL) and has been associated with tumor progression and transformation in mycosis fungoides. However, the prognostic significance of p53 expression has not been studied thus far. In the present study we investigated the expression of p53 as well as bcl-2 protein in 27 PCLTCL, including 19 CD30-positive and 8 CD30-negative lymphomas, retrieved from the registry of the Dutch Cutaneous Lymphoma Working Group.
The results were correlated with follow-up data and proliferative activity, as assessed by the percentage of MIB-1 positive tumor cells.
Overexpression of p53 protein, defined as nuclear staining of more than 5% of the tumor cells, was found in 10 of 27 cases (37%), including 6 of 19 (32%) CD30+lymphomas and 4 of 8 (50%) CD30–PCLTCL. bcl-2 protein was expressed in 6 of 19 (32%) CD30+lymphomas and in only 1 of 8 (12%) CD30–PCLTCL. However, no significant correlation between p53 or bcl-2 expression and prognosis was found, neither in the whole group, nor within the CD30+ or CD30– group. In addition, no relationship between p53 expression and proliferative activity was found. The results confirm that p53 expression is more common in PCLTCL than in mycosis fungoides and Sézary syndrome. However, neither p53 nor bcl-2 expression correlated with survival or proliferative activity.     

Mycosis fungoides with focal CD 30 transformation in an adolescent

Mycosis fungoides is rare in children and adolescents. Large cell transformation in mycosis fungoides is typically seen in adult patients with advanced disease. We describe a 16-year-old girl with patch/plaque stage mycosis fungoides who developed a nodule within one of the plaques, which on histopathology showed large cell transformation, with positive labeling with the CD30 immunostain. To the best of our knowledge, this is the second reported case of mycosis fungoides with CD30+ large cell transformation in a child.     

Oral involvement in mycosis fungoides: report of two cases and a literature review

Oral involvement is uncommon in cutaneous T-cell lymphomas and usually associated with poor prognosis. The clinicopathological and immunohistochemical findings of 2 new cases are described along with a literature review. The first patient had a 10-year history of mycosis fungoides when she developed lesions in the oral tissues. She died 6 months later despite treatment. The immunophenotype was CD3+, CD4+, CD8-, CD30-. The second patient had a mycosis fungoides for 5 years when she developed lesions in the uvula and oropharynx. She was treated with polychemotherapy and she is alive 5 years after oral involvement. The immunophenotype was CD3+, CD4-, CD8+, CD30-. There are conflicting reports about the prognosis in the CD8+ phenotype. The present cases and the literature review seem to indicate that in oral involvement the CD8- phenotype is not associated with a worse prognosis than the CD4+ subtype. However, it is necessary to study new cases to confirm this statement.     

CD30-positive lymphoproliferative disorders—An Australian Clinical Practice Statement from the Peter MacCallum Cancer Centre

The CD30-postive lymphoproliferative disorders, including lymphomatoid papulosis and primary cutaneous anaplastic large cell lymphoma, account for up to 30% of all cutaneous T-cell lymphomas (CTCLs) and are the second most common form of CTCLs after mycosis fungoides. Both conditions differ in their clinical presentations; however, they share the expression of the CD30 antigen as a common immunophenotypic hallmark. There is a wide spectrum of management options depending on factors such as extent of disease, staging and treatment tolerability. This Clinical Practice Statement is reflective of the current clinical practice in Australia.