EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
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Central nervous system (CNS) involvement is extremely rare in anaplastic large cell lymphoma (ALCL), and in children only isolated cases have been reported, mainly as secondary CNS involvement. A case of fatal primary ALCL of the brain in a 13-year-old white boy is reported. Magnetic resonance imaging of the brain showed decreased absorption in T1- and T2-weighted image showed a hyperintense signal in the right parietal lobe and 2 masses in the right frontal lobe. A frontal lobe biopsy showed a pleomorphic neoplasm diffusely infiltrating the brain parenchyma and composed of large cells with bizarre, often polylobated or horseshoe-shaped nuclei. Immunohistochemical stains showed diffuse strong positivity for CD30, anaplastic lymphoma kinase protein (ALK-1), p80, leucocyte common antigen, CD45RO (UCHL1), and focal staining for epithelial membrane antigen. Immunostainings for cytokeratins, monocyte-macrophage, and B-cell markers were negative. Epstein-Barr virus latent membrane protein was not detected. To the best of our knowledge, there is only 1 case of primary ALCL of the brain in childhood previously reported in the literature. Before the biopsy, both cases were clinically misdiagnosed as mycobacterial CNS infection. Therefore, primary ALCL should also be included in the differential diagnosis when a mycobacterial CNS infection is suspected in pediatric patients; a careful cytological evaluation of the cerebrospinal fluid or cerebral biopsy are essential for an accurate diagnosis.
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PMID:Primary anaplastic large cell lymphoma of the central nervous system. 1045 12

Anaplastic large-cell lymphoma (ALCL) is a lymphoproliferative disorder that frequently presents with disseminated disease and extranodal involvement. Rare atypical cells have been detected in the peripheral blood in occasional cases. However, the presence of a prominent leukemic phase is extremely rare in these patients. We describe a patient with a small-cell variant of ALCL of T-cell phenotype, ALK-1 positive, who developed a rapid leukemic phase in association with the progression of the disease. Similar to the nodal biopsy, the predominant cells in bone marrow and peripheral blood were small atypical lymphoid cells. The large tumor cells expressed ALK immunoreactivity with a cytoplasmic and nuclear pattern, whereas some of the small cells showed only a nuclear-restricted pattern of staining. An RT-PCR study detected the NPM-ALK chimeric product in the nodal biopsy and in a peripheral blood sample in the early phase of the disease, but it became negative in a peripheral blood sample obtained after completion of the chemotherapy treatment, suggesting that this assay may be useful in the follow-up of these patients. This case indicates that a prominent leukemic phase may develop in ALCL as a manifestation of tumor dissemination and that it may be composed of a predominant small-cell atypical component.
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PMID:Anaplastic large-cell lymphoma with rapid evolution to leukemic phase. 1055 May 61

Primary cutaneous (PC) CD30-positive large cell lymphoma and lymphomatoid papulosis (LyP) represent the spectrum of PC CD30-positive lymphoproliferative disorders (LPDs) associated with a favorable prognosis. Noncutaneous CD30-positive anaplastic large cell lymphoma (ALCL), although morphologically similar to PC CD30-positive LPDs, seems to be a biologically distinct entity. Cell lines derived from noncutaneous ALCL express CD95 and undergo CD95-induced apoptosis. Little is known about expression or function of CD95/CD95L in cutaneous lesions. We examined a series of PC CD30-positive LPDs and noncutaneous ALCL for expression of CD95/CD95L to investigate possible differences between these histologically similar but biologically distinct entities. Paraffin-embedded, formalin-fixed tissue sections from 25 cases of CD30-positive LPDs (10 noncutaneous ALCL, 15 PC CD30-positive LPDs) were immunostained for CD3, CD20 (L26), CD43 (Leu22), CD30 (BerH2), anaplastic lymphoma kinase (ALK-1), CD95, and CD95L (C-33). One hundred large atypical cells and 100 small lymphocytes were counted to determine the percentage of CD95/ CD95L-positive cells. Statistical analysis using the Mann-Whitney U test was performed. CD95 expression was slightly higher in the large atypical cells of noncutaneous ALCL compared with PC CD30-positive LPDs (median, 100% versus 94%; P = .003) because of the lower expression of CD95 in LyP. CD95L expression was higher in the surrounding small lymphocytes in PC CD30-positive LPDs (median, 3% versus 13%; P = .002). Expression of CD95 in the small lymphocytes and CD95L in the large atypical cells was not significantly different. These results support the biologic distinction between cutaneous and noncutaneous CD30-positive LPDs and may have implications in the differing clinical behavior of these entities. Further study of expression and function of apoptosis-related proteins in these entities is warranted.
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PMID:Immunohistochemical analysis of CD30-positive lymphoproliferative disorders for expression of CD95 and CD95L. 1078 13

The presentation of anaplastic large cell lymphoma in bone is uncommon. We report a case of anaplastic large cell lymphoma of the skull that was diagnosed after head trauma. Biopsy revealed significant destruction of the outer table of the frontal bone. Histopathologically, the initial evaluation suggested osteomyelitis because of a mixed inflammatory infiltrate with large numbers of neutrophils. However, several clusters and individual mononuclear cells were atypical. The tumor cells had large, pleomorphic nuclei; these cells stained positively with antibodies to Ki-1 (CD 30), ALK-1, and EMA. Fluorescence in situ hybridization (FISH) showed rearrangement of the ALK gene, which usually results from the t(2;5) translocation, present in most anaplastic large cell lymphomas. There was no evidence of systemic disease. The patient has tolerated chemotherapy and is free of disease 12 months later.
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PMID:Neutrophil-rich anaplastic large cell lymphoma of the skull presenting after head trauma. 1144 42

The t(2;5)(p23;q35) or other rare chromosomal abnormalities involving 2p23 upregulate the ALK gene, which is not expressed in normal lymphocytes. Thus, detection of ALK protein is presumptive evidence of these 2p23 abnormalities. The t(2;5) and ALK immunoreactivity are common in anaplastic large cell lymphoma of T/null-cell lineage. However, a small subset of cases of Hodgkin's disease (HD) have been reported to either carry the t(2;5) or express ALK. In this study, we have immunohistochemically evaluated 327 cases of HD with the ALK-11 antibody. ALK-11 is a well characterized polyclonal antibody raised against an intracellular portion of the ALK protein. We detected ALK-11 immunoreactivity in 8 (2.4%) cases of HD. We further studied these positive cases with ALK-1 monoclonal antibody, which reacts with an intracellular portion of ALK, similar to ALK-11. All 8 ALK-11 positive cases were negative for ALK-1. These results indicate that rare cases of HD may react with ALK-11 antibody, similar to previous reports by others using different polyclonal anti-ALK antibodies. However, the absence of ALK-1 expression in these HD cases suggests that ALK protein is not truly present and that polyclonal anti-ALK antibodies may rarely yield non-specific cross reactivity. These results further support the use of anti-ALK antibodies in the differential diagnosis of HD from ALCL.
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PMID:Anaplastic lymphoma kinase (ALK) is not expressed in Hodgkin's disease: results with ALK-11 antibody in 327 untreated patients. 1169 52

Primary intraosseous vascular anomaly, previously called intraosseous hemangioma, is a very rare malformation that is usually seen in the vertebral column and in the skull. It is exclusively described in sporadic cases and no hereditary component has yet been reported. The most commonly affected bones in the skull are the mandible and the maxilla, and life-threatening bleeding after a simple tooth extraction is frequently observed. Here, we report two consanguineous families containing a total of four affected patients manifesting primary intraosseous vascular malformation (VMOS (vascular malformation osseous)) of the craniofacial region. The phenotypic expression is remarkably similar in both families. The characteristic findings include severe blood vessel expansions within the craniofacial bones and midline abnormalities such as diastasis recti, supraumbilical raphe, and hiatus hernia. Malformation is restricted to the mandibular and maxillary area in the prepubertal age, and rapid expansion starts after age 12 or 13. A 15-year follow-up of one of the patients demonstrated that the vascular malformation did not extend beyond the craniofacial region despite severe involvement of almost all bones in the skull. Detailed clinical and radiological evaluation provided neither evidence of soft-tissue involvement nor any sign of gross arterial, venous, or combined malformations, indicating that bone changes are a primary rather than a secondary effect due to any other vascular anomaly in the craniofacial region. An antibody against a universal proliferation marker, Ki-67, detected nonproliferative, single-layered endothelial cells, suggesting that this abnormality is a vascular malformation rather than a hemangioma. alpha-actin staining (antibody against perivascular tissue such as smooth muscle cells (SMCs) and/or pericytes) demonstrated that pathologic vessels lost their surrounding supportive tissues, as was previously seen in other types of vascular anomaly. Homozygosity mapping excluded the following loci and/or genes: multiple cutaneous venous malformation (VMCM1; gene, TIE2) on chromosome 9p21; venous malformation with glomus cells (VMGLOM) on chromosome 1p22-p21; hereditary hemorrhagic telangiectasia type 1 (HHT1; gene, endoglin) and type 2 (HHT2; gene, activin) on chromosomes 9q34.1 and 12q11-q14, respectively; and cerebral cavernous malformation type 1 (CCM1; gene, KRIT1), type 2 (CCM2), and type 3 (CCM3) on chromosomes 7q11.2-q21, 7p15-p13, and 3q35.2-q27, respectively. To the best of our knowledge, this is a new disorder, which we call hereditary intraosseous vascular malformation of the craniofacial region.
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PMID:Hereditary intraosseous vascular malformation of the craniofacial region: an apparently novel disorder. 1193 89

A recent study by Wellmann et al (Blood. 2000;96:398-404) detected clusterin expression in all 36 systemic anaplastic large cell lymphomas (ALCLs) tested, but not in any of 9 primary cutaneous ALCLs. Our purpose was to confirm the diagnostic usefulness of clusterin in systemic ALCL and to evaluate its efficacy in distinguishing primary cutaneous ALCL from secondary skin involvement by systemic ALCL. We examined clusterin expression by paraffin immunohistochemical analysis in 41 systemic ALCLs (18 ALK-1+ and 23 ALK-1-), 9 primary cutaneous ALCLs, and 4 secondary cutaneous ALCLs. Clusterin was positive in 95% of systemic ALCLs (39/41), including 100% (18/18) of the ALK-1+ cases and 91% (21/23) of the ALK-1- cases. Five (56%) of 9 primary and 3 (75%) of 4 secondary cutaneous ALCLs were positive for clusterin. Our observations confirm the diagnostic usefulness of clusterin in systemic ALCL, especially in the ALK-1- cases. However, our data fail to demonstrate its value in distinguishing primary from secondary cutaneous ALCL.
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PMID:Clusterin is widely expressed in systemic anaplastic large cell lymphoma but fails to differentiate primary from secondary cutaneous anaplastic large cell lymphoma. 1242 99

Diagnostic difficulties sometimes arise in distinguishing anaplastic large cell lymphoma (ALCL) from Hodgkin disease (HD), especially the syncytial variant. Study of the biologic features of diagnostic Reed-Sternberg cells in HD, in search of specific markers for Reed-Sternberg cells, has suggested fascin as a relatively specific and sensitive marker. We studied the frequency of fascin expression in 30 ALCLs and 34 cases of classic HD, including 17 cases of the syncytial variant. Staining with CD30 and anaplastic lymphoma kinase (ALK)-1 also was performed in all cases. All ALCL and HD cases showed membranous and Golgi zone CD30 positivity. Fascin stained all HD cases but also stained 67% (20/30) of the ALCLs in a cytoplasmic pattern. Fascin positivity was observed in 59% (10/17) of T-cell ALCLs and 77% (10/13) of null-cell ALCLs; ALK-1-positive ALCLs, regardless of origin, were usually fascin-positive (91% [10/11]). In conclusion, fascin shows strong positivity in all cases of classic HD but also is positive in the majority of ALCLs, including ALK-1-positive and ALK-1-negative cases. Positive staining for fascin is not useful for distinguishing ALCL from HD. In some cases, fascin negativity may help rule out classic HD.
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PMID:Comparison of fascin expression in anaplastic large cell lymphoma and Hodgkin disease. 1257 89

Anaplastic large cell lymphoma (ALCL) rarely occurs in the central nervous system. Although defined by its composition of large, pleomorphic, CD30-positive lymphocytes, ALCL is heterogeneous. Most are T cell but some are null cell. Most but not all have a characteristic 2:5 translocation producing the fusion protein ALK-1, which is reliably detected by immunohistochemistry. In systemic ALCL, ALK-1 expression correlates with young patient age and a favorable prognosis. Herein we report four new cases of primary central nervous system ALCL from the Mayo Clinic and incorporate additional data from five previously published cases. ALK-1 expression was determined in all nine tumors. Patient age was 4-66 years (mean 29 years) with a bimodal distribution: 6 < or = 22 years, 3 > or = 50 years. Six were female. Tumors were mostly supratentorial, five were multifocal, and seven had involvement of dura or leptomeninges. Seven tumors were T cell, two were null cell, and five of nine were ALK-1 immunopositive. Total mortality was six of nine. Three patients, 4-18 years of age (mean 13 years), were alive at 4.8-6.1 years postdiagnosis; these tumors were all ALK positive. Five patients, 13-66 years of age (mean 43 years), died of tumor 4 days to 11 weeks postdiagnosis; four of five of these tumors were ALK negative. One 10-year-old child with an ALK-positive tumor died of sepsis, but in remission. Central nervous system ALCL is aggressive. Our study suggests that a better outcome may be associated with young age and ALK-1 positivity, prognostic parameters similar to systemic ALCL.
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PMID:Primary anaplastic large cell lymphoma of the central nervous system: prognostic effect of ALK-1 expression. 1265 33

Posttransplant (i.e. status with the transplant present) lymphoproliferative disorders (PTLD) are common conditions in transplant recipients. Most examples are of B cell origin, and CD30+ T cell PTLD are very rare. We report a CD30+ anaplastic large cell lymphoma (ALCL) in the skin of the right lower leg and in draining lymph nodes of the right inguinal region in an immunosuppressed 59-year-old male who had received a renal graft 9 years previously. Unlike the vast majority of PTLD, an incomplete T cell immunophenotype was observed, and there was evidence of T cell lineage at the genetic level reflected by a rearranged T cell receptor gamma gene. The neoplastic cells were non-reactive to the anaplastic lymphoma kinase (ALK) 1 protein. In addition, Epstein-Barr virus and human herpesvirus 8 sequences were absent. Arguments against a primary cutaneous ALCL, which is also ALK-1 negative, include systemic presentation at the time of initial diagnosis and immunoreactivity of the neoplastic cells to epithelial membrane antigen. Typically, our rare example of a posttransplantation systemic ALCL showed an aggressive behaviour and a poor response to both chemotherapy and local irradiation.
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PMID:Posttransplant CD30+ anaplastic large cell lymphoma with skin and lymph node involvement. 1283 69

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