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Gene Rearrangement Studies (gene + rearrangement_studies)

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Medical Sciences100%

Selected Abstracts

A clonal cutaneous CD30+ lymphoproliferative eruption in a patient with evidence of past exposure to hepatitis E

INTERNATIONAL JOURNAL OF DERMATOLOGY, Issue 7 2000
Freddye M. Lemons-Estes CDR, MC USN
The patient was a 52-year-old white man who had worked in remote areas of the world during the past 2 years, including an extended period in rural areas of Central Africa and in Central and South America. He had no acute illnesses during the 2-year period except for rare, mild, upper respiratory tract infections. For approximately 1 year, however, he had developed recurrent, papular-vesicular, slightly painful lesions on the fingers and palms, that spontaneously healed over weeks to months ( Fig. 1). The patient had no other concurrent illnesses and no abnormal laboratory findings, except for positive enzyme-linked immunoabsorbent assay (ELISA) for immunoglobulin G (IgG) antibodies for hepatitis E virus (HEV) using a recombinant expressed HEV antigen (Genelabs Technologies, Inc., San Antonio). Prolonged treatment with minocycline did not appear to moderate the lesions. At approximately 2.5 years after the development of his first cutaneous lesion, however, the patient reported that he had had no new lesions for over 3 months. Figure 1. Vesicular ,lesion on the finger which regressed over a period of weeks A biopsy specimen showed an intraepidermal vesicle with prominent epidermal necrosis and reticular degeneration ( Fig. 2). Within the epidermis, there was a dense infiltrate of lymphoid cells. The majority of these cells were pleomorphic with prominent nucleoli and frequent mitotic figures ( Fig. 3). Sheets of atypical cells were found in the subjacent dermis. The infiltrate extended down into the reticular dermis. With extension into the dermis, the infiltrate became more polymorphous with more small lymphoid cells, large numbers of eosinophils, and some plasma cells located more deeply. Figure 2. Intraepidermal ,blister showing reticular degeneration and marked epidermotrophism of large atypical cells with extension into the dermis with a mixed infiltrate containing eosinophils and plasma cells (30×) Figure 3. Intraepidermal ,infiltrate of large atypical cells with extension into the dermis with a mixed infiltrate containing eosinophils and plasma cells (400×) Immunohistochemical stains for CD3 (DAKO), CD4 (Becton Dickinson), CD8 (Becton Dickinson), CD15 (LeuM1, Becton Dickinson), CD20 (L-26, DAKO), CD30 (Ber-H2, DAKO), CD45RO (UCHL1, DAKO), S-100 protein (DAKO), T-cell intracellular antigen (TIA) (Coulter), epithelial membrane antigen (EMA) (DAKO), KP-1 (CD68, DAKO), MAC-387 (DAKO), Epstein,Barr virus (EBV) latent membrane antigen-1 (LMP-1, DAKO), and EBV-encoded nuclear antigen 2 (EBNA2, DAKO) were performed on formalin-fixed tissue using the ABC method with DABA as the chromagen. CD3 showed diffuse membrane staining of the large atypical lymphoid cells, as well as the majority of the small lymphoid cells ( Fig. 4). CD4 showed positive membrane staining of the large atypical lymphoid cells and the majority of the small lymphoid cells. CD8 showed only scattered light membrane staining of small lymphoid cells. CD15 was negative, and CD20 showed foci of groups of small lymphoid cells mainly within the reticular dermis. CD30 showed positive membrane and paranuclear staining of the large atypical cells, most abundant within the epidermis and papillary dermis ( Fig. 5). CD45RO showed positive membrane staining of the large atypical cells and the majority of the small lymphoid cells. S-100 protein showed increased dendritic cells within the surrounding viable epidermis and the subjacent papillary dermis ( Fig. 6). TIA showed granular staining in the large atypical lymphoid cells and only rare staining in small lymphoid cells ( Fig. 7). EMA staining was essentially negative. KP-1 showed only scattered positive cells mainly in the lower papillary and the reticular dermis. MAC-387 showed membrane staining in the viable epidermis ( Fig. 8). LMP-1 and EBNA2 for EBV were negative within the lymphoid cells as well as within the overlying epidermis. Figure 4. Immunohistochemical ,staining for CD3 showing diffuse staining of lymphoid cells within the epidermis and dermis (150×) Figure 5. Immunohistochemical ,staining for CD30 showing membrane and paranuclear staining of large atypical lymphoid cells within the epidermis and papillary dermis (a, 150× b, 400×) Figure 6. Immunohistochemical ,staining for S-100 protein within the epidermis and in the papillary dermis (a, 150× b, 300×) Figure 7. Immunohistochemical ,granular staining of large atypical lymphoid cells for TIA (200×) Figure 8. Immunohistochemical ,staining for MAC-387 showing epidermal staining (100×) Gene rearrangement studies showed a ,-T-cell receptor gene rearrangement. The monoclonal band was detected with VJ1, VJ2, and D1J2 primer sets. The T-cell receptor , rearrangement assay has a sensitivity of 61% and a specificity of 94% for the detection of a monoclonal rearrangement in T-cell lymphomas for which amplifiable DNA can be recovered. Electron microscopy was performed on formalin-fixed material, positive-fixed with 2.5% phosphate-buffered glutaraldehyde and further with 1% osmium tetroxide by standard techniques. Intracellular, 50,60-nm, cytoplasmic, spherical, viral-like particles were identified ( Fig. 9). Figure 9. Electron ,microscopy showing 50,60-nm diameter, intracellular, viral-like particles (arrows) (70,000×) [source]

Lymphomatoid papulosis with CD1a+ dendritic cell hyperplasia, mimicking Langerhans cell histiocytosis

JOURNAL OF CUTANEOUS PATHOLOGY, Issue 7 2007
Chris H. Jokinen
Although CD1a+ dendritic cells (DC) in cutaneous T-cell lymphomas (CTCL) have been well documented, the presence of large numbers of DC within lymphoid infiltrates can pose a diagnostic difficulty. We present a case of a 70-year-old man with a 3-year history of recurrent red papules and plaques on the extremities and trunk that was referred to our institution, with the diagnosis of Langerhans cell histiocytosis. Skin biopsies showed a wedge-shaped cellular infiltrate in the superficial and deep dermis consisting of two cell populations. Most prominent were clusters of epithelioid cells with grooved nuclei and abundant eosinophilic cytoplasm, which stained with antibodies to CD1a and S-100. A second, less prominent population of atypical lymphocytes, some with enlarged, hyperchromatic and convoluted nuclei, were intermixed. The latter were positive for CD30, CD3 and CD5 and negative for CD20, CD34, CD68, ALK-1 and TdT. T-cell receptor gene rearrangement studies confirmed a clonal T-cell population, which with the clinical history was consistent with the diagnosis of lymphomatoid papulosis. While previous studies have shown an increased density of dermal DC in CTCL, we believe that this represents the first report of an unusually florid DC proliferation mimicking Langerhans cell histiocytosis and masking a lymphoproliferative disorder. [source]

Immunohistochemical and gene rearrangement studies of central nervous system lymphomatoid granulomatosis

NEUROPATHOLOGY, Issue 5 2007
Hiroshi Nishihara
Lymphomatoid granulomatosis (LYG) is a rare multisystem disorder with characteristic angiocentric lymphoproliferative features, most frequently involving the lung, skin, and rarely the CNS. LYG has been classified into three subtypes based on the relative proportions of atypical and inflammatory infiltrating cells. Most systemic LYGs have been shown to be EBV-associated, T-cell rich, B-cell proliferative disorders. Here, we present four cases of LYG arising from the CNS and have analyzed them by immunohistochemistry to assess the phenotype of the infiltrate, and by PCR-SSCP (single-strand conformation polymorphism) analysis for immunoglobulin heavy chain (IgH) and T-cell receptor (TcR) , gene rearrangements. Three cases revealed perivascular infiltration of T-cell dominant lymphoid cells, two cases showed monoclonal TcR, gene rearrangement, while the remaining case had a B-cell immunophenotype and monoclonal IgH gene rearrangement with EBV genome expression. This is the first report of a gene rearrangement study on CNS-LYG. We confirm that some cases of CNS-LYG are derived from T-cell monoclonal lymphoproliferative disease, although this disease should be classified as a borderline malignancy and should be separated from overt malignant lymphoma of CNS. [source]

CD19 negative precursor B acute lymphoblastic leukemia presenting with hypercalcemia

PEDIATRIC BLOOD & CANCER, Issue 1 2004
Iyad Sultan MD
Abstract A 9-month-old infant presented with hypercalcemia and lytic bone lesions. Suspicion for malignancy led to a bone marrow examination, which showed replacement of the marrow by a small round blue cell infiltrate. Flow cytometric analysis of these cells showed an unusual immunophenotype in that these cells were dim CD45, HLA-DR, and CD10 positive, but CD19, CD20, CD79a, and CD34 negative. Southern blotting showed clonal rearrangement of immunoglobulin heavy chain (IgH) which confirmed a diagnosis of precursor B acute lymphoblastic leukemia (ALL). He received supportive treatment with hydration and pamidronate, but had recurrent episodes of hypercalcemia. Once the correct diagnosis of ALL was established, the patient was treated with an infantile ALL chemotherapeutic regimen and the hypercalcemia resolved. This case highlights the usefulness of immunoglobulin gene rearrangement studies in atypical cases of ALL. © 2004 Wiley-Liss, Inc. [source]