UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although T-lineage large granular lymphocyte (LGL) leukemia has been described for over 20 years, many patients with this neoplasm go unrecognized. Chief among the difficulties in diagnosing this entity is that the morphologic features are nonspecific and that it is difficult to distinguish it from reactive processes. The purpose of this study was to examine the histologic and immunophenotypic appearance of T-LGL leukemia in the peripheral blood and bone marrow, and to determine what features may suggest that ancillary studies such as flow cytometric and molecular analysis should be pursued to make a definitive diagnosis. We took a multidisciplinary approach by using morphology, immunoperoxidase staining, flow cytometric analysis, and molecular studies on 9 cases of T-lineage LGL leukemia. Our findings indicate that T-lineage LGL leukemia typically infiltrates the marrow diffusely. Most cases show a hypercellular marrow with an increase in myeloid precursors relative to the mature cells (i.e., an inversion of the myeloid maturation pyramid) and a decreased myeloid:erythroid ratio. Neutropenia without a left shift is usually seen in the peripheral blood. The tumor cells are usually CD3+, CD8+, CD57+, and TIA-1+. Most notably, the number of CD3+ T cells per high-power field is markedly elevated in T-LGL leukemia compared with normal, reactive, and pathologic marrows with neutropenia (mean values, 559 cells/mm(2) v. 7/mm(2), 11/mm(2), and 263/mm(2), respectively, P<.01). Moreover, CD57 staining also shows an increase in positive cells in T-LGL cases in comparison with normal, reactive, and pathologic marrows with neutropenia. Taken together, these findings indicate immunoperoxidase findings may be a useful tool to identify cases that should proceed to molecular or flow cytometric analysis.
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PMID:Utility of immunohistochemistry in bone marrow evaluation of T-lineage large granular lymphocyte leukemia. 1107 Jan 20

We report a case of gammadelta T-cell-type large granular lymphocyte (LGL) leukemia (CD3 +,CD8 +, CD57 +,TCR gammadelta+), which was accompanied by pure red cell aplasia, neutropenia and thrombocytosis. Southern blotting analysis of the T-cell receptor beta gene showed the germline configuration, but clonal TCR J gamma rearrangements were identified. These granular lymphocytes demonstrated non-major histocompatibility complex-restricted cytotoxicitity. The serum-soluble FasL (sFasL) concentration of this patient was very high, whereas the serum levels of tumor necrosis factor alpha (TNF-alpha), interferon gamma (IFN-gamma), interleukin-1 beta (IL-1beta), interleukin-2 (IL-2) and thrombopoietin were normal. After treatment with cyclosporin A, anemia and thrombocytosis were improved, and LGL and the elevated sFasL concentration decreased. These observations suggested that FasL may have played a role in the establishment of the clinical symptoms of this patient and could be useful as an indicator of disease activity.
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PMID:Improvement of extrathymic T cell type of large granular lymphocyte (LGL) leukemia by cyclosporin A: the serum level of Fas ligand is a marker of LGL leukemia activity. 1107 68

A 46-year-old woman with a previous diagnosis of sarcoidosis presented with morphologically typical large granular lymphocyte (LGL) leukemia/lymphoma with an aggressive clinical course. Epstein-Barr virus DNA was detected in peripheral blood mononuclear cells by PCR. The phenotype was typical of the T cell lineage (CD2+ CD3+ CD5+ CD7+ CD8+ TCRalphabeta+) but with the absence of the CD16, CD56, CD57 NK cell markers. In addition, the LGLs expressed CD122 (p75) in the absence of CD25 which is characteristic of LGLs. These leukemic LGLs did not exhibit NK activity. The clonal nature of this proliferation was demonstrated by the rearrangement of the TCRgamma gene. This phenotypically unusual but morphologically typical LGL leukemia/lymphoma may represent the clonal expansion of a minor normal subset of T-LGLs which do not express any NK cell markers, probably corresponding to in vivo activated T cells.
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PMID:Aggressive variant of morphologically typical T large granular lymphocyte leukemia/lymphoma lacking NK cell markers. 1115 85

Large granular lymphocyte (LGL) leukaemia is a disease with increased numbers of circulating granular lymphocytes and an increased percentage of clonally rearranged CD8(+)CD57(+) cells. To determine whether LGL cells are also found in other lymphocyte subsets, CD8(+) cells from 10 LGL patients were sorted into CD57(+) and CD57(-) fractions and analysed for clonality using a T-cell receptor gamma (TCR gamma) polymerase chain reaction (PCR). In nine patients, a clonal TCR rearrangement was identified in the CD8(+)CD57(+) cells, and in one patient, the TCR rearrangement was oligoclonal in the CD8(+)CD57(+) fraction. In eight out of nine of the clonally rearranged patients, the same band was also present in the CD8(+)CD57(-) fraction. To define the relationship between CD57(-) and CD57(+) LGL populations, CD8(+)CD57(-) and CD8(+)CD57(+) cells were sorted from five patients and cultured in the presence of anti-CD3 plus CD28 antibodies. The CD57(+) cells died of apoptosis before d 7, while the CD57(-) cells proliferated and differentiated into CD57(+) cells. Clonal analysis identified the same band in both cultured subpopulations and in the uncultured CD8(+) cells. Immunophenotypical analysis showed that CD8(+)CD57(-) cells expressed memory cell markers, while the CD8(+)CD57(+) cells exhibited effector characteristics. These results suggest that LGL disease originates in a CD57(-) memory T-cell compartment that continually generates CD57(+) (effector cell) progeny.
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PMID:Large granular lymphocyte leukaemia is characterized by a clonal T-cell receptor rearrangement in both memory and effector CD8(+) lymphocyte populations. 1116 1

We here present an extremely rare case of granular lymphocytic leukemia derived from gamma delta T-cell (gamma delta T-GLL). The blood picture at diagnosis was as follows; white cell count 25.7 x 10(9)/l containing 94% atypical lymphocytes with cytoplasmic granules, hemoglobin 11.8 g/dl and platelet count 124 x 10(9)/l. The atypical lymphocytes were positive for CD2, CD3, CD5, CD7, CD56 and TCR gamma delta, but negative for CD4, CD8, CD57, TCR alpha beta and B-cell antigens. The cytotoxic molecules, T-cell intracellular antigen-1 (TIA-1) and granzyme B, were positive by immunocytochemical analysis. Southern blot analysis showed rearrangement of T-cell receptor J gamma and C beta genes but germline configuration of the JH gene. Neither serum antibody against human T-cell leukemia virus type-I (HTLV-I) nor the integration of HTLV-I proviral DNA was detected. CT scan showed splenomegaly but no lymph node enlargement. A diagnosis of gamma delta T-GLL was made, and she has been followed up without any therapies for more than 4 years.
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PMID:Granular lymphocytic leukemia derived from gamma delta T-cell expressing cytotoxic molecules. 1122 23

A 67-year-old man was admitted with erythematous skin papules, lymphadenopathy and liver dysfunction. The bone marrow was filled with atypical lymphoid cells, and a skin biopsy showed diffuse dermal infiltration of neoplastic cells, which were positive for CD2, CD8, CD56, TIA-1, Granzyme B and EBER (ISH), but negative for CD3, CD4, CD16 and CD57. Molecular analysis showed a germline configuration for T-cell receptor beta, gamma chain genes, and monoclonal integration of Epstein-Barr virus. The THP-COP regimen was not effective and the patient died of severe metabolic acidosis 2 months later. Autopsy revealed diffuse infiltration of neoplastic cells in almost all organs. Apoptosis of tumor cells and proliferation of hemophagocytic macrophages were remarkable. Neither angiocentricity nor necrosis was observed. The findings in this patient were indistinguishable from advanced-stage nasal-type NK cell lymphoma. However, the diagnosis of aggressive NK cell leukemia/lymphoma may be justified because of the marked involvement of the marrow at onset, fulminant clinical course and diffuse infiltration of tumor cells evident at autopsy.
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PMID:[Aggressive NK cell leukemia/lymphoma: an autopsy case]. 1157 1

The CD57(+)HLA-DR(bright) natural suppressor (57.DR-NS) cell line derived from human decidual tissue mediated apoptosis of human leukemia Molt4 and carcinoma BeWo/GCIY cells but not human fibroblast WI-38 cells, and apoptosis-inducing nucleosides (AINs) appeared to be involved. Six AINs were released into 57.DR-NS cell culture media and were isolated by the combination of physicochemical procedures of C18 preparative column, thin layer chromatography (TLC) and high pressure liquid chromatography (HPLC). Subsequently, we demonstrated that AINs could induce apoptosis in the human malignant Molt4/BeWo/GCIY cell line but not human normal WI-38 fibroblasts. Apoptosis was characterized by DNA strand breaks and activation of the caspase cascade, especially caspase-3. The administration of AINs into GCIY tumor bearing SCID mice culminated in suppression of tumor growth due to apoptosis of tumor cells.
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PMID:Human malignant cell death by apoptosis-inducing nucleosides from the decidua derived CD57(+)HLA-DR(bright) natural suppressor cell line. 1173 Sep 24

Unlike other leukemia types in which the bone marrow findings are diagnostic, the bone marrow pathology of T-cell granular lymphocytic leukemia (GLL) is subtle and ill-defined. In this study, bone marrow biopsy specimens from 36 patients with T-cell GLL and from 25 control patients with cytopenias and relative or absolute increases in blood large granular lymphocytes were studied by immunohistochemistry using antibodies to the cytolytic lymphocyte antigens CD8, CD56, CD57, TIA-1, and granzyme B. The goals were to clarify the bone marrow pathology of T-cell GLL and to refine the diagnostic criteria for T-cell GLL. Most bone marrow specimens from the T-cell GLL patients contained interstitially distributed clusters of at least 8 CD8(+) (83%) or TIA-1(+) (75%) lymphocytes or clusters of at least 6 granzyme B(+) (50%) lymphocytes. Interstitial clusters of CD8(+), TIA-1(+), or granzyme B(+) cells were present in 36%, 12%, and 0%, respectively, of the control bone marrows (all values significantly different, P <.001). An additional T-cell GLL disease-specific finding was the presence of linear arrays of intravascular CD8(+), TIA-1(+), or granzyme B(+) lymphocytes, found in 67% of cases of T-cell GLL and in none of the 25 control samples (P <.001). Staining for CD56 and CD57 was noncontributory. These findings clarify the bone marrow histopathology of T-cell GLL and provide an additional tool by which the discrete, abnormal lymphocyte population required for a diagnosis of T-cell GLL can be identified.
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PMID:Distinct bone marrow findings in T-cell granular lymphocytic leukemia revealed by paraffin section immunoperoxidase stains for CD8, TIA-1, and granzyme B. 1175 81

Only a few blastic natural killer (NK) cell leukemias and lymphomas have been reported. As such, the clinicopathologic spectrum of this disease is incompletely understood. We report 7 cases of blastic NK cell lymphoma/leukemia. All patients were men, 5 white and 2 Arab American. All cases exhibited blastic morphologic features and were CD3- and CD56+ with germline T-cell receptor genes. Five cases were CD4+ and involved the skin. Both CD4- cases never involved the skin. Other markers of mature NK cells such as CD16, CD57, and TIA-1 were expressed infrequently. Three cases were CD33+. One CD33+ case had a clonal rearrangement of the immunoglobulin heavy chain gene. Skin and lymph nodes were involved most often, with frequent evolution to a leukemic phase. Initial responses to therapy were achieved in most patients, but the tumors invariably recurred.
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PMID:Blastic natural killer cell lymphoma/leukemia: a report of seven cases. 1178 29

We describe a case of T-cell large granular lymphocyte (LGL) leukaemia that transformed into a large-cell T-cell lymphoma 11 years from diagnosis. A 29-year-old asymptomatic female presented in 1989 with lymphocytosis, neutropenia and mild bone marrow infiltration. The circulating cells were LGL with a CD2+, CD3+, CD8+, CD4-, CD16+, CD56+, CD57- phenotype. In August 2000, she developed fever, a large submandibular mass and hepatosplenomegaly. Biochemistry showed abnormal liver function tests and raised lactate dehydrogenase (LDH) levels. A serological screen for Epstein-Barr virus, cytomegalovirus, human T-lymphotropic virus-I, human herpes virus (HHV)-6 and HHV-7 was negative. Histology of the mass was consistent with the diagnosis of peripheral T-cell lymphoma composed of large cells, and immunohistochemistry showed that the lymphoma cells had a phenotype identical to the mature LGL. Molecular analysis with the polymerase chain reaction (PCR) demonstrated rearrangement of the T-cell receptor (TCR) gamma-chain gene with a band of identical size in both bone marrow mature LGL and lymph node cells. The patient was treated with CHOP (cyclophosphamide, vincristine, doxorubicin and prednisolone), resulting in the disappearance of the mass and improvement of the hepatosplenomegaly, LDH and liver abnormalities. She underwent splenectomy, and spleen histology showed involvement by T-cell LGL leukaemia with no evidence of transformation. This case illustrates that transformation or Richter syndrome may occur in a minority of patients with T-cell LGL leukaemia, a disease that has a benign clinical course in most cases. This is the first case documented by molecular methods of the transformation of the pre-existing clone.
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PMID:Transformation of T-cell large granular lymphocyte leukaemia into a high-grade large T-cell lymphoma. 1184 12

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