UMLS:C0023418 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

The surface of lymphocytes obtained from fresh biopsy specimens from 41 patients with malignant lymphoma and from 30 normal subjects or patients with non-neoplastic lymphadenopathy were investigated. Immunoglobulin on the cell surface was used to identify B cells, whereas T cells were recognized by their reactivity with an antithymocyte antiserum and their ability to form rosettes with sheep erythrocytes. Normal and inflammatory lymph nodes were composed predominantly of T lymphocytes, as were nodes from 14 patients with Hodgkin's disease. Two thymomas were T cell proliferations, whereas a node from a patient with ataxia-telangiectasia was devoid of T lymphocytes. The presence of immunoglobulin on the cell surface indicated that 19 of 21 lymphocytic lymphomas were B cell proliferations, whereas the cells from 3 histiocytic lymphomas (reticulum cell sarcomas) and 1 mixed histiocytic and lymphocytic lymphoma were devoid of surface immunoglobulin. In immunoglobulin-positive tumors, one predominant heavy chain and one predominant light chain could usually be identified, thus establishing the clonal character of the neoplastic proliferation. Ten of 11 diffuse poorly differentiated lymphocytic lymphomas were composed of cells with large amounts of surface immunoglobulin, whereas only 1 of 5 diffuse well differentiated lymphocytic tumors contained such abundant surface immunoglobulin. The surface immunoglobulin data indicate the existence of at least two subspecies of B cell neoplasms. A small lymphocyte with sparse surface immunoglobulin proliferates as diffuse well differentiated lymphocytic lymphoma and chronic lymphocytic leukemia, whereas a larger lymphocyte with abundant surface immunoglobulin proliferates as diffuse poorly differentiated lymphocytic lymphoma and lymphosarcoma cell leukemia.
...
PMID:Lymphocyte surface characteristics in malignant lymphoma. 109 Jan 57

The rearranging antigen receptor genes of lymphoid cells serve as unique clonal markers of lymphoid neoplasms. Gene rearrangement analysis is a highly sensitive and reproducible tool which is useful in the diagnosis and classification of malignant lymphoma/leukemia. Although clonality can often be determined among B cell neoplasms by virtue of immunoglobulin isotype analysis, no such phenotypic marker of clonality exists for T cells. Therefore, clonality of T lymphoproliferative processes is most readily determined by rearrangement analysis of the T cell antigen receptor genes. The alpha, beta, gamma, and delta genes of the T cell receptor gene family encode heterodimeric surface antigen receptors and undergo rearrangement early in T cell differentiation. Identification of rearrangement of T cell antigen receptor genes provides valuable diagnostic information concerning cellular lineage, clonality and classification of T cell neoplasms. This molecular approach is applicable to the diagnosis of occult disease, relapse, and resolution of diagnostic dilemmas in any type of tissue sample including fluids and needle aspirations.
...
PMID:T-cell receptor gene rearrangements and the diagnosis of human T-cell neoplasms. 225 88

A new monoclonal antibody, KP1, against the CD68 antigen, which labels macrophages and other members of the mononuclear phagocyte lineage in routinely processed tissue sections, has been used to stain a range of lymphoid, histiocytic, and myelomonocytic proliferations. All 20 neoplasms of myeloid, myelomonocytic, and presumed macrophage derivation reacted with antibody KP1. None of the 22 cases of T cell neoplasia had positive reactions. Although 14 of 41 B lineage lymphomas and leukaemias were stained by antibody KP1, staining was usually confined to small dots of reactivity, in contrast to the strong and extensive cytoplasmic staining seen in the neoplasms of myeloid and macrophage/monocyte origin. Furthermore, positive B cell neoplasms were almost all small cell proliferations, which are unlikely to be confused with myelomonocytic malignancies. It was concluded that antibody KP1 is a valuable addition to a panel of monoclonal antibodies for phenotyping lymphomas, particularly in routinely fixed tissues. It should assist the pathologist in the recognition of extramedullary presentation of leukaemia, aid in the diagnosis of suspected cases of true histiocytic neoplasia, and allow for quantitation of macrophages infiltrating lymphomas and other solid tumors.
...
PMID:Diagnosis of myelomonocytic and macrophage neoplasms in routinely processed tissue biopsies with monoclonal antibody KP1. 268 30

DNA from mononuclear blood and tumor cells from 33 patients undergoing bone marrow transplantation for leukemia was examined for the presence of Epstein-Barr virus (EBV) genomes by blot hybridization. Four groups of patients were studied soon after engraftment, during long-term remission, after relapse of the original leukemia, and after development of secondary B cell neoplasms. Only the cells of patients with secondary neoplasms demonstrated EBV genomes, where all five adequately studied samples were positive. Samples from all other patient categories were negative for EBV genomes. We conclude that EBV genomes do not frequently persist in normal engrafted lymphocytes or in mononuclear cells of patients suffering recurrent leukemia. These results are consistent with EBV playing a role in the genesis of secondary B cell neoplasms following bone marrow transplantation.
...
PMID:Epstein-Barr virus genomes are restricted to secondary neoplastic cells following bone marrow transplantation. 298 39

Whereas it is generally believed that most cases of hairy cell leukaemia (HCL) represent B cell neoplasms, it is reported here that 4 of 14 cases of HCL not only express monotypic surface immunoglobulin (SIg) but also react with the T cell-specific monoclonal antibody (Mab) UCHT1 by indirect immunofluorescence or immunoperoxidase staining. Although both UCHT1 and OKT3 recognize the T3 molecule, which is expressed in all normal T cells, UCHT1+ hairy cells (HCs) were consistently OKT3-. Spurious reactivity of UCHT1 antibodies with SIg+ HCs was excluded by showing that lymphocytes sensitized with an irrelevant mouse Mab did not stain with second layer antibodies and lymphocytes sensitized with second layer antibodies alone were always completely unreactive. Moreover, in 1 case the determinants demonstrable by both UCHT1 and anti-Ig were strongly re-expressed after capping and shedding, i.e. appeared to be endogenous. It is concluded that HCs with a hybrid T-B surface phenotype are more common than hitherto reported, that HCs may express T3 molecules as well as SIg but that determinants recognized by OKT3 may be cryptic or buried in the HC membrane.
...
PMID:Co-expression of surface immunoglobulin and T3 on hairy cells. 309 6

The expression of the gene encoding the HLA-DR associated invariant chain (In-gene) in human B lymphocytes was analyzed by determining the level of invariant chain, mRNA in peripheral blood and bone marrow cells of several patients affected by hematological malignancies. In B cell neoplasms representative of different stages of B lymphocyte differentiation, In-gene activation was an early event that may occur in pre-B cells before immunoglobulin gene transcripts are detectable. The highest level of invariant chain mRNA were observed at an intermediate maturation stage corresponding to sIg, Ia, and B1 positive peripheral blood lymphocytes. At the terminal stage of B lymphocyte differentiation, the In-gene was turned off. In leukemic cell populations, the pattern of temporal activation of the In-gene corresponded to the pattern of activation of the genes encoding the HLA-DR alpha and beta chain.
Leukemia 1987 Jun
PMID:HLA-associated invariant chain gene expression in human B cell neoplasia. 311 12

The frequency and pattern of T gamma gene rearrangement and expression was investigated in hematopoietic neoplasms including T and B lymphoid and myeloid malignancies. 39 of 39 T lymphoid neoplasms, including fresh cases and cell lines, were found to display clonal T gamma gene rearrangements. There was heterogeneity with respect to utilization of the two T gamma constant region genes, T gamma C1 and T gamma C2. In 31 cases (80%) T gamma C1 was deleted and T gamma C2 was rearranged, while in the remaining 8 cases (20%) T gamma C1 was rearranged. T gamma gene rearrangements were found in non-T cells, but were restricted to 6/17 (35%) immature B cell neoplasms. All 24 mature B cell and 14 myeloid neoplasms retained the T gamma germ line pattern. T gamma mRNA was found in all T cells tested. However, the majority (16/17) of T cells most likely do not express a T gamma protein since a T alpha/beta heterodimer detected by reactivity with the MoAb WT31 is present on the cell surface together with T3. These data suggest that T gamma gene rearrangements are universal in T cells and frequent in immature B cell neoplastic populations. However, expression of the T gamma protein is extremely infrequent, indicating that T cell neoplasms are very rarely derived from the recently identified T3+T gamma +T alpha/beta- peripheral T cell population.
Leukemia 1988 Jan
PMID:Patterns of T cell receptor gamma gene rearrangement and expression in B and T lymphoid malignancies. 312 7

Tumour necrosis factor (TNF) induces the lysis of many malignant cells in vitro and regression of some tumours in vivo. However, TNF is also a growth factor for normal fibroblasts, T cells and B cells and we have recently shown that TNF can also act as a growth factor for chronic B cell neoplasms, including hairy cell leukaemia and B-CLL. In these cells it promotes proto-oncogene expression, RNA and DNA synthesis and increases overall cell survival. Stimulation appears to be autocrine in nature since exposure of the neoplastic cells to recombinant TNF protein induces the corresponding messenger RNA and synthesis of the protein itself. TNF induced proto-oncogene expression and DNA synthesis occur over a substantially longer time period than when the cells are stimulated with agents such as TPA and Calcium ionophore (2), but we have no evidence that the delay represents the time taken to generate TNF dependent secondary cytokines such as IL-1 and IL6. Alpha interferon opposes TNF mediated activation and our recent data indicate that this effect is independent of alpha interferon down regulation of TNF receptors. It appears to be related instead to a decreased accumulation of TNF mRNA which occurs contemporaneously with an alpha interferon induced rise in 2-5 A synthetase. If TNF dependent growth is important for the survival of B-CLL cells, then agents which mimic alpha interferon or which block TNF induced autocrine growth would be predicted to be of therapeutic benefit.
...
PMID:Effects of tumour necrosis factor and alpha interferon on chronic B cell malignancies. 326 1

Monoclonal antibodies to idiotypic determinants are being used with increasing frequency for analysis and treatment of B cell malignancies. In the present study we have compared the idiotypic specificities of a panel of 39 mouse monoclonal anti-idiotype (anti-Id) antibodies developed against 16 monoclonal human immunoglobulins (Ig). The Id cross-reactivities of these antibodies with Ig products of normal and abnormal B cells were examined by immunofluorescence and immunochemical methods. The reactivity patterns of these anti-Id antibodies with a normal population of plasma cells were highly variable in the immunofluorescence assay. Six were reactive with 2 to 10% of normal plasma cells, 30 with 0.1 to 2% of plasma cells, and three with less than 0.1% of plasma cells from blood, bone marrow, spleen, or tonsils. These reactivity patterns were relatively consistent among samples from 23 Caucasian, black, and Oriental adults. Although the reactivities of most anti-Id antibodies in the panel were not restricted to a particular Ig isotype, several were preferentially reactive with a particular heavy or light chain isotype: one IgM-, two IgA-, two kappa-, and three lambda-restricted antibodies. The immunofluorescence data was confirmed by biosynthetic analysis of Id+ molecules produced by a normal plasma cell population. When the reactivity of this panel of anti-Id antibodies with nonhomologous B cell neoplasms was examined, seven of 30 myelomas or leukemia-derived products and one of nine B cell leukemias or lymphomas without paraproteins were found to be cross-reactive with one or two of the anti-Id antibodies. Although clearly significant, the cross-reactivity between the Id of these paraproteins appeared to be of lower affinity than the reactivity of the homologous Id with their respective anti-Id antibodies. The results reveal a remarkable diversity in the specificities of monoclonal antibodies classified by conventional criteria as anti-Id antibodies, and indicate the potential usefulness of a panel of antibodies for analyzing clonal diversity in normal and abnormal B cell development.
...
PMID:Monoclonal anti-Id antibodies react with varying proportions of human B lineage cells. 349 81

Cell smears from serous effusions containing large numbers of lymphoid cells were stained by the alkaline phosphatase-anti-alkaline phosphatase technique with a panel of monoclonal antibodies, including anti-B and anti-T cell antibodies and anti-HLA-DR. Samples from 17 patients with lymphoproliferative disorders--such as chronic lymphocytic leukaemia and non-Hodgkin's lymphoma--and from 19 patients who had no evidence of lymphoid neoplasia--for example, cases of carcinoma, cardiac failure--were investigated. The majority of lymphoid cells in reactive effusions were T cells, which lacked HLA-DR and showed a marked excess of helper/inducer cells (mean helper to suppressor ratio of 3 X 5). In contrast, lymphoid cells in samples from nine cases of B cell neoplasia were positive for B cell antigen and HLA-DR. In a further four B cell neoplasms most lymphoid cells were reactive T cells. Two cases of T cell lymphoid leukaemia could also be characterised by immunocytochemical staining, both being classified as T helper cell neoplasms. Labelling was performed on routinely prepared, air dried cell smears, which could be stored in the unfixed state for long periods before staining. The technique may therefore be of use in many clinical cytology laboratories for the diagnosis of effusions containing numerous lymphoid cells.
...
PMID:Immunocytochemical staining of T and B lymphocytes in serous effusions. 389 89

1 2 Next >>