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

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Query: UMLS:C0019829 (Hodgkin's disease)
30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two hundred Hodgkin's and non-Hodgkin's lymphomas were immunohistochemically studied for the presence of the CD30 (Ki-1) activation antigen using a monoclonal antibody BerH2 on paraffin-embedded, formaldehyde-fixed tissue. Immunohistochemistry was performed by using the avidin-biotin complex technique and was preceded by enzymatic digestion with pepsin (0.05% for 20 minutes). Ninety percent (56/64) of cases of Hodgkin's disease, other than lymphocyte predominance type, showed positive tumor cells, although the positivity was often focal. In contrast, lymphocyte predominance type showed CD30 in only two of nine cases. CD30 was commonly seen in non-Hodgkin's lymphomas. Five of 37 large-cell lymphomas showed extensive CD30 positivity and morphologically represented large-cell anaplastic lymphomas ("Ki-1 lymphomas"). Apart from this, occasional CD30-positive cells were seen in nine of 32 large-cell non-Hodgkin's lymphomas. About half of the nodular small cleaved-cell lymphomas contained CD30-positive cells, two of them showing large numbers of positive cells both within and outside the nodules. Lymphocytic lymphoma sometimes (6/17) showed a few CD30-positive cells. Peripheral T-cell lymphomas showed positive cells in three of eight cases. The positive cases were one lymphoma with small groups of epithelioid cells (Lennert's lymphoma) and two immunoblastic lymphadenopathylike peripheral T-cell lymphomas. The results show that CD30 is more widespread than originally thought in non-Hodgkin's lymphomas and that especially nodular small cleaved-cell lymphomas often contain positive cells. These findings have to be considered in the immunohistochemical differential diagnosis of lymphomas. Obviously, CD30 alone cannot be used to differentiate between Hodgkin's and non-Hodgkin's lymphomas. The CD30-positive cells in non-Hodgkin's lymphoma may represent a link between Hodgkin's and non-Hodgkin's lymphomas.
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PMID:CD30 distribution. Immunohistochemical study on formaldehyde-fixed, paraffin-embedded Hodgkin's and non-Hodgkin's lymphomas. 133 42

The authors critically review the problem of Hodgkin's disease (HD) in the light of new morphological, immunohistochemical, kinetic, genotypic, and virological findings. These support the lymphoid origin of neoplastic Hodgkin's and Reed-Sternberg cells, because of regular expression of the CD30 lymphoid activation antigen and frequent detection of B- or T-cell phenotypic and/or genotypic markers. It is possible to hypothesize the release of cytokines by tumoral elements as well as the presence of specific cytokine receptors on their surface. This might explain some clinical and pathological features, such as fever, loss of weight, eosinophilia and attraction of reactive elements that make up the composite cellular milieu of typical HD. Integration of monoclonal EBV in the genoma of neoplastic elements has repeatedly been shown, and this might play an essential role in the pathogenesis of the disease. On the basis of present concepts, the borderlines between HD and some categories of non-Hodgkin's lymphomas--especially the anaplastic large cell forms--have become somewhat blurred. Additional research work in the field of HD is desirable and might pave the way for new and more effective therapeutic approaches, designed on the basis of the natural history of the neoplasm.
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PMID:Hodgkin's disease: update of findings. 166 Apr 36

The newly produced monoclonal antibody (mAb) LF61 detects a molecule restricted to hairy cell leukaemia (HCL) among B-cell non-Hodgkin's lymphomas. In particular, the percentage of LF61 + HCL cells in different cases ranges from 10% to 100%. In normal lympho-haemopoietic tissues LF61 reacts with only about 2% of T-cells, mostly of the CD8 subset in the peripheral blood, extrafollicular areas of the tonsil, red pulp of the spleen and thymic medulla. Expression of the LF61 molecule is observed following stimulation of peripheral blood lymphocytes with phytohaemagglutinin (PHA) or pokeweed mitogen (PWM), suggesting that it represents an activation antigen. Due to its restricted reactivity with a small subset of normal CD8 + T-cells, LF61 in combination with a CD22 mAb is highly suitable for monitoring residual disease in interferon or deoxycoformicin-treated HCL patients. Polyacrylamide gel gradient electrophoresis shows that LF61 precipitates a 150 kDa, 125 kDa, 105 kDa trimeric molecule from the surface of HCL cells. Immunohistological and immunobiochemical results show that this molecule is the same as the one recognized by the still unclustered anti-HCL mAb B-ly7.
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PMID:LF61: a new monoclonal antibody directed against a trimeric molecule (150 kDa, 125 kDa, 105 kDa) associated with hairy cell leukaemia. 226 7

The distribution of the BLA, CALLA (CD 10), AC-2 (CD 39), MHM-6 (CD 23), LB-I, and 351C5 (CD 45R) antigens in 40 non-Hodgkin's lymphomas was demonstrated by immunohistochemical staining of frozen tissue sections. Nine out of 10 centroblastic and centrocytic follicular and diffuse type of lymphomas (CB/CC F/D) and all 10 cases of CB/CC follicular lymphomas were BLA+ and CALLA+. A few cases also showed weak expression of activation antigens (AC-2, MHM-6 and LB-I) and 351C5. In contrast, 3 CC and 3 lymphoblastic (non-Burkitt) lymphomas showed a heterogeneous pattern of distribution with dominating activation antigen expression. A single case of lymphoblastic lymphoma of Burkitt-like type expressed BLA and CALLA but not activation antigens. In reactive follicular center and FCC lymphomas different cell populations appeared to express BLA and activation antigens, respectively. Assessment of staining intensity and proportion of the stained cells indicated that almost all BLA+ cells are CALLA+. CALLA+ BLA- cells were regularly present, in addition. The co-expression of BLA and CALLA in the same cell was confirmed by double immuno-enzymatic staining. By the same technique, BLA+ and CALLA+ cells were shown to be activation-antigen negative.
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PMID:Immunophenotypic characterization of follicle-center-cell-derived non-Hodgkin's lymphomas. 264 42

The human B cell restricted activation antigen B7 identifies an in vivo primed subpopulation of B cells that demonstrate an accelerated response to triggers of B cell activation and proliferation. The cDNA encoding B7 was molecularly cloned by cDNA expression. The identity of the B7 cDNA was confirmed by indirect immunofluorescence and immunoprecipitation of a 44/54-kDa protein from B7 transfected COS cells. The sequence of the B7 polypeptide predicts a type I membrane protein of 262 amino acids with eight potential N-linked glycosylation sites in the extracellular region and a short, highly positively charged cytoplasmic tail. The extracellular region is homologous to the Ig gene superfamily and consists of two contiguous Ig-like domains. The first Ig domain has the characteristics of a variable domain and the second that of a constant region domain. B7 mRNA was detected only on anti-Ig activated B lymphocytes and not in other hematopoietic cells. After in vitro activation of B cells with anti-Ig, B7 mRNA was maximally expressed between 4 and 12 h with four RNA transcripts of 1.7, 2.9, 4.2, and 10 kb. The 2.9-kb mRNA predominated in in vitro-activated B cells whereas the 1.7-kb mRNA was most abundant in tumor cells of B cell origin. B7 expression was confined to several histologically defined subgroups of B cell malignancies. The majority of non-Hodgkin's lymphomas were B7+ whereas the B cell leukemias and circulating non-Hodgkin's lymphomas were generally negative. These results demonstrate that the B7 gene encodes a unique molecule belonging to the Ig superfamily and that B7 expression is limited to normal activated B cells and noncirculating B cell malignancies.
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PMID:B7, a new member of the Ig superfamily with unique expression on activated and neoplastic B cells. 279 10

The T1 surface antigen (CD5,p67) expression on blood lymphocytes (PBL) and lymphoid cells from lymph node biopsies (LN) from 31 patients with B-cell chronic lymphocytic leukemia (B-CLL) and 79 with B non-Hodgkin lymphoma (B-NHL), was detected in 25 B-CLL (80 per cent) and in 11 B-NHL (13 per cent) belonging to the following histologic subtypes: lymphocytic of CLL type (DLWD) one case, lymphoplasmacytoid (DLWD) four cases, centrocytic (DLPD) five cases, immunoblastic (DH) one case. All B-CLL and the T1 + B-NHL were also tested with monoclonal antibodies against the Common Acute Lymphoblastic Leukemia Antigen, B cells (FMC7, FMC8, BA1, Y29-55), T cells (OKT11a), HLA-DR and HLA-DQ monomorphic determinants. All the B-CLL and the T1+ B-NHL were CALLA-, BA1+, Y29.55+. FMC7+ cells were detected in large numbers six B-CLL (three T1+ and three T1-) and in four centrocytic lymphomas. FMC8 reacted with 70 per cent of leukemias (where it stained 30 per cent of neoplastic cells) and with 8/9 T+ B-NHL. HLA-DR and HLA-DQ molecules were detected in 100 per cent and 90 per cent of cases respectively. In vitro treatment of HLA-DQ- or T1- B-CLL with phorbol ester TPA led to the expression of these antigens as well as of the receptors for Interleukin 2 and MLR3 activation antigen. Surface membrane Ig (SIg) was detected in 79 per cent of cases, its density measured by FACS analysis varied, even markedly, from case to case. Among the B-CLL, cells with high SIg content were either T1+ or T1- and more likely FMC7+. The SIg- cases were seven B-CLL (five T1+ and two T1-) and two B-NHL, in which, however, cytoplasmic IgM was detected. This study reveals the existence of four major B-CLL subgroups: T1- SIg-, T1+ SIg+, T1+ SIg+, T1- SIg+. It also indicates that the T1 antigen may be transitionally present during B-cell differentiation and that its expression may precede that of SIg as supported by the in vitro studies. In addition, the finding that some B-NHL are T1+ suggests that they derive similarly to the B-CLL from a common progenitor.
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PMID:Expression of the T1 (CD5, p67) surface antigen in B-CLL and B-NHL and its correlation with other B-cell differentiation markers. 309 11

In an attempt to relate the functional events of B cell activation with changes in cell surface molecules, we have used a panel of monoclonal antibodies directed against cell surface antigens expressed on activated but not resting B cells, to determine a sequence of activation antigen expression following anti-immunoglobulin stimulation. Within the first 24 hr of culture with anti-Ig, resting splenic B cells were induced to express B5 and interleukin-2 receptor (IL-2R) and subsequently express T9 and BB1 by 48 hr. Maximum antigen expression was seen by day 3 with the majority of cells expressing B5, IL-2R, T9, and BB1, and fewer numbers of cells expressing Blast-1 and Blast-2. By day 6, the expression of these antigens significantly decreased. Dual fluorochrome staining of anti-Ig activated B cells demonstrated heterogeneity of activation antigen expression, suggesting the existence of subpopulations of activated B cells. In an attempt to relate the non-Hodgkin's lymphomas (NHLs) to this sequence of activation, 69 tumor samples from patients with B cell NHLs were then examined for expression of these activation antigens. Histologically defined subgroups of B cell NHLs demonstrated differential expression of activation antigens with B5, BB1, and T9 exhibiting the widest distribution, whereas IL-2R, Blast-1, and Blast-2 demonstrated more limited expression. The finding that no B cell malignancy phenotypically resembles the small resting B lymphocyte coupled with the observation that virtually all B cell NHLs examined expressed activation antigens suggests that these tumors may be the neoplastic counterparts of subpopulations of activated B lymphocytes.
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PMID:Expression of B cell activation antigens on normal and malignant B cells. 311 2

Studies of lymphoproliferative disorders using immunoglobulin and T-cell receptor genes have contributed to our understanding of clonality and lineages of these disorders. In this study, we examined the rearrangement of the recently discovered T-cell delta chain genes in a variety of lymphoproliferative diseases. We show here that six of 14 T-cell lymphomas and five of 23 B-cell lymphomas or B-cell leukemia cell lines have rearranged the delta loci, while two of two hyperimmune reactions retain germline configuration within these genes. Seven of ten cases of AILD were rearranged, and Lennert's lymphoma, which has been previously described as a T-cell malignancy, also contains rearrangements in the delta chain genes (three of five). Large cell anaplastic lymphomas positive for the activation antigen CD 30 also contain rearrangement in about one-half (five of 11) of the tumors examined. Two of seven of the Hodgkin's lymphomas studied contained a rearrangement for this gene. This study indicates that this newly identified T-cell delta gene is useful in evaluating clonality but is not lineage specific. However, with only one exception (in 28 rearrangements), this gene rearranges in tumors with gamma and beta chain gene rearrangements, indicating that when used in conjunction with the other TcR genes, delta rearrangement may also be useful in evaluating lineages.
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PMID:Rearrangement of T-cell delta locus in lymphoproliferative disorders. 326 May 25

The two monoclonal antibodies HRS-1 and HRS-2, which were obtained after immunization with the Hodgkin's derived cell line L428, detect different epitopes on a 120 kd antigen. This antigen is present on Hodgkin- and Reed-Sternberg (H&RS) cells in all subtypes of Hodgkin's lymphoma and on large cell anaplastic non-Hodgkin's lymphomas. The H&RS- associated 120 kd antigen appears to be a non-lineage specific activation antigen, as it is not present on normal B and T lymphocytes or monocytes, but appears on these cells after activation. Because of their restricted reactivity with H&RS cells, HRS-1 and HRS-2 alone or in combination may be helpful for immunoimaging and immunotherapy of Hodgkin's lymphomas.
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PMID:Hodgkin and Reed-Sternberg cell associated monoclonal antibodies HRS-1 and HRS-2 react with activated cells of lymphoid and monocytoid origin. 336 33

The B-lymphocyte/accessory-cell activation antigen B7 (BB1) has been shown in vitro to stimulate T-lymphocyte proliferation and cytokine production via CD28 present on the latter cells. In this study, benign lymphoid tissues, lymphomas, and extralymphoid inflammatory sites were examined immunohistochemically using anti-B7 and other relevant monoclonal antibodies. B7 was expressed by benign transformed germinal center B cells, as it was by B cells of follicular lymphomas. B7 was also expressed by a subpopulation (a mean of 31% to 65%) of macrophages and dendritic cells in a variety of lymphoid tissues. It was present in abundance on all macrophages constituting sarcoid granulomas in lymph nodes. In extralymphoid inflammation, 17% to 35% of macrophages expressed B7 only weakly. Cases of Hodgkin's disease showed expression of B7 by the majority of Reed-Sternberg cells or malignant mononuclear variants, a phenomenon that potentially contributes to the lymphocytic accumulation that is a feature of this condition. CD28+ T cells were seen in all areas where T cells were present. B7+ and CD28+ cells colocalized in, for example, lymphoid follicles, lymph node paracortex, sarcoid granulomas, and Hodgkin's disease tissue, indicating a potential for cellular interaction via these molecules at these sites.
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PMID:In vivo expression of the B7 costimulatory molecule by subsets of antigen-presenting cells and the malignant cells of Hodgkin's disease. 750 34


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