UMLS:C0026764 - FACTA Search

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Query: UMLS:C0026764 (multiple myeloma)
36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human monoclonal antibodies specific for the Rh(D) antigen were produced by cell lines generated by the fusion of pooled Epstein-Barr virus (EBV)-transformed B-cell lines secreting Rh(D) antibodies with the murine myeloma cell line NS.1 or with the human lymphoblastoid cell line HOA.1. The selection of hybrids was achieved in RPMI 1640 medium containing HAT and ouabain. Higher fusion efficiency was obtained with the NS.1 cell line; however, the hybrids with HOA.1 exhibited a greater clonal stability. The products of four clones (three human-human and one human-mouse) that consistently secreted antibodies for over 11 months were tested for specificity with a panel of red cells of various Rh phenotypes. The supernatants of all four clones showed anti-Rh(D) specificity but failed to react with the red cell Du phenotypes categorized as DV(Dw+) and DVI. Two of the three human-human clones secreted IgM(lambda) and the third IgG(kappa). The human-mouse clone produced IgG(kappa) antibody.
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PMID:Production and characterization of human-human and human-mouse hybridomas secreting Rh(D)-specific monoclonal antibodies. 303 6

Using in vitro-growing myeloma cell lines, we studied the growth factors involved in human multiple myeloma, and particularly the potential of autocrine secretion and response to B-cell growth factor (BCGF) of RPMI 8226, the best-documented Epstein-Barr virus-negative human myeloma cell line. We found that three myeloma cell lines (RPMI 8226, U266, and IM9) produce an autostimulatory growth factor (AGF) and thus increase their own proliferation by 2- to 3-fold in cells cultured at low density. Optimal AGF production was obtained after 24 h of culture at a cell density ranging from 2.5 to 5 million cells/ml. The three myeloma cell lines produce type II BCGF, able to induce the proliferation of highly purified human peripheral blood B-cells, only after anti-mu activation. The BCGF produced by RPMI 8226 can be absorbed onto RPMI 8226 cells together with the RPMI 8226 AGF, and the two are copurified on gel filtration in a peak with an apparent molecular weight of 70,000. RPMI 8226 can be efficiently activated by human high molecular weight BCGF II (Mr 50,000) and less extensively by BCGF I (Mr 12,000). RPMI 8226 does not produce either detectable IL1 or interferons gamma and alpha and IL1 and gamma-IFN had no stimulating effect on RPMI 8226 proliferation. Our findings support the conclusion that RPMI 8226 produces a BCGF II working as an AGF.
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PMID:Production of growth factors by human myeloma cells. 311 25

A human myeloma cell line designated LOPRA-1 has been established from ascites fluid containing malignant plasma cells of a patient with IgA2/kappa multiple myeloma. The cultured cells which are Epstein-Barr virus (EBV) negative have retained the morphological, cytochemical, ultrastructural and immunophenotypical features of well-differentiated plasma cells. They express the plasma cell antigen PCA-1, the antigens CD28 (Kolt-2) and CD38 (OKT10), the transferrin-receptor (OKT9), and some epitopes of the CD24 antigen (HB8, VIB E3), but are negative for surface immunoglobulins. HLA class II antigens (HLA-DP, -DQ, -DR) and other B-cell markers such as CD10 (CALLA), CD19 (B4), CD20 (B1), CD21 (B2), CD22 (HD39), CD23 (MHM6), CD37 (BL14) and CD39 (G28-8) as analysed by both flow cytometry and immunocytochemistry (PAP/APAAP). With respect to immunoglobulin synthesis, two stable clones were selected by single cell cloning: clone LOPRA-1/5 synthesizes large amounts of alpha 2 heavy and kappa light chains, but secretes only small amounts of these molecules, whereas clone LOPRA-1/4 is clearly devoid of intracellular immunoglobulin heavy and light chains and thus appears to be a chain loss variant. Cytogenetic analysis revealed a pseudotriploid phenotype with several structurally abnormal marker chromosomes: 3n + -, 70, XX, -X, -1, -4, -6, -8, -8, -13, -16, +7, +18, +21, +i(1q), +i(1q), +6q-, +3mar.
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PMID:Establishment and characterization of a permanent human IgA2/kappa myeloma cell line. 313 91

The control of immune responses by sex hormones is well documented but the effect of sex hormones on lymphoid cell subsets is poorly understood. We have investigated the expression of receptors for androgens (AR), estradiol (ER) and progesterone (PR) by human cell lines of the B lymphocyte lineage and by murine myeloma or hybridomas. AR, ER and PR were determined by cytosol and nuclear binding assays. Eleven human lymphoblastoid cell lines obtained by in vitro infection of blood or tonsil B cells with Epstein-Barr Virus (EBV) B95, did not express AR or ER. Similarly, 10 Burkitt's lymphoma cell lines were AR, ER and PR negative with the exception of the pre-B RAJI cells which bear AR. Among 13 cell lines derived from patients with multiple myeloma none expressed AR but five were found to bear ER (20-164 fmol/mg DNA or 5-10 fmol/mg protein). Four of the latter group also bear PR (86-450 fmol/mg DNA). Two mouse hybridomas out of seven tested were ER and PR positive. The MOPC 315 myeloma expressed ER but not PR. The possible functional role of these sex hormone binding sites in cell proliferation and immunoglobulin secretion deserves further investigation.
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PMID:Estrogen and progesterone receptors in some human myeloma cell lines and murine hybridomas. 326 Mar 11

A human-mouse myeloma analogue termed HMMA2.11TG/O was constructed by fusion of the mouse myeloma cell line P3x63Ag8.653, a mutant derivative of MOPC21, with bone marrow mononuclear cells from a patients with IgA myeloma. The HMMA2.11TG/O cell line is resistant to 6-thioguanine and ouabain and sensitive to HAT. The cell line secretes no detectable immunoglobulin and has a hybrid karyotype and cell surface phenotype. An average fusion efficiency for growth of hybridomas of 1/17,000 fused cells was obtained in fusions with human peripheral blood mononuclear cells (PBM), Pokeweed Mitogen (PWM) stimulated PBM, and Epstein-Barr Virus (EBV) transformed polyclonal B cell lines. Over 75% of hybrids secrete detectable immunoglobulin and the cloning efficiency of the hybrids at 1 cell/well averages 25%. Antibody secreting cloned hybridoma cell lines were obtained by fusion directly with PBM from an immunized volunteer and by fusion with in vitro, secondarily immunized, EBV transformed polyclonal cell lines. Five hybridomas secreting human monoclonal IgM anti-tetanus antibodies and 2 secreting human monoclonal IgG anti-tetanus antibodies were selected and cloned from 6 fusions performed specifically for anti-tetanus antibody. Immunoglobulin and antibody secretion by cloned hybrids has been stable for 5-10 months at present. Immunoglobulin and antibody secretion in routine cultures passaged every 3-4 days has been 8-42 micrograms/ml. This human-mouse myeloma analogue should prove useful for the routine production of human monoclonal antibodies.
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PMID:The construction and use of a human-mouse myeloma analogue suitable for the routine production of hybridomas secreting human monoclonal antibodies. 343 25

Two new human plasma cell lines designated as ACB-885 and ACB-1085 have been established from a 39-year-old patient with multiple myeloma. These cell lines have definitive plasma cell features by morphologic examination, and essentially all of the cells are positive for cytoplasmic IgG kappa immunoglobulin. These cells are negative for standard T-cell surface markers and mature B-cell markers, such as B1, B2, and HLA-DR, but are strongly positive for the antigen defined by OKT-10. The cells are negative for Epstein-Barr virus. The cell lines have a doubling time of 30-35 hours and a growth fraction approaching 100%. Cytogenetic analysis showed a 2n chromosome number of 45-46 with very similar karyotypic abnormalities in both the plasma cell lines and the original tumor material. One of the chromosomes in each of the pairs of chromosomes number #1, #2, #6, #7, #8, #10, #12, #13, and #22 were consistently missing. These were replaced by eight marker chromosomes that resulted from chromosomal rearrangements involving mainly these missing chromosomes. Almost all of the breakpoints occurring in the marker chromosomes were identified, and eight of these breakpoints have been reported in other studies of myeloma plasma cells. Homogeneously staining regions were observed in two marker chromosomes suggesting gene amplification in these chromosomal regions.
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PMID:Cytogenetic and biological characterization of two new human plasma cell lines. 347 43

The expression, tissue distribution, and preliminary characterization of a cell surface molecule, apparently a glycolipid, recognized by a monoclonal antibody, anti-PAA, were described. This antibody (anti-PAA) was produced by the fusion of myeloma cells NS-1 with spleen cells from a BALB/c mouse, which were sensitized with activated human T-cells generated by allogeneic stimulation in mixed-lymphocyte culture (MLC). Resting human peripheral blood T-cells, B-cells, and monocytes demonstrated weak anti-PAA binding. Binding of proliferating T-cells (phytohemagglutinin- and MLC-activated T-cells) and thymocytes to anti-PAA was two to six times greater than that of resting T-cells. A fifteenfold-increased binding was observed with acute lymphocytic leukemia T-cell lines. Epstein-Barr virus-transformed B-cell lines bound anti-PAA up to sixteenfold greater than resting B-cells. Tumor cell lines of various nonlymphoid origins demonstrated marked reactivity with this antibody. Both benign and malignant cells in hyperplastic tissues, of various origins, bound anti-PAA, whereas their normal, nonproliferating counterparts did not. Normal proliferating cells in these tissues, including cells of the placental chorionic villi and trophoblasts, also bound anti-PAA. Of all lymphoid and nonlymphoid cell lines examined, only chronic lymphocytic leukemia (CLL) cells and some cell lines derived from Burkitt's lymphoma showed weak or no binding. This antibody also failed to react with a variety of nonprimate cell lines. Anti-PAA antibody did not immunoprecipitate any protein from lymphoid tumor cell lines to which it demonstrated a quantitatively high degree of binding, nor did protease treatment of these lines decrease antibody binding. Anti-PAA did, however, bind to glycolipids extracted from these cell lines. Binding of this monoclonal antibody to a minor neutral glycolipid, isolated from the erythroleukemia cell line K562, was about sixfold greater than that of any other K562 neutral glycolipid or ganglioside. Anti-PAA demonstrated weak or undetectable binding to purified, predominant, lymphoid cell membrane's neutral glycolipids and gangliosides. The monoclonal antibody anti-PAA appeared, therefore, to recognize a unique, proliferation-associated, neutral glycolipid present on normal as well as on benign and malignant proliferating cells. The antigen appeared to be universally expressed on proliferating cells from all human tissues with the exception of some Burkitt's cell lines and CLL cells. Nonhuman cell lines, except those for closely related primates, did not express PAA.
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PMID:Unique proliferation-associated marker expressed on activated and transformed human cells defined by monoclonal antibody. 354 53

We investigated infection of cultures from established human B- and T-cell lines by adenoviruses. Infection by adenovirus type 2 or 5 was productive by the criteria of viral DNA replication, RNA synthesis, immunofluorescent staining of viral proteins, and assembly of biologically active virions. Whereas the kinetics of infection were reproducible and characteristic for each cell line, there appeared to be no correlation between the kinetics of infection and the origin from which the cell lines were established. In a myeloma and a T-cell line, the kinetics of infection approached those in HeLa cells. The presence of the Epstein-Barr virus genome in B lymphoid cells was not a prerequisite for adenoviral infection. Furthermore, expression of the E1A gene was repressed in myeloma cells in comparison with HeLa cells.
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PMID:Productive infection of cultured human lymphoid cells by adenovirus. 357 45

Three new human myeloma cell lines (U-1957, U-1958, and U-1996) have been established in vitro. The cell lines are Epstein-Barr virus (EBV) negative, monoclonal, and aneuploid and should thus represent malignant cell populations and not EBV-carrying non-neoplastic B lymphoblastoid cell lines. The myeloma origin of the cell lines is also suggested by their capacity for production of monoclonal complete immunoglobulin (Ig) molecules (U-1957 and U-1958) or IgG light chains (U-1996) of the same type as the myeloma protein in vivo. All the cell lines have morphological features of plasmablasts-plasma cells but appear to represent slightly different stages of B cell differentiation. Thus, the U-1958 has plasma cell morphology, expresses only PCA-1 and OKT-10 but no other B cell antigens, and secretes 1.5 micrograms/mL of IgG/10(6) cells/24 hours. The U-1957 has plasma cell morphology and expresses Fc receptors and the LB-1 antigen in addition to the PCA-1 and OKT-10 antigens. This line produces only minimal amounts of IgG, which appears not to be secreted. The U-1996, finally, is a kappa light chain producer, has a plasmablast morphology, and expresses LB-1 in addition to the PCA-1 and OKT-10 antigens. All three cell lines are chromosomally heterogeneous and contain several markers with a 14q+ abnormality as a common characteristic abnormality. These new myeloma lines have been in continuous culture for approximately 3 years and are instrumental in studies of various aspects of the biology of human myeloma.
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PMID:Establishment and phenotypic characterization of three new human myeloma cell lines (U-1957, U-1958, and U-1996). 358 May 70

We have established a new human myeloma cell line from the pleural effusion of a patient with an IgA lambda myeloma, using special tissue culture conditions and selection procedures to prevent the outgrowth of contaminating Epstein-Barr virus (EBV)-carrying normal B-lymphoblastoid cells present in the explant. The myeloma cell line, U-2030, is aneuploid and EBNA-negative and has morphological features, reactivity with cytochemical markers and cell-surface antigen expression typical of plasmablasts. The cell line thus appears to be representative of the malignant clone in vivo. However, functionally the line is a non-Ig-producer and must therefore be derived from a non-secretory variant cell present within the highly aneuploid myeloma cell clone in vivo. The U-2030 differs from previously established human myeloma cell lines in that it has a comparatively high growth rate, is clonable and can be made HAT-sensitive relatively easily. This, together with the facts that it is a non-Ig-producer and mycoplasma-free, suggests that the 6-thioguanine-resistant, HAT-sensitive subline, U-2030 TG, derived from this cell line may be used as a malignant fusion partner for the production of human-human hybridomas. An EBV-carrying lymphoblastoid cell line (U-2031) was also established. This line was diploid and had all the phenotypic properties of lymphoblastoid lines established from normal individuals.
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PMID:Establishment of a new human myeloma cell line (U-2030) and selection of a hat-sensitive subline. 358 53

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