Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0220723 (PCA)
 4,687 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of interleukin 6 (IL-6) in the growth of five multiple myeloma-derived cell lines was characterized. The U266 and RPMI 8226 cell lines demonstrated increased DNA synthesis when cultured with exogenous IL-6, expressed IL-6 cell surface receptors (IL-6Rs) and expressed mRNA for IL-6R. However, these cells did not secrete detectable IL-6 protein, and a neutralizing antibody to IL-6 did not inhibit their growth. Three other myeloma-derived cell lines ARH-77, IM-9 and HS-Sultan did not respond to exogenous IL-6, secrete IL-6 or express cell surface IL-6Rs. The IL-6 responsive cell lines bore late B-cell surface antigens (Ags), CD38 and PCA-1, whereas those lines which were non-IL-6 responsive strongly expressed B1 (CD20) and B4 (CD19) Ags, representing earlier stages in B-cell differentiation. Finally, the two IL-6 responsive cell lines did not express Epstein-Barr virus (EBV) proteins; in contrast, EBV encoded proteins typically expressed during latency could be detected in the three non-IL-6 responsive lines, confirming infection with virus. These studies clarify the heterogeneity observed in the myeloma cell line phenotype and biology and suggest that the U266 and RPMI 8226 cell lines, which express IL-6 cell surface receptors and are IL-6 responsive, may be useful for further study of IL-6 signal transduction in and related IL-6 mediated growth of myeloma in vivo. In contrast, those cell lines which are IL-6-independent provide a model for further study of EBV transformation and IL-6-dependent growth mechanisms in malignancy.
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PMID:Role of interleukin 6 in the growth of myeloma-derived cell lines. 140 8

We examined the effectiveness of a previously characterized plasma cell-reactive monoclonal antibody (MoAb), MM4, in eliminating multi-drug resistant (MDR1) multiple myeloma (MM) clonogenic colony-forming cells (CCCs). MDR1 sublines with 6-fold (RPMI8226/DOX6) and 40-fold (RPMI 8226/DOX40) resistance to doxorubicin (DOX) were selected from the chemosensitive MM parent line RPMI 8226/S. Both sublines remained reactive with plasma cell MoAbs MM4 and PCA-1, as measured by flow cytometric immunophenotype analysis. MM4 and rabbit complement (C') were cytotoxic to MDR DOX6 (74 +/- 8.5%) and DOX40 (75 +/- 11.3%) cells as well as to chemosensitive 8226/S (80 +/- 5.6%) cells. Treatment with MM4 + C' depleted up to 3 logs of chemosensitive and MDR myeloma CCCs (8226/S: 99.26 +/- 0.52%; DOX6 99.91 +/- 0.08%' DOX40 99.15 +/- 0.55%). In addition, this approach abrogated the selfrenewing capacity of chemoresistant and MDR1 myeloma cell lines, according to doubling time analyses. By comparison, the P-glycoprotein-reactive MoAb MRK-16 and C' was effective in deleting MDR1 CCCs (DOX10: 95.71 +/- 2.51%; DOX40: 99.61 +/- 0.43%) but affected chemosensitive myeloma CCCs only slightly (5.93 +/- 14.52%). When DOX40 cells were mixed with normal bone marrow (BM) in a ratio of 10:90 (MM:BM), treatment with MM4 plus C' deleted MM CCCs (98.80 +/- 0.71%) without affecting the majority of normal BM progenitors. The combination of MM4 and MRK-16 did not enhance MDR myeloma CCC depletion. These observations suggest that MM4 + C' may be useful for depleting MDR as well as chemosensitive myeloma clonogenic cells from human bone marrow.
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PMID:Elimination of chemoresistant myeloma clonogenic cells from human bone marrow by monoclonal antibody and complement. 230 79

A small number of human myelomas have been established as long term cultured cell lines. We report the characteristics of two new cell lines, designated SK-MM-1 and SK-MM-2, derived from 73 attempts to culture myeloma specimens. Both cell lines were grown from myeloma patients with hypogammaglobulinemia, kappa light chain proteinuria, and plasma cell leukemia. SK-MM-1 and SK-MM-2 had a plasmacytoid morphology, grew in RPMI complete medium with doubling times of 32 and 60 hr, respectively, and did not express Epstein-Barr virus nuclear antigen. Both cell lines secreted kappa light chains (0.9 and 1.1 micrograms/10(6) cells/ml per 48 hr for SK-MM-1 and SK-MM-2, respectively) but no heavy chains. SK-MM-1 and SK-MM-2 expressed the pan-B cell marker B1 and the late B cell/plasma cell marker BL3. In addition, SK-MM-2 expressed late B cell/plasma cell markers OKT10 and PCA-1. Neither cell line expressed T lymphocyte, myeloid, or early B lymphocyte markers. The presence of distinctive kappa and heavy chain gene rearrangements supported the clonal origin of both cell lines from kappa light chain-producing B cells. The two cell lines were markedly aneuploid and both carried a 14q+ marker chromosome. Human myeloma cell lines lacking heavy chain secretion may be useful to elucidate mechanisms of immunoglobulin gene regulation and to construct human-human hybridomas.
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PMID:Establishment and characterization of two human myeloma cell lines secreting kappa light chains. 250 99

Patients with multiple myeloma (MM) commonly become refractory to chemotherapy despite a favorable response to induction treatment. We examined the effectiveness of a previously characterized plasma cell-reactive monoclonal antibody, MM4, in eliminating MM clonogenic colony-forming cells (CCC) with a multidrug-resistant (MDR) phenotype. Experiments were performed using MM cell lines that exhibit 6 (RPMI 8226/DOX6)- and 40 (RPMI 8226/DOX40)-fold resistance to doxorubicin (DOX). Both lines were selected from the chemosensitive MM line RPMI 8226/S and were cross-resistant to mitoxantrone, acronycine, etoposide, and vincristine. Surface marker analysis conducted in this study showed that DOX6 and DOX40 overexpressed the MDR1 gene product p170. Both MDR lines remained reactive to the plasma cell-reactive monoclonal antibodies MM4 and PCA-1 and expressed the relevant cytoplasmic immunoglobulin light chain. Treatment with MM4 and rabbit complement (C') was equally cytotoxic to RPMI 8226/S [80 +/- 5.6% (SD)], DOX6 [74 +/- 8.5], and DOX40 cells [75 +/- 11.3%], based on short-term chromium release studies. Furthermore, MM4 + C' deleted up to 3 logs of CCC colonies from chemosensitive and MDR lines (RPMI 8226/S, 99.87 +/- 0.11%; DOX6, 99.91 +/- 0.08%; DOX40, 99.55 +/- 0.44%). By comparison, the P-glycoprotein-reactive monoclonal antibody MRK-16 and C' inhibited tumor colony formation of MDR cells (8226/DOX6, 95.71 +/- 2.51%; 8226/DOX40, 99.61 +/- 0.43%) but affected that of chemosensitive cells only slightly (8.9 +/- 17.8%). In an attempt to optimize the depletion of myeloma CCC, MM4 was used together with MRK-16. This approach resulted in uniform depletion of myeloma clonogenic colony-forming cells from the chemosensitive (98.32 +/- 1.53%, n = 4) and MDR lines (8226/DOX6, 98.83 +/- 0.08%, n = 4; 8226/DOX40 99.29 +/- 0.62, n = 7) but did not result in enhanced CCC depletion. When DOX40 cells were mixed with normal bone marrow (BM) in the ratio of 90:10 (BM:MM), either MM4 or MRK-16 and C' depleted MM colonies (98.8 +/- 0.71% and 98.10 +/- 1.0%, respectively) without affecting the majority of BM progenitor cells. These observations suggest that either MM4 or MRK-16 is useful for depleting MDR myeloma clonogenic colony-forming cells.
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PMID:Elimination of chemoresistant multiple myeloma clonogenic colony-forming cells by combined treatment with a plasma cell-reactive monoclonal antibody and a P-glycoprotein-reactive monoclonal antibody. 256 59

Five human myeloma cell lines, KMM-1, KMS-5, KMS-11, KMS-12-PE, and KMS-12-BM, have been established at Kawasaki Medical School since 1980. As the KMS-12-PE and KMS-12-BM lines were obtained from the same patient, these five cell lines have been derived from four patients with multiple myeloma. The five myeloma cell lines are stably growing at present in RPMI 1640 medium supplemented with 10% fetal bovine serum. They can also grow in a defined culture medium without serum. That these cell lines were human myeloma cells was confirmed by the following findings. Ultrastructurally, all five cell lines showed features characteristic of plasma cells. KMM-1 and KMS-11 cells secreted lambda and kappa chains into the culture medium, respectively, but the other cell lines produced no immunoglobulins. KMM-1 expressed cytoplasmic lambda antigen, KMS-5 showed cytoplasmic delta, and KMS-11 expressed surface kappa, whereas KMS-12-PE and KMS-12-BM cells showed no surface or cytoplasmic immunoglobulins. Regarding reaction with a monoclonal plasma cell antibody (PCA-1), four of the five lines were positive, the exception being KMS-5. Another monoclonal antibody (CD38), which also recognizes plasma cells, responded to KMM-1, KMS-12-PE, and KSM-12-BM. KMS-5 cells expressed acute lymphoblastic leukemia antigens (CALLA). These data suggest that such lines as KMM-1, KMS-11, KMS-12-PE, and KMS-12-BM represent later stages of B-cell differentiation, and that KMS-5 represents a relatively early stage of B-cell differentiation. All the cell lines lacked Epstein-Barr virus nuclear antigen, showed abnormal karyotypes of human origin, and differed from each other in the isozyme patterns examined. Only KMS-5 was tumorigenic when transplanted subcutaneously into nude mice.
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PMID:Establishment of five human myeloma cell lines. 276 32

The efficacy of immunomagnetic beads to purge human myeloma cells from bone marrow ex vivo was evaluated. The optimal conditions for purging were studied first by using three myeloma cell lines: RPMI-8226, SKO-007, and SKMM-2. Myeloma cells labeled with the vital fluorescent dye Hoechst 33342 were admixed with normal bone marrow cells, and two monoclonal antibodies reactive with the myeloma cells (PCA-1 and BL-3) were added alone or in combination with the cells. Magnetic beads coated with goat antimouse immunoglobulin G were then added, and the tumor cells to which beads were attached were separated from the mixture with a magnet. The efficacy of tumor cell removal was dependent on the bead-to-tumor ratio; a ratio of more than 500 was optimal in the presence of excess normal marrow cells. The combination of monoclonal antibodies PCA-1 and BL-3 increased the tumor cell removal as compared with either antibody alone. Two cycles of treatment were more effective than one cycle was. Under optimal conditions, 2.3 to 4 logs of tumor cells could be removed from the mixture containing 10% myeloma cells without a significant loss of normal hematopoietic progenitors as measured by CFU-GM, CFU-GEM, and BFU-E. When the efficacy of this procedure was tested on fresh bone marrow from patients with multiple myeloma (MM) by using the combination of PCA-1, BL-3, and J-5, 1.6 to 2.5 logs of tumor cells could be removed by one cycle of treatment, even from marrows containing less than 10% myeloma cells. These observations support the use of monoclonal antibody combinations and immunobeads as a reliable and nontoxic method to eliminate contaminating myeloma cells ex vivo in preparation for autologous bone marrow transplantation in patients with MM.
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PMID:Elimination of myeloma cells from bone marrow by using monoclonal antibodies and magnetic immunobeads. 316 7

A new monoclonal antibody which recognizes plasma cells was developed by utilizing two myeloma cell lines, KMS12PE (12PE) and KMS12BM (12BM), established from the pleural effusion and bone marrow, respectively, of the same patient. Since 12BM expresses CD20, CD38, and PCA-1 antigens, while 12PE has lost CD20, 12PE is considered to be phenotypically more mature than 12BM. The 12PE cells were used to immunize a BALB/c mouse and a MoAb was produced which was more reactive to 12PE than to 12BM. Thus, a clone, D2, was obtained. On Western blotting, D2 detected a single band of 54 kD under both reduced and non-reduced conditions. This antigen was not detected by Western blotting in peripheral blood lymphocytes that had been stimulated with pokeweed mitogen (PWM) for 7 days or in those not so stimulated. On flow cytometry, D2 detected a myeloma cell line, RPMI 8226. Another myeloma cell line, U266, was negative for D2 antigen. Staining various cell lines by D2 and other antiplasma cell antibodies, PCA-1 and CD38, showed that D2 is distinct from PCA-1 and CD38. The fresh myeloma cells of 14 myeloma patients were stained by D2 and for other plasma cell antigens. D2 strongly stained three samples obtained from patients with clinically aggressive myeloma, while CD38 stained all cases except one. PCA-1 was positive in nine samples and negative in five. PCA-1 expression was observed in plasma cells obtained from pleural effusion and peripheral blood, while PCA-1-negative cases were not found in such samples, suggesting that PCA-1 expression was related to extramedullary invasion. The morphology of the myeloma cells, classified according to Greipp's criteria, showed that there was no correlation between plasma cell antigen expression and plasma cell morphology. Analysis of D2 antigen expression should provide more information about the heterogeneity of myeloma cells.
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PMID:Establishment of a monoclonal antibody to plasma cells: a comparison with CD38 and PCA-1. 818 46

Cell lines RPMI 8226, JJN3, U266 B1, NCI-H929 (all EBV-) and ARH77 and HS-Sultan (both EBV+) have been extensively characterized in this study. EBV- lines expressed the phenotype (CD138-, CD19+, CD20+) whereas EBV+ were (CD138+, CD19-, CD20-). CD56 expression was restricted to EBV- cell lines, with the exception of U266 B1, whereas PCA-1 was strongly expressed on five of the six cell lines. Only EBV+ cell lines bound peanut-agglutinin (PNA). However, all cell lines bound the lectin Jacalin that binds the same receptor as PNA, irrespective of the receptors sialylation status. By RT-PCR and direct sequencing of their IgH V/D/J domains, ARH77 was demonstrated to use the germline sequence VH4-34/dm1/JH6b, whereas no arrangement was demonstrated for RPMI 8226, suggesting IgH gene deletion or mutation. HLA class I and II antigens were detected using HLA typing on all cell lines warranting their use as suitable targets for HLA-restricted cytotoxic T cells. By sensitive RT-PCR, mRNA for IL-6, IL-6R and TNFbeta was found expressed in all cell lines. IL-1 mRNA expression was predominantly associated with the EBV+ phenotype. Although mRNA for IL-3 and GM-CSF was never detected, transcripts for c-kit ligand and, more commonly, its receptor were. Likewise GM-CSF, M-CSF and erythropoietin mRNA transcripts were detected in the majority of cell lines.
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PMID:Phenotypic and molecular analysis of six human cell lines derived from patients with plasma cell dyscrasia. 1191 67