Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0026764 (multiple myeloma)
 36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Eighty-two patients with metastatic tumor received a therapeutic regimen consisting of BCNU, 100 mg/m2, and cyclophosphamide, 400 mg/m2, both intravenously on day 1, followed by adriamycin, 40 mg/m2, on day 2. Treatment was repeated every 4 weeks. Of 14 evaluable patients with adenocarcinoma of the breast, all resistant to previous chemotherapy and 12 resistant to a five-drug combination chemotherapy program, 12 had objective responses of which seven were good partial responses. Osseous, visceral, and cutaneous metastases responded equally well. Overall, 53% of 68 evaluable patients had objective responses, and 32% had complete or good partial responses. The most encouraging results were in patients with carcinoma of the head and neck, ovarian carcinoma, and multiple myeloma refractory to standard therapy. Significant responses were observed in previously untreated patients with epidermoid carcinoma of the lung, carcinoma of the prostate, and carcinoma of undermined primary. Remissions lasted a median of 5 months. Myelosuppression was moderate in degree and was maximal 2 weeks after treatment. Cumulative thrombocytopenia was apparent but not dose limiting with repeated courses.
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PMID:Adriamycin, 1,3-bis (2-chloroethyl)-1-nitrosourea (BCNU-NSC 409462), and cyclophosphamide in refractory adenocarcinoma of the breast and other tumors. 125 1

Mitoxantrone is a dihydroxyanthracenedione derivative which as intravenous mono- and combination therapy has demonstrated therapeutic efficacy similar to that of standard induction and salvage treatment regimens in advanced breast cancer, non-Hodgkin's lymphoma, acute nonlymphoblastic leukaemia and chronic myelogenous leukaemia in blast crisis; it appears to be an effective alternative to the anthracycline component of standard treatment regimens in these indications. Mitoxantrone is also effective as a component of predominantly palliative treatment regimens for hepatic and advanced ovarian carcinoma. Limited studies suggest useful therapeutic activity in multiple myeloma and acute lymphoblastic leukaemia. Regional therapy of malignant effusions, hepatic and ovarian carcinomas has also been very effective, with a reduction in systemic adverse effects. Mitoxantrone inhibits DNA synthesis by intercalating DNA, inducing DNA strand breaks, and causing DNA aggregation and compaction, and delays cell cycle progression, particularly in late S phase. In vitro antitumour activity is concentration- and exposure time-proportional, and synergy with other antineoplastic drugs has been demonstrated in murine tumour models. Leucopenia may be dose-limiting in patients with solid tumours, whereas stomatitis may be dose-limiting in patients with leukaemia. Other adverse effects are usually of mild or moderate severity although cardiac effects, particularly congestive heart failure, may be of concern, especially in patients with a history of anthracycline therapy, mediastinal irradiation or cardiovascular disease. Mitoxantrone displays an improved tolerability profile compared with doxorubicin and other anthracyclines, although myelosuppression may occur more frequently. Thus, mitoxantrone is an effective and better tolerated alternative to the anthracyclines in most haematological malignancies, in breast cancer and in advanced hepatic or ovarian carcinoma. Further studies may consolidate its role in the treatment of these and other malignancies.
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PMID:Mitoxantrone. A review of its pharmacodynamic and pharmacokinetic properties, and therapeutic potential in the chemotherapy of cancer. 171 46

This paper aims to summarize current experience with alpha interferon and provide direction for future study. There are four areas in which alpha interferon has proven or potential activity: antiviral, premalignant, adjuvant and advanced disease settings. The three main viral diseases in which interferon alfa-2b has been shown to have activity are chronic viral hepatitis, acquired immunodeficiency syndrome, and human papilloma virus infections. In vitro studies suggest that alpha interferon may inhibit transformation of some premalignant conditions into malignant disease; e.g., vaginal intraepithelial neoplasia. In the adjuvant setting, it is possible that a biological response modifier, such as alpha interferon, may have a role in helping the immune system to destroy residual tumour cells following tumour bulk reduction with radiation or chemotherapy. A higher response rate has been seen in patients with small tumour bulk compared to those with large tumour bulk (e.g., malignant melanoma, ovarian carcinoma), and in patients with early, rather than late, disease (e.g., chronic myelogenous leukaemia, hairy cell leukaemia, multiple myeloma, non-Hodgkin's lymphoma). This may be due to efficacy in a small tumour bulk setting or due to an immunoadjuvant role. In advanced disease, the question is how best to exploit the possible synergistic effects between alpha interferon and other therapeutic modalities. The optimum dose, schedule and patient populations for combined treatment have yet to be determined. The major objective of this paper is to determine how best to capitalize upon the current state of knowledge to build for future trials of alpha interferon, and to determine whether the existing data suggest an adjuvant role for interferon after initial tumour regression.
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PMID:alpha Interferon: the potential drug of adjuvant therapy: past achievements and future challenges. 179 68

Monoclonal antibodies which bind selectively to cancer cells are currently used for tumor localization and for targeting cytotoxic reagents. The success of these approaches depends on the specificity of the antibody and its reactivity to a majority of the tumor samples. Frequently, monoclonal antibodies are generated by immunizing mice with antigenic preparations from a single tumor cell line. Antibodies generated under these conditions often react to a narrow range of tumors. In the present study, mice were immunized with multiple ovarian cancer cell lines in a sequential manner to amplify the immune response against common antigenic determinants expressed in these cell lines. Spleen cells from the immunized mice were then fused with NS-1 myeloma cells to establish hybridomas. Two cell lines were selected on the basis of their selective reactivity to ovarian cancer cells after extensive screening. Monoclonal antibodies OVX1 and OVX2 bound to all 5 ovarian carcinoma cell lines tested and did not bind to normal fibroblast cells. These antibodies recognized a unique antigenic determinant present in ovarian and breast cancer cells. Cross-blocking studies showed that the binding of OVX1 and OVX2 is not displaceable by 10 other previously described anti-ovarian antibodies including OC125. In immunocytochemical studies, OVX1 reacted to a majority of ovarian cancer tissues (17 of 20) and did not bind to normal ovarian tissues. Preliminary results indicate that OVX1 and OVX2 antibodies are directed to a high molecular weight antigen. These antibodies could be used in the preparation of cytotoxic conjugates.
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PMID:Development of two new monoclonal antibodies reactive to a surface antigen present on human ovarian epithelial cancer cells. 185 17

A human monoclonal antibody designated AC6C3 was developed by fusing regional lymph node lymphocytes from a patient with epithelial ovarian carcinoma with cells of the hybrid myeloma SPAZ 4. This monoclonal antibody recognized a determinant expressed on the cell surface of ovarian tumor cell lines. The AC6C3 hybridoma has been maintained for more than 24 months by repeated cloning and secretes IgM at concentrations of 2-8 micrograms/10(6) cells/24h. The AC6C3 monoclonal antibody reacted with a cell surface component of ovarian tumor cell lines, as determined by cell surface immunofluorescence staining using the fluorescent activated cell sorter (FACS). In contrast, nylon wool nonadherent peripheral blood lymphocytes or red blood cells from normal donors were negative (less than 5% of the cells were stained). Immunoperoxidase staining with the AC6C3 monoclonal antibody of nonpermeabilized cryostat sections of freshly obtained or cryopreserved ovarian carcinoma specimens and human ovarian tumor xenografts demonstrated strong reactivity of these specimens. Most normal tissues including brain, liver, heart, kidney and peritoneum demonstrated negative or weak reactions with AC6C3. Other carcinomas including breast, colon and some malignancies of neuroectodermal origin were strongly reactive with AC6C3. AC6C3 mediated complement-dependent cytotoxicity and identified a 32 Kd band in Western blotting and immunoprecipitation experiments conducted on surface labelled SKOV3 cells. The association constant for AC6C3 was determined at 2.3 x 10(10) M-1.
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PMID:Development of a cell surface reacting human monoclonal antibody recognizing ovarian and certain other malignancies. 203 33

Lymphocytes from regional lymph nodes of patients with ovarian carcinoma were immortalized by fusing them with a nonsecreting cell line of murine myeloma (Sp2/0-Ag14). By early cloning and recloning a hybrid cell line, named HMD4, was established. It has secreted human IgG for more than 15 months stably. Chromosome analysis corresponded with the characterization of human-mouse hybridoma. Large quantities of ascites were obtained after hybrid cells injection into the primed nude mice. Human IgG of light chain was detected and purified from the ascites. Twenty-six of 43 (60.5%) epithelial ovarian cancers were positively stained with HMD4 by ABC immunoperoxidase methods while nonepithelial ovarian cancers and almost all benign tumors and normal tissues were negative. The molecular weight of the antigen recognized by HMD4 was 55KDa determined by Western blotting. 131I labeled HMD4 was administered intraperitoneally to nude mice bearing human ovarian epithelial adenocarcinoma; 131I labeled normal human IgG and normal murine IgG were used as controls. Measurements of T/NT and T/B ratios of 131I-HMD4 were done. Radioimaging showed HMD4 clearly localized on tumor regions at 48 and 72 hours and the biodistribution and metabolism of the labeled HMD4 corresponded with the images. The above results indicate that HMD4 was specific to ovarian carcinoma, a hopeful clue for clinical applications.
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PMID:Generation and characterization of human monoclonal antibody HMD4 against ovarian carcinoma and the study of radioimmunoimaging in nude mice. 210 52

Lymphocytes from regional lymph nodes of patients with ovarian carcinoma were immortalized by fusing them with a nonsecreting cell line of murine myeloma (Sp2/0-Ag14). The fusion rate was 0-87.5%. By early cloning and recloning, a hybrid cell line, named HMD4, was established. It has stably secreted human IgG for more than 15 months. Chromosome analysis showed the characteristics of human-mouse hybridoma. The cells of HMD4 were injected into the abdominal cavities of nude mice and 2-3 weeks later large quantities of ascites were obtained. Human IgG of lambda light chain was detected and purified from the ascites. The specificity of HMD4 human McAb was tested by ABC or PAP immunoperoxidase stainings of paraffin-embedded tissue sections, cryostat sections, cell smears of various tissues and different cancer cell lines. 60.5% (26/43) of epithelial ovarian cancers was positive, while nonepithelial ovarian cancers, most cancers from other organs and almost all nonmalignant and normal tissues were negative. The molecular weight of the antigen recognized by HMD4 was 55 KDa determined by Western blotting. The problems of maintaining the IgG secreting function of human-mouse hybridoma and its screening were also discussed.
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PMID:A human monoclonal antibody HMD4 against ovarian carcinoma associated antigen. 211 60

Splenic lymphocytes of BALB/c mice immunized with human ovarian carcinoma cells were fused with the mouse myeloma cell line, NS-1 in the presence of polyethylene glycol, MW 1500. The hybrid cultures were screened by a viable cell-binding radioimmunoassay (RIA) for the production of relevant antibodies. Hybrids that produced antibodies that bound to the surface of the immunizing cell line and other ovarian carcinoma cell lines, but not to human fibroblast cell lines or erythrocytes and leucocytes isolated from peripheral blood, were cloned twice by the limiting dilution method. Two such clones designated 8C3, of the IgG2a isotype, and 10D6, of the IgG1 isotype, were checked for specificity by a solid-phase membrane RIA. The monoclonal antibodies (MoAbs) recognized an antigenic determinant present on different human adenocarcinomas such as ovary, breast, endometrium, colon, and stomach. The normal counterpart tissues of these histiotypes showed negligible binding to the MoAbs. The relative specificity of these MoAbs encourage further studies towards their characterization and evaluation as possible diagnostic and therapeutic agents in human cancer.
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PMID:Production of murine monoclonal antibodies against cell-surface antigens of human ovarian carcinoma. 241 57

In the past decade, interferon, the first of a new class of biologic response modifiers, has undergone extensive Phase I and II clinical evaluation in a broad spectrum of cancers, including hematologic malignancies, lymphomas, and solid tumors. Interferon has been found to have important clinical activity in hairy-cell leukemia, low-grade non-Hodgkin's lymphoma, cutaneous T cell lymphoma, chronic myelogenous leukemia, previously untreated multiple myeloma, acquired immunodeficiency syndrome-related Kaposi's sarcoma, malignant carcinoid tumors, intravesically treated superficial bladder cancer, intraperitoneally treated ovarian carcinoma, renal cell carcinoma, and malignant melanoma. Recombinant DNA technology has produced molecules such as the interferons, which are antigenic and can induce antibody formation as part of a generalized immune response. The frequency of antibody occurrence, the magnitude of the antibody response, and the type of antibody induced by the interferons is thought to be related to several factors. These include the specific type of neoplasm for which interferon was administered; the specie of interferon administered; the dose, route, schedule, and duration of interferon administered; and the assay method and sampling time used to determine the antibody titer. Opinions and clinical observations about how these antibodies affect the clinical course of a disease vary among investigators. Some studies have demonstrated that antibody formation is associated with an abrogation of the clinical response, while others have not found any effects on the clinical course of a disease due to antibody presence.
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PMID:Biotherapy with interferon--1988. 246 49

The interferons are the first of a new class of biologic response modifiers that include, among others, the interleukins, colony-stimulating factors, erythropoietin, additional growth factors, and monoclonal antibodies. Interferons have exhibited important clinical activity in hematologic malignancies, lymphomas, and solid tumors. Specific diseases responding to interferons include hairy-cell leukemia (HCL), chronic myelogenous leukemia (CML), low-grade non-Hodgkin's lymphoma, cutaneous T-cell lymphoma, multiple myeloma, superficial bladder carcinoma, malignant carcinoid, acquired immunodeficiency syndrome (AIDS)-related Kaposi's sarcoma, ovarian carcinoma, renal cell carcinoma, and malignant melanoma. The potentially antigenic nature of the recombinant interferons can result in the formation of antibodies. These antibodies have been associated with the abrogation of some of the clinical responsiveness of some patients treated with interferons. It is hoped that the controversy existing over the role of antibody formation in treatment efficacy can be resolved by prospective trials using standardized methodology in such areas as assay type, sampling time, route of drug administration, treatment schedule, cumulative dose, and duration of treatment.
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PMID:Biotherapy in clinical practice. 247 4


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