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

Interferons (IFN) are potent antiviral, cytostatic-cytotoxic and immunomodulatory agents. Although gene technology has made available an unlimited supply of all different kinds and types of IFN, their basic modes of action have not been clarified up to now. The therapeutic effects proven differ gradually between the individual disease entities. They comprise prophylaxis, prevention of recurrences and direct therapeutic effect, either of reducing the actual disease symptoms, or of inducing a complete recovery. For the following viral diseases a positive therapeutic effect has been shown: infections by herpes-viruses (herpes simplex keratitis , herpes zoster, herpes simplex), cytomegalovirus infections, chronic-hepatitis B virus infection, acute respiratory virus infections by rhino-, corona- and influenza viruses. Especially for the group of virus-associated tumors and papillomas, IFN is considered to be therapeutically effective. IFN has been accepted to be the first line treatment for laryngeal papillomatosis. In condylomata acuminata too, IFN is a potent therapeutic agent. Moreover, IFN represents the most effective therapeutic modality for Kaposi's sarcoma in patient with AIDS. Hairy cell leukemia, malignant lymphoma, multiple myeloma, melanoma and hypernephroma are the malignancies, for which a therapeutic effect of IFN could be proven. Furthermore, IFN is considered to be the therapy of first choice for hairy cell leukemias. Although there are some signs, that IFN could be a potent agent for adjuvant therapy, this question can not be answered - not even on principle - because of lacking sufficient data so far. Up to date, the therapeutic efficacy of IFN seems to be established only for hairy cell leukemia, laryngeal papillomatosis, Kaposi's sarcoma in patients with AIDS and partly for condylomata acuminata. For all other indications, first of all, sufficient phase-II-study data will have to be evaluated, before prospectively controlled studies, comparing the IFN treatment results with placebo and standard therapy results, can be initiated for the individual disease entities. Then, it will be possible to assess the therapeutic efficacy of IFN. Already now, IFN represent a valuable enrichment of the therapeutic modalities for malignancies and viral diseases.
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PMID:[Current status of interferon therapy]. 242 97

Although IFN proteins were recognized first for their potent antiviral properties, it has now been established that they may profoundly affect other vital cellular functions. The IFNs are divided into three main classes, alpha, beta, and gamma, and are defined by their differences in amino acid sequences, physicochemical properties, and induction by different agents from different cell types. The inducing agents include viruses, bacteria, bacterial products, polymers, low molecular weight compounds, and antigens or mitogens. Studies on the mechanisms of action of IFNs have mainly been focused on their antiviral actions. However, many of the facts revealed by these studies are equally relevant for understanding other actions of IFN. IFNs are extremely potent, they interact with specific receptors, and they induce the expression of specific genes, the products of which mediate their various actions. There is almost a complete lack of knowledge of what happens between the interaction of IFN with its receptor and induction of new RNA synthesis. However, we are beginning to understand how some of the IFN-inducible enzymes impair viral replication. The discovery of the dsRNA-dependent enzymes has implications beyond the IFN system. It is quite possible that they are used for other physiologic regulatory systems as well. The identities and functions of many other IFN-inducible proteins remain to be elucidated. Principally, IFNs alpha and beta are cytokines in that they may be produced by the cellular components of the immune system and have immunoregulatory effects on the cells of the immune system. These effects include enhancement of surface structures such as histocompatibility antigens, pleiotropic hormone-like effects, and stimulation or inhibition of the activities of a number of different effector cells such as B cells, T cells, macrophages, and natural killing cells. IFN levels may be below detection and yet mediate important biologic functions. Perhaps the most interesting IFN subtype regarding immunoregulation is IFN gamma, which is a product of T lymphocytes. Few drugs have stimulated as much research interest or clinical promise as the IFNs. Clinical trials in patients have shown most promise in coryza, herpes virus infections, papilloma virus tumors, hairy cell leukemia, multiple myeloma, and renal cell carcinoma. IFN gamma employed alone and in combination with IFN alpha may dramatically increase IFN's activity. IFN treatment combined with chemotherapy also may give enhanced antitumor activity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Interferon review. 243 74

Hybridomas producing human monoclonal antibodies (mAb) against varicella-zoster virus (VZV) were generated by fusing human splenic lymphocytes with mouse myeloma cells. Before cell fusion, lymphocytes were stimulated in vitro with viral antigens and pokeweed mitogen. This combination synergistically increased the generation of VZV-specific hybridomas. Five established hybridomas have been stably producing mAb for at least 9 months. These mAb, designated V1, V2, V6, V8 and V9, were of the IgG1, lambda isotype. They bound to all 6 tested VZV strains but not to other herpes viruses, with the exception that V1 bound to herpes simplex virus (HSV) as well as VZV. Immunoprecipitation analysis showed that V1, V6 and V9 recognized glycoprotein gpII, whereas V2 and V8 recognized gpI. In addition, V1 reacted with the gB glycoprotein of HSV. All these mAb neutralized viral infectivity. The neutralizations by V2 and V8 were more effective and more complement dependent than those by V1, V6 and V9. Immunofluorescence tests revealed that all these mAb bound to the surface membrane of VZV-infected cells. These results suggest that cell fusion between in vitro stimulated lymphocytes and mouse myeloma cells is a reliable method for the generation of hybridomas capable of stable production of human mAb. The human mAb thus developed may provide a new means of passive immunization of humans against VZV infection.
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PMID:Hybridomas producing human monoclonal antibodies against varicella-zoster virus. 303 47

Human monoclonal antibodies directed against human cytomegalovirus were generated by fusion of in vitro stimulated human spleen lymphocytes from an HCMV-seropositive 53-year-old organ donor with the mouse myeloma cell line Ag8.653. Fourteen human/mouse hybridomas producing anti-cytomegalovirus IgG were screened by an ELISA technique and four selected clones have been established since March 1988, generating about 5-40 micrograms/24 h IgG per ml culture supernatant. Reference and local cytomegalovirus strains were stained by the antibodies without showing cross-reactivity to other herpes viruses. Three monoclonal antibodies, A4B4 (IgG11), A6B3 (IgG1k) and A6A2 (IgG1k), immunoprecipitated a 68 kDa early viral protein which appears during the infectious cycle, first in the nucleus (18-24 h) and then also in the cytoplasm (24-96 h) of infected cells. Inhibition of DNA replication restricted the detection of the 68 kDa viral protein to the nucleus of infected cells. Staining of unfixed infected cells showed that two of the antibodies bound at the surface of a few cells. The fourth monoclonal antibody A3C5 (IgG11) immunoprecipitated a 34/38 kDa late viral protein which appears in the nucleus (48-72 h) of infected cells. These antibodies enable us to study the human host response to human cytomegalovirus and to elucidate the functions of human antibodies especially in their interaction with the T-cell response.
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PMID:Human monoclonal antibodies recognize early and late viral proteins of human cytomegalovirus. 785 86

Multiple myeloma results from an interplay between the monoclonal malignant plasma cells and supporting nonmalignant cells in the bone marrow. Recent studies suggest that the final transforming event in this B cell disorder occurs at a late stage of B cell differentiation based on the characteristics of the immunoglobulin genes expressed by the malignant clone as well as surface markers present on the tumor cells. Recently, an increasing pathogenic role in this malignancy by the nonmalignant cells in the bone marrow has been suggested by several studies. Specific infection of these supporting cells by the recently identified Kaposi's sarcoma-associated herpes virus (KSHV) suggests a novel mechanism by which this nonmalignant population may lead to the development of this B cell malignancy and support its growth.
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PMID:Multiple myeloma: the cells of origin--a two-way street. 951 71

A great amount of scientific information, accumulated over recent years on the biology of Multiple Myeloma (MM), has fuelled speculation about the origin of malignant plasma cells, about a purported critical role played by the bone marrow stroma, and further still, on cytokine interactions and in particular that of IL-6 and its relationship with the immune system. Among the growth factors secreted by stroma cells, IL-6 is a potent stimulator of myeloma cells in vitro but does not induce a malignant phenotype in normal plasma cells. Many efforts have been produced to identify the stem cell in MM and probably memory B lymphocytes are the best candidates. The demonstration of a Graft vs Myeloma effect in the allogeneic setting strongly supports the immunotherapy in MM. Recent data also suggest that a virus (Kaposi-associated herpes virus, HHV-8) may be significantly associated with the development of MM. In parallel, progress has been achieved in the treatment of this incurable disease with well defined prognostic factors, more efficient supportive care and its corollary, improved quality of life and dose-intensified chemo-radiotherapy followed by autologous hematopoietic stem cell support. Improving the quality of grafts with the selection of CD34 positive cells is another approach aimed at reducing plasma cell contamination without impairing haematological recovery. An EBMT randomized study assessing the role of CD34 selection has been initiated by our group Increasingly efficient first-line therapy, better quality autografts and improved post-remission treatment with, for example, anti-idiopathic vaccination are the most promising future directions.
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PMID:Recent progress in the biology of multiple myeloma and future directions in the treatment. 961 47

The VI International Workshop on Multiple Myeloma was organised by Professor Kenneth C Anderson, Dana Farber Cancer Institute, and held on June 14-18, 1997, in Boston, MA, USA. More than 500 participants from all over the world joined this workshop. Several subjects were introduced and one of the most exciting items of news was the identification of Kaposi's sarcoma-associated herpes virus in the bone marrow stromal cells of patients with MM. The aim of this overview is to give a glimpse of the subjects discussed and the statements made.
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PMID:Multiple myeloma: VI International Workshop, June 14-18, 1997, Boston, Massachusetts, USA. 964 23

In recent studies, the sequence of Kaposi's sarcoma-associated herpes virus (KSHV) or human herpes virus-8 (HHV-8) was detected in dendritic cells (DC) of patients with multiple myeloma (MM). A concern was raised whether there is an causal association between the viral infection and development of these tumors. In the present study, we have examined DC generated from blood adherent cells from 8 Swedish MM patients at different clinical stages and 2 patients with monoclonal gammopathy of undetermined significance. In addition, 6 myeloma cell lines and bone marrow cells from 2 MM patients were also studied. By polymerase chain reaction (PCR), including nested PCR, no virus DNA was demonstrable in the patients' DC or in myeloma cell lines or fresh bone marrow cells. Moreover, no antibody against KSHV was found in the serum of these 10 patients. Thus, our results indicate that blood-derived DC of MM patients in Sweden usually are not infected with KSHV/HHV-8. This study also suggests that KSHV/HHV-8 is not regularly associated with MM and consequently does not play a primary role in the pathogenesis of these tumors.
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PMID:Blood dendritic cells from myeloma patients are not infected with Kaposi's sarcoma-associated herpesvirus (KSHV/HHV-8). 965 37

Kaposi's sarcoma in its sporadic or HIV-related form is due to a gamma herpesvirus, the human herpes virus 8 (HHV8). No data have been published on the potential role of the HHV8 in Kaposi's sarcoma occurring in multiple myeloma patients. A case is reported of a patient in whom four serum samples taken between the diagnosis of multiple myeloma and the occurrence of a Kaposi's sarcoma one year later tested positive for antibody to the HHV8. Similar findings have been reported in patients with other types of Kaposi's sarcoma. PCR studies for HHV8 DNA were positive on a Kaposi's sarcoma biopsy but negative on a bone biopsy, militating against a role for the HHV8 in the genesis of multiple myeloma.
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PMID:HHV8 status in Kaposi's sarcoma associated with multiple myeloma. 992 48

Following the demonstration in 1994, that Kaposi's sarcoma (KS) was associated with a novel virus (KSHV or HHV-8) belonging to the lymphotropic herpes family, this virus was also found in certain lymphoid neoplasias of immunodeficient (HIV+) and immune competent hosts. The association of HHV-8/KSHV infection is now well established with primary effusion lymphoma (PEL) or body cavity based lymphoma (BCBL) and multicentric Castleman's disease (MCD) of the plasma cell type. A possible pathogenic role of HHV-8/KSHV in other lymphoid tumours including primary central nervous system lymphoma (PCNSL) and multiple myeloma (MM) as well as some atypical lymphoproliferations and sarcoidosis has also been suggested, but this is at present a controversial matter, or not confirmed. Several HHV-8/KSHV genes, including potential oncogenes, genes homologous to various cellular genes and growth factors have been incriminated in the pathogenesis of KS and PEL/BCBL, but a common pathogenic mechanism for the clearly diverse proliferations represented by PEL, MCD and KS is at present not evident.
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PMID:Lymphoid disorders associated with HHV-8/KSHV infection: facts and contentions. 1038 36


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