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)

A human-mouse hybridoma has been produced by fusion of Hashimoto thyroid lymphocytes with the mouse myeloma line X63-Ag8.653. The cloned hybridoma secreted 2.5 micrograms per 10(6) cells per day of an IgG kappa thyroid peroxidase (TPO) autoantibody (2G4) with high affinity (2.5 x 10(9) molar-1) and specificity for human TPO. 2G4 did not react with lactoperoxidase, horseradish peroxidase or human myeloperoxidase or with porcine TPO or with human thyroglobulin. Plastic tubes coated with 2G4 bound about 50% of 125I-labelled human TPO added and the binding was inhibited by IgGs prepared from 18/18 TPO autoantibody-positive sera. This indicated that all 18 sera contained autoantibodies which recognised the same (or closely related) epitope as 2G4. Plastic tubes coated with IgGs from different TPO autoantibody-positive patient sera also bound 125I-labelled TPO but inhibition by 2G4 in this system was not complete. This suggested that the sera contained at least 2 types of TPO autoantibodies, with only one type of autoantibody reactive with the same epitope as 2G4.
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PMID:Production and characterisation of a human monoclonal thyroid peroxidase autoantibody. 128 77

Twenty-seven hybridomas secreting monoclonal antibodies (mAb) directed against new antigenic clusters on human thyroglobulin (hTg) were obtained by fusion of the mouse myeloma P3-X63-Ag8 653 with spleen cells from BALB/c mice immunized with a mixture of hTg and six anti-hTg mAb with the aim of masking the corresponding antigenic clusters previously reported. Fourteen mAb were selected, produced in ascitic fluid and characterized. All these mAb were of the IgG1 subclass. Five new antigenic clusters on the hTg molecule were defined by the 14 mAb, extending the initial antigenic map of hTg to 11 clusters. These mAb were used in an attempt to probe the interaction between hTg and the autoantibodies from patients with Hashimoto's thyroiditis who do not recognize antigenic cluster II, a cluster whose recognition by anti-hTg autoantibodies is significantly associated with thyroid disorders.
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PMID:New antigenic clusters on human thyroglobulin defined by an expanded panel of monoclonal antibodies. 137 83

We studied humoral immunity to human thyroglobulin (hTg) during the course of multiple myeloma (MM). In this report, we describe the anti-hTg antibody activity in the sera of patients with MM. Among 63 sera tested, 28 (44%) had IgG anti-hTg autoantibodies (aAb), 16 (25%) exhibited IgM aAb, and six (9%) had IgA anti-hTg aAb. For the majority of sera the anti-hTg autoantibody activity was associated with more than one immunoglobulin class. IgG anti-hTg antibodies were observed in 9/11 patients with IgA MM and in 19/40 patients with IgG MM. The IgM anti-hTG antibody activity was found in the sera of 11 patients with IgG MM. These results show that the anti-hTg activity in these patients is associated with residual polyclonal immunoglobulins. However, in the serum of one patient presenting a double monoclonal gammopathy (IgG and IgA lambda MM), the anti-hTg activity was carried by both the IgG lambda and the IgA lambda molecules, suggesting that in this case the activity was due to the monoclonal immunoglobulin itself. We also studied the epitopic specificity pattern of all these anti-hTg aAb. Only three sera recognized one antigenic region on hTg, suggesting that the majority of the anti-hTg aAb in MM patients were directed against antigenic regions other than those recognized by our panel of murine mAb. In conclusion, our results demonstrated that humoral immunity to hTg is maintained in MM patients. These data contrast with the well-documented suppression of immunity to foreign, especially bacterial, antigens described in MM.
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PMID:Conserved natural humoral immunity to thyroglobulin in patients with multiple myeloma. 138 9

Four hybridomas secreting human thyroglobulin (Tg) autoantibodies of different IgG subclasses and light chain types (IgG1 lambda, IgG1 kappa, IgG2 lambda and IgG2 kappa) were obtained by direct fusion of Hashimoto thyroid lymphocytes with the mouse myeloma X63-Ag.653. The autoantibodies were specific for human Tg and the functional affinities were high (only 2.6-3.9 log10 pM Tg required to give 50% inhibition of binding in ELISA). Using thyroid lymphocytes, 4 lines secreting Tg autoantibodies were obtained from 11 fusions compared with 1 line from 32 fusions of Epstein Barr virus infected blood lymphocytes, which emphasises the importance of using lymphocytes derived from a tissue known to be enriched in thyroid autoantibody secreting precursor B cells. These 4 human Tg autoantibodies, as well as an IgG2 lambda Tg antibody previously derived from Hashimoto blood B cells and an IgG4 kappa monoclonal Tg antibody present in a Hashimoto serum, were used in attempts to probe the interaction between human Tg autoantibodies and the Tg molecule (2 polypeptides of 330 KD). The binding to 125-I Tg by 3/7 murine monoclonal antibodies was inhibited (36-78%) by an IgG2 lambda and an IgG4 kappa human monoclonal Tg autoantibody, indicating an overlap between the epitopes recognised by these 3 murine monoclonal Tg antibodies and 2 monoclonal human Tg autoantibodies. None of the human Tg autoantibodies (or the murine monoclonal Tg antibodies) bound to Tg denatured by reduction and alkylation. Although the number of observations is limited, our study demonstrates that high affinity human monoclonal Tg autoantibodies, like polyclonal serum Tg autoantibodies, recognise non-linear B cell epitopes on conformationally intact human Tg.
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PMID:Human monoclonal thyroglobulin autoantibodies of high affinity. I. Production, characterisation and interaction with murine monoclonal thyroglobulin antibodies. 172 2

N-Acetyl-aspartate is found in high concentrations in all areas of the brain, but is undetectable in non-neuronal tissue. In order to characterize the cellular localization of N-acetyl-aspartate in brain, highly specific monoclonal antibodies against N-acetyl-aspartate were produced by fusing spleen lymphocytes obtained from mice immunized with N-acetyl-aspartate conjugated to thyroglobulin by carbodiimide with P3/x63-Ag8.653 mouse myeloma cells. Clones were selected which secrete IgG2a(k) antibodies highly specific for conjugated N-acetyl-aspartate. Only 3-6% cross-reactivity with conjugated N-acetyl-aspartate-glutamate was observed at high antibody concentrations, whereas no cross-reactivity (less than 1%) was observed with conjugated N-acetyl-glutamate or aspartate. Preincubation of the antibodies with 0.5 mg/ml conjugated N-acetyl-aspartate blocked immunoreactivity more than 90%, while preincubation with conjugated N-acetyl-aspartate-glutamate and free N-acetyl-aspartate had no effect. Immunocytochemical staining has shown that N-acetyl-aspartate-like immunoreactivity is localized in neurons, which are widely distributed throughout the brain. The immunoreactive neurons exhibited intense staining of the perikarya, proximal dendrites and axons. No consistent pattern of distribution of immunoreactivity was observed with regard to primary neurotransmitter characteristics of stained neurons although neurons with long projections or extensive arbors, such as pyramidal cells in cortex, locus coeruleus, motor neurons and Purkinje cells, stained much more intensively than local circuit neurons.
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PMID:Immunocytochemical localization of N-acetyl-aspartate with monoclonal antibodies. 175 68

Luteinizing hormone-releasing hormone (LHRH) was conjugated to bovine thyroglobulin and used to immunize a BALB/c mouse. Spleen lymphocytes were subsequently fused to SP2/0 myeloma cells and two of the resulting hybridoma clones were found to produce high titer antibodies to LHRH (HU4H and HU11B); both belonged to the IgG1 subclass. Characterization of the monoclonal antibodies revealed that HU4H and HU11B have conformational and sequential specificity to LHRH, respectively, and that neither one shows significant immunoactivity with pro-LHRH. The value of these antibodies in immunocytochemical applications is demonstrated by their ability to cause intense specific staining of LHRH neuronal cell bodies and fibers in brain sections from several mammalian species.
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PMID:Monoclonal antibodies to luteinizing hormone-releasing hormone: production, characterization, and immunocytochemical application. 204 38

Differentiated thyroid carcinoma synthetize and secrete thyroglobulin. During its biosynthesis this antigen becomes expressed in the microvilli-bearing surface of carcinoma cells. Attempts have been carried out to target, with specific antithyroglobulin antibodies, the membrane bound absorption thyroglobulin in cancer cells for in vivo diagnosis and therapy. In the serum of patients with autoimmune thyroid diseases a high concentration of antithyroglobulin antibodies is frequently found (1-3 mg/ml). Their purification by immunoabsorption and dissociation is hampered by a low recovery and partial denaturation. It has been recently reported that about 1% of sera from Hashimoto's thyroiditis bear in their electrophoretogram a "myeloma-like protein". In the present report we describe in the serum of a Hashimoto patient a myeloma-like IgG which is an antithyroglobulin autoantibody with restricted functional and structural properties. The serum concentration of this myeloma-like IgG was found to be 40 mg/ml with a capacity of 6.5 nM of human thyroglobulin/mg IgG. The light chain composition was determined to be mostly of the lambda type. The clonal analysis of this myeloma IgG carried out by isoelectrofocusing, immunoblotting and autoradiography resulted in the recognition of several distinct clones, two of which were prominent at pH 8.7 and 7.8. By this technique and in view of the high serum concentration of this myeloma-like IgG, single clones of antithyroglobulin autoantibody can be easily obtained in high yields and without denaturation from human serum. This reagent could offer an ideal immunovector to target membrane-bound thyroglobulin of cancer cells.
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PMID:Monoclonal autoantibody to thyroglobulin as a possible vector in immunodiagnosis and immunotherapy of differentiated thyroid cancer. 209 Jul 95

A human monoclonal autoantibody to thyroglobulin (Tg) of subclass IgG2 was developed by fusing a mouse myeloma with Tg antibody secreting Epstein-Barr virus (EBV)-infected B lymphocytes from a Hashimoto patient. Subsequent studies showed that EBV-infected B lymphocytes from this patient synthesized IgG2 Tg antibody while unfractionated blood lymphocytes cultured with pokeweed mitogen secreted IgG1, IgG2, and IgG4 Tg antibodies in amounts proportional to those present in the patient's serum. To investigate this discrepancy further, we cultured EBV-infected lymphocytes from blood, lymph nodes, and thyroid tissue in medium alone and with increasing concentrations of PHA. In individuals with thyroid autoantibodies predominantly of subclass IgG1, PHA enhanced the levels of total Tg antibody synthesis without affecting the IgG subclass distribution. However, in patients with serum autoantibodies of subclasses IgG1, 2, and 4, the increased levels of total Tg antibody synthesis were associated with increased amounts of thyroid autoantibodies of all of these subclasses; in some instances IgG1 and IgG4 autoantibodies were only synthesized in cultures containing PHA. These observations suggest that addition of the T-cell mitogen PHA to cultures of EBV-infected lymphocytes may ensure activation of B-cell precursors committed to synthesizing the IgG subclasses characteristic of serum antibody in the lymphocyte donor. Since Tg antibodies of subclasses IgG2 and IgG4 recognize different epitopes on Tg, the ability to produce human monoclonal antibodies of different IgG subclasses may simultaneously ensure the development of antibodies to different epitopes on the same antigen.
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PMID:Potential role of PHA in producing human monoclonal thyroid autoantibodies of different subclasses. 210 61

Using computer-aided techniques for predicting molecular structure, we constructed an atomic model of the variable domain of a murine anti-thyroglobulin antibody whose immunodominant idiotypic determinant (Id62) was mapped by site-directed mutagenesis and immunochemical analysis. We previously showed that under experimental conditions this idiotype activates anti-idiotypic B cells and T cells, and modulates the response to thyroglobulin in mice. Because idiotype interactions are considered of physiological importance for immune regulation, we studied this idiotype as a model to understand the relationship between function and structure. To determine the contribution of heavy- and light-chain variable domains to the idiotype structure, we constructed chimeric expression vectors and introduced them into the (non-secreting) P3X63Ag8.653 myeloma cell line. Mutants of the heavy-chain variable domain were obtained by site-directed mutagenesis and transfected into the murine (lambda 1) light-chain producer J558L cell line. The expressed proteins were purified from culture supernatants of transfected cells and characterized. We provide evidence that the third hypervariable loop (D region) of the heavy-chain variable domain is the structural correlate of the idiotypic determinant of this autoantibody and is independent from the nature of the associated light chain. Substitution of residues of the first and second complementarity-determining regions do not affect idiotype expression. The results described here are discussed in relation to our understanding, at a molecular level, of the interaction of idiotopes with B- and T-cell compartments.
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PMID:Structural definition by antibody engineering of an idiotypic determinant. 211 64

N-acetyl-aspartyl-glutamate (NAAG) is a putative neuromodulator/neurotransmitter in the mammalian nervous system. Immunohistochemical studies with polyclonal NAAG antisera have revealed immunoreactive neurons and processes in several brain regions. However, these antisera crossreact to some degree with N-acetyl-aspartate (NAA), which is present in mM concentrations in brain, prompting the development of monoclonal antibodies (MAb) more specific for NAAG. By fusing spleen lymphocytes obtained from BALB/c mice pre-immunized with NAAG covalently linked to bovine serum albumin by carbodiimide with SP2/0-Ag 14 mouse myeloma cells, we produced three IgG2a (kappa) MAb which specifically reacted with NAAG. These MAb exhibited negligible crossreactivity with NAA or with structurally similar peptides, as shown by solid-phase radioimmunoassay. Antibody activity was absorbed out selectively by both NAAG-thyroglobulin conjugate and free NAAG. These MAb stained many nuclei of the medulla-pons and midbrain, mitral cells in the olfactory bulb, pyramidal neurons in sensorimotor cortex, locus ceruleus, and several cholinergic cranial nuclei. The staining pattern strongly correlated with NAAG levels determined by HPLC. Monoclonal antibodies significantly enhanced sensitivity of staining, allowing visualization of dorsal horn neurons in spinal cord, which were not readily detectable with polyclonal antiserum. Availability of these MAb now facilitates further clarification of the role of NAAG in the brain.
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PMID:Production and characterization of monoclonal antibodies to N-acetyl-aspartyl-glutamate. 231 20


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