UMLS:C0029463 - FACTA Search

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Query: UMLS:C0029463 (osteosarcoma)
16,637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Monoclonal antibody TP-1 has been shown to bind selectively to human and canine osteosarcoma cells in vitro using immunohistochemical stains. This report describes the in vivo administration of radioiodinated F(ab')2 fragments of monoclonal antibody TP-1 in dogs with primary and/or metastatic spontaneous osteosarcoma. Two dogs were injected with 131labeled F(ab')2 TP-1 and two dogs were injected with 123labeled antibody fragments. Immunoscintigraphy successfully demonstrated the radiolabeled antibody fragments in 6/6 known primary or metastatic lesions and in addition detected 4 metastatic lesions not diagnosed by conventional radiographs. Concurrent imaging of 99mTc labeled autologous erythrocytes in two dogs confirmed that the accumulation of radiolabeled antibody fragments was independent of the blood pool. There was no immunoscintigraphic evidence of localization of radioiodine to normal organs or tissues other than those expected to accumulate free iodine. The present study has demonstrated the potential of monoclonal antibody TP-1 F(ab')2 fragments for early detection of metastatic spread of spontaneous osteosarcoma.
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PMID:Immunoscintigraphic detection of primary and metastatic spontaneous canine osteosarcoma with F(ab')2 fragments of osteosarcoma-associated monoclonal antibody TP-1. 129 62

The characteristics of a new osteosarcoma-associated cell surface antigen were studied by means of two murine monoclonal antibodies, TP-1 and TP-3, which were found to bind to two different epitopes on the same antigen, a monomeric polypeptide with a molecular weight of approximately 80,000. Immunohistochemical studies showed that the antigen was present in all osteogenic sarcomas tested, in most cases of malignant fibrous histiocytoma, in two malignant hemangiopericytomas and in a few synovial sarcomas, but not in other main groups of sarcomas and nonsarcomatous malignancies. In normal tissues it was detected only in clusters of cells in the adrenal medulla and in proximal kidney tubules. Also endothelial cells in proliferating capillaries in placenta and in most tumors were stained. The antigen was absent in resting but present in actively proliferating osteoblastic cells. The epitopes were resistant to proteolytic and sugar-cleaving enzymes but sensitive to high temperatures and could not be detected in paraffin-embedded specimens. The tissue distribution and properties of the antigen show that it is different from the sarcoma-associated antigens previously studied. In contrast to previous findings with three other anti-sarcoma monoclonal antibodies, no correlation was found between serum alkaline phosphatase activity and the amount of TP-binding substances in the same sera. Nevertheless, an apparently complex association between alkaline phosphatase and the TP-binding antigen seems to exist. Thus, the Mr 80,000 antigen extracted from an osteosarcoma cell line showed enzyme activity, whereas TP-binding molecules precipitated from patient sera contained alkaline phosphatase activity only in a few of the cases studied. Altogether our data suggest that the antigen defined by the TP antibodies may be a marker of osteoblastic differentiation. The pattern of antigen expression in malignant tumors is unique, inasmuch as the antigen is found selectively in sarcomas and in all 31 osteosarcomas tested.
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PMID:Expression and characteristics of a novel human osteosarcoma-associated cell surface antigen. 245 39

Monoclonal antibodies TP-1 and TP-3, which detect an antigen expressed on the cells of human osteosarcoma, were tested by immunohistochemical staining for binding to normal and neoplastic canine tissues. In dogs, as in man, TP antibodies stained the tumor cells of all (13/13) osteosarcomas tested. Limited staining was found in a wide range of normal canine tissues. A proportion of cells in some canine carcinomas also stained, which was unexpected on the basis of the unique mesenchymal specificity of these antibodies in human tissues. TP monoclonal antibodies detect epitopes common to osteosarcomas in man and dog and are potentially valuable for the in vitro and in vivo comparative study of this tumor.
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PMID:Immunohistochemical detection of osteosarcoma-associated antigen in canine osteosarcoma. 268

Two mouse monoclonal antibodies (MoAbs), TP-1 and TP-3, previously shown in immunohistochemical studies to react with osteosarcomas, were labelled with 125I or 131I and evaluated for their ability to localise to human osteogenic sarcoma xenografts after intravenous injection. The radiolabelled TP-1 and TP-3 MoAbs had immunoreactive fractions of 70% and 67%, respectively, and bound to target cells with binding constants of 8.5 X 10(8) M-1 and 4.0 X 10(9) M-1, respectively. After injection of labelled TP-3 IgG, approximately 16% of the dose X g-1 tissue was found in the tumour after 24 hours. Maximum tumour/blood radioactivity ratios of 6-7 were achieved 3-4 days after antibody injection, while the ratios for the normal tissues were less than 1. The tumours could be clearly visualised by whole-body gamma scintigraphy without the need for subtraction techniques. The TP-1 IgG accumulated to a large extent also in the spleen. Hence, with this antibody the tumour was less well delineated from the adjacent normal tissues. However, the F(ab')2 fragments, derived from the TP-1 IgG, gave tumour/blood ratios up to approximately 40 after 3-4 days and yielded sharp gamma scintigrams of the tumour. Specificity of the antibody localisation was indicated by the lack of accumulation in a contralateral melanoma xenograft and the failure of 2 isotype-matched irrelevant MoAbs to localise to the sarcomas. With the F(ab')2 fragments satisfactory images could be obtained already after 16 hours. The results suggest that this preparation may be useful in clinical radioimmunodetection of osteogenic sarcomas.
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PMID:Selective localisation of two radiolabelled anti-sarcoma monoclonal antibodies in human osteosarcoma xenografts. 347 43

Monoclonal antibodies (MAbs) against sarcoma-associated cell membrane antigens were prepared by immunizing BALB/c mice with tumor cells from a human osteosarcoma, TPX, grown as a xenograft in athymic BALB/c nude mice. Spleen cells from immunized mice were hybridized with X-63 Ag. 8.653 mouse myeloma cells which yielded 260 growing hybridomas. Seven of these produced antibodies that bound to TPX cells and to cells from another osteosarcoma, but not to autologous skin fibroblasts. MAbs from 2 (TP-1 and TP-3) of these 7 clones did not cross-react with non-sarcomatous tumor cells or peripheral blood lymphocytes. Immunohistochemical studies on frozen tissue sections showed that the TP-1 (IgG-2a) and TP-3 (IgG-2b) antibodies had characteristic and identical specificity profiles. Binding of TP-1 (TP-3) was demonstrated to 15/15 (15/15) osteosarcomas, 3/3 (2/2) synovial sarcomas, 7/9 (6/8) malignant fibrous histiocytomas, 2/2 (1/1) malignant hemangiopericytomas, 1/2 (1/2) chondrosarcomas and 3/6 (1/3) unclassified sarcomas. The antibodies did not bind to any of 16 sarcomas belonging to other histological subtypes, including liposarcomas and leio- and rhabdomyosarcomas. Moreover, they failed to bind to sections of 66 different non-sarcomatous malignancies, or to any of a range of normal adult and fetal tissues, although some weak staining of proximal kidney tubules was seen. The restricted specificity of these antibodies to some major subtypes of human sarcomas makes them promising tools for identification and subclassification of sarcomas.
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PMID:New monoclonal antibodies specific for human sarcomas. 352 38

The feasibility of using the murine monoclonal antibody, TP-1, for clinical immunoscintigraphy was examined in a pilot study involving 5 patients with bone sarcomas. 131I-labelled F(ab')2 antibody fragments were injected in doses of 0.8-1.0 mg (90-130 MBq), and the accumulation of radioactivity was examined by scintigraphy, and assessed by direct measurements on biopsied tumour and normal tissue. One osteosarcoma patient had a primary tumour in the femur, whereas the other 4 had single lung metastases detected by other diagnostic methods. Immunoscintigraphy of the femoral primary was optimally visualised after 22 h. In 2 patients, the method failed to detect lung metastasis, in 1 of the cases possibly related to less than optimal methodological conditions. In 2 other patients, increased accumulation of radioactivity indicated one and three lung tumours, in addition to the single metastasis observed by X-ray and CT scanning, tumours that were later confirmed and removed surgically. The concentration of radioactivity in tumour and normal tissues 44-72 h after antibody injection could be measured in 4 patients. The tumour to blood ratios were in the range of 1.2-4.2, compared to 0.1-0.8 for various normal tissues. The results indicate that immunoscintigraphy with TP-1 antibody fragments have a potential for early detection of lung metastases in patients with bone sarcoma.
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PMID:Immunoscintigraphy of bone sarcomas--results in 5 patients. 783 7

Monoclonal antibodies TP-1 and TP-3 are of potential utility for the radioimmunodiagnosis of osteosarcoma in both human and canine patients. The V genes of these antibodies were cloned and sequenced and to facilitate radiolabeling of these proteins, the location of the lysine residues within these sequences have been determined. The V-domains of TP-1 contain a total of 12 lysines, 10 in the framework region and 2 in the CDR region, while the V-domains of TP-3 contain a total of 14 lysines, 11 in the framework region and 3 in the CDR regions. Using space-filling models, the availability of each lysine residue for radiolabeling, and potential interference with antigen binding was predicted.
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PMID:Cloning and sequencing of V genes from anti-osteosarcoma monoclonal antibodies TP-1 and TP-3: location of lysine residues and implications for radiolabeling. 853 37

The variable (V) genes of TP-1 and TP-3 MAbs have been cloned and sequenced. Because of the potential use of these antibodies in the diagnosis and treatment of osteosarcoma, it is important to determine the presence and position of amino acid residues that may react with radiolabeling within the V domains. In this article, location of the tyrosine residues is determined using the knowledge of immunoglobulin structures in general. The TP-1V domains have a total of 19 tyrosines, whereas TP-3V domains have 18, with approximately half of these located within complementarity determining regions (CDRs). Thus, if equal reactivity of all tyrosines is assumed, smaller fragments of MAbs have a high probability of being radiolabeled at one of these sites with possible resultant loss of antigen binding.
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PMID:Abundant tyrosine residues in the antigen binding site in anti-osteosarcoma monoclonal antibodies TP-1 and TP-3: Application to radiolabeling. 867 59

Osteosarcoma is the commonest malignant tumour of the bones. The presence of micrometastases at the time of primary diagnosis is associated with poor prognosis. Despite developments in surgery and aggressive chemotherapy, about 50% of the patients still succumb to the disease. Thus, there is a need to develop alternative treatment modalities. One such strategy is to use antibodies with improved effector functions. The two monoclonal antibodies, TP-1 and TP-3, recognize a tumour-associated antigen on human osteosarcoma cells. In the present study, we describe the cloning of the TP-1 variable genes, and the production of complete chimeric mouse/human monoclonal antibodies. Constructs containing the constant genes from human IgG1, IgG3 or a mutant IgG3 with a shortened hinge region, called m15, were expressed in the mouse myeloma cell line, NS0. The m15 mutant has been shown to be very potent in triggering complement-mediated lysis. Our goal was to investigate whether this mutant could overcome the complement protection on human osteosarcoma cells, which is generally present on all human cells. We found that the target cells expressed several membrane-bound complement inhibitors, and that masking of these inhibitors rendered the cells sensitive to lysis. The m15 mutant exhibited greater lytic activity than both IgG3 and IgG1, although it could not cause extensive killing of the target cells alone.
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PMID:Complement-mediated lysis of cultured osteosarcoma cell lines using chimeric mouse/human TP-1 IgG1 and IgG3 antibodies. 1050 55

Regrowth of drug-resistant tumor cells is responsible for approximately half of an unselected osteosarcoma population still dying of the disease despite aggressive combination therapy. Two monoclonal antibodies, TP-1 (immunoglobulin 2a) and TP-3 (immunoglobulin 2b) are available, which specifically recognize an antigen on osteosarcoma cells. In this work, we have fused the variable (V) genes of TP-3 to a truncated fragment of Pseudomonas exotoxin A, referred to as PE38. Two immunotoxins were made that differed in the Fv portion: TP-3(scFv)-PE38, which contains a peptide linker, and TP-3(dsFv)-PE38, which contains a disulfide bond for stabilization of the association between the V domains. Recombinant TP-3 immunotoxins were expressed in Escherichia coli and purified from inclusion bodies. We describe the design and expression of these immunotoxins, and their properties with regard to antigen binding, stability, and cytotoxicity. Toxicity studies were done in mice. We found that the immunotoxins exhibited very similar in vitro properties, whereas in vivo TP-3(dsFv)-PE38 was much better tolerated than TP-3(scFv)-PE38.
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PMID:Cytotoxicity of antiosteosarcoma recombinant immunotoxins composed of TP-3 Fv fragments and a truncated Pseudomonas exotoxin A. 1126 72

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