摘要:
This invention provides a composition useful for diagnosing cancer which specifically recognizes a galactosyl-globoside. Preferably, the composition is a monoclonal antibody which specifically recognize the galactosyl-globoside antigen, gal-Gb4.Additionally, the present invention provides two hybridoma cell lines, designated J309 and D579, which produce monoclonal antibodies that specifically recognize gal-Gb4.The invention also provides a method of diagnosing a carcinoma which comprises contacting a sample from a human subject with a composition which specifically recognizes a galactosyl-globoside antigen and is labeled with a detectable moiety, under suitable conditions so as to form a detectable complex. The amount of formed complex is then quantified and correlated with values obtained from subjects devoid of carcinomas.Another aspect of the invention provides a method of treating carcinoma which comprises administering an effective amount of galactosyl-globoside or an analog thereof and a pharmaceutically carrier to stimulate the body production of antibodies.
摘要:
This invention provides a monoclonal antibody, produced by the hybridoma cell line designated GXM1, which specifically binds to a human class 1tumor antigen. This invention also provides a human monoclonal antibody, produced by a hybridoma cell line designated HJM1, which specifically binds to each of the ganglioside antigens GD2, GD3, GM3 and GD1b. This invention further provides a human monoclonal antibody, produced by a hybridoma cell line designated FCM1, which specifically binds to the ganglioside antigens GM3 and GD1a. Finally, this invention provides a human monoclonal antibody, produced by a hybridoma cell line designated DSM1, which specifically binds to a human class 2 tumor protein antigen.
摘要:
A panel of monoclonal antibodies produced from normal human lung fibroblasts and human lung tumors as immunogen is used to diagnose the presence of lung tumors and differentiate between those which are benign and those which are cancerous.
摘要:
The preparation and use of monoclonal antibodies to human renal tumor cells is described. The monoclonal antibodies bind to glycoproteins of 160Kd, 120Kd and 115Kd, a glycolipid, a HLA heavy chain, group A blood and group B blood antigens.
摘要:
Mouse monoclonal antibody AbR.sub.24 (Dippold et al., Proc. Natl. Acad. Sci. 77:6114-6118, 1980) has a high degree of specificity for human melanoma cells when tested on viable cultured cells using the PA-MHA serological assay. The antigen detected by this antibody has been isolated from melanoma cells and shown to be G.sub.D3 ganglioside by compositional and partial structural analysis and by comparison with authentic G.sub.D3 by thin layer chromatography (TLC). AbR.sub.24 reacts with authentic G.sub.D3, but not with any other ganglioside tested. Using TLC and reactivity with AbR.sub.24, a wide range of cells and tissues was examined for the presence of G.sub.D3. A new serological assay, termed glycolipid-mediated immune adherence (GMIA), was devised for assaying the reactivity of AbR.sub.24 with gangliosides. Melanomas (cultured cells or tumor tissue) were shown to have T.sub.D3 and G.sub.M3 as major gangliosides. Other cells and tissues examined also contained G.sub.D3, but usually only in low amounts. Melanomas (and MOLT-4, a T-cell line) were characterized by a simplified ganglioside profile with G.sub.D3 and G.sub.M3 as major components. The apparent discrepancy between the ubiquitous presence of G.sub.D3 and the serological specificity of AbR.sub.24 for melanoma cells can be explained in terms of localization and concentration of G.sub.D3 in different cells.
摘要:
The subject invention describes a method of determining the secretor status of an individual which comprises obtaining a sample of a biological fluid from the individual and determining whether the sample includes the Lewis.sup.a or Lewis.sup.b antigens, the presence of the Lewis.sup.a antigen in the sample indicating that the individual is a nonsecretor, the presence of the Lewis.sup.b antigen in the sample indicating that the individual is a secretor, and the presence of neither antigen indicating the secretor status of the individual is inconclusive. The invention also provides a method of further determining the secretor status of an individual of having an inconclusive secretor status which comprises determining whether the biological fluid sample from the individual includes A, B or precursor type 1 chain antigens, the presence of any such antigens in the sample indicating that the individual is a secretor, the lack of any such antigens in the sample indicating that the individual is a nonsecretor. The invention provides a method of determining whether a human female subject is susceptible to urogenital infection which comprises determining whether the subject is a secretor according to the hereinabove-described methods, a secretor being susceptible to such an infection. The present application also provides a method of disstinguishing urothelial carcinoma from normal tissue, and identifying human germ cell tumor as seminoma or nonseminoma. Finally, the invention provides a panel comprising some or all of the monoclonal antibodies H 29-36 (ATCC No. HB 8248), S8 (ATCC No. HB 9036), T 174 (ATCC No. HB 8242), T 218 (ATCC No. HB 8249), P 12 (ATCC No. HB 8551), F 3 (ATCC No. HB 8217), and K 21 (ATCC No. HB 8549).
摘要:
Monoclonal antibodies to human antigens present on a majority of human cells are described. These mAbs have use in a method for isolating mAb for less expressive antigens, such as cancer antigens, or other antigens associated with particular abnormalities, disorders or disease state. The latter mAbs may be weaker than or not present to such an extent as the first mentioned mAbs. For example, these less expressive mAbs would be useful for cancer diagnosis, especially in the early stages, and for cancer treatment as well where the cancer cell is the target cell for the mAb. The mAb can be tagged with a tissue destructive agent such as a radio-label, a toxin, a chemical poisen, and the like. Some of the mAbs described, subset tumors of particular types and so are useful for tumor subclassification. The mAbs described are also useful in analyzing the properties and functions of their respective antigens in human cells.
摘要:
Antibody-producing hybridoma cell lines made by fusion of NS/1 cells with spleen cells of mice after immunization with human teratocarcinoma cells are presented. Monoclonal antibodies from these cell lines recognize the K4, K2 and P12 antigenic systems and are thus useful in detecting and differentiating between normal and cancerous cells. These monoclonal antibodies are especially useful in pathologic analysis of human tumors, especially teratocarcinomas.
摘要:
Method of forming an antibody producing hybridoma cell line by fusing a myeloma cell line with splenocytes derived from BALB/c mice immunized with human astrocytoma tumor cells, the hybridoma cell line formed, and the monoclonal antibodies generated by said hybridoma cell line. A method of phenotyping astrocytoma tumor cells comprising determining the reaction of said cells to various monoclonal antibodies to astrocytoma tumor cells is also provided.
摘要:
Mouse monoclonal antibodies to several cell antigens of human ovarian, cervical and endometrial carcinomas have been produced and characterized. The distribution of the antigens was determined by mixed hemagglutination assays on 153 normal and malignant cell cultures of various types, and by immunoperoxidase staining of frozen sections of 27 normal adult and 24 fetal tissues. five monoclonal antibodies representative of five classes of mAb raised to restricted ovarian, cervical and endometrial cells were tested extensively producing mAb reactive with cancer but not normal cells. One such mAb, MF116 was readily detected in the spent culture medium of metabolically radiolabeled cells. These antibodies, reacting with relatively restricted cell surface antigens, are useful in the analysis of epithelial cell differentiation, in cancer diagnosis and therapy and in tissue typing of normal or abnormal cells.