AI Article Synopsis
- Malignant gliomas are the leading cause of death among brain tumors, with patients having a median survival of less than a few years despite existing treatments.
- Research focuses on better understanding the differences between normal and tumor cells to develop new therapies, leading to the identification of a specific antigen related to gliomas, known as microsomal epoxide hydrolase (mEH).
- The study confirmed that mEH is present in gliomas and reactive astrocytes, but it found that p53 does not regulate mEH expression in glioma cells as previously thought in other cell types.
Article Abstract
Malignant gliomas are the main cause of death from primary brain tumors. Despite surgery, radiation, and chemotherapy, patients have a median survival of less than a few years; therefore, it is clearly imperative to investigate new ways of treatment. The development of new therapeutic strategies for brain tumors is dependent on a better understanding of the differences between normal and tumoral brain cells. Our group had described previously a Mr 48,000 antigen defined by reactivity with two monoclonal antibodies (GE2 and BF7) obtained by immunization of mice with human glioblastoma cells. Here, we describe the identification of the GE2/BF7 antigen as microsomal epoxide hydrolase (mEH), a drug-metabolizing enzyme that is involved both in toxification and detoxification of carcinogens. We initially used immunoaffinity purification using GE2 and BF7 and analyzed the purified proteins by microsequencing. Edman degradation identified 15 amino acids of the NH2-terminal sequence that were 100% identical to mEH. To further confirm the identity of the BF7/GE2 antigen as mEH, we showed that the protein immunopurified with GE2 and BF7 was recognized by an anti-mEH antibody and that in vitro and in vivo synthesized human mEH is recognized by BF7 and GE2 antibodies. Furthermore, anti-mEH antibody recognizes an antigen expressed both in gliomas and reactive astrocytes, as do BF7 and GE2. Finally, we demonstrate that in contrast to what has been reported in rat embryo fibroblasts, p53 does not regulate mEH mRNA expression in glioma cells.
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Identification of the putative brain tumor antigen BF7/GE2 as the (de)toxifying enzyme microsomal epoxide hydrolase.
Cancer Res
March 2000
Neurosurgery Department, University Hospital (CHUV), Lausanne, Switzerland.
Article Synopsis
- Malignant gliomas are the leading cause of death among brain tumors, with patients having a median survival of less than a few years despite existing treatments.
- Research focuses on better understanding the differences between normal and tumor cells to develop new therapies, leading to the identification of a specific antigen related to gliomas, known as microsomal epoxide hydrolase (mEH).
- The study confirmed that mEH is present in gliomas and reactive astrocytes, but it found that p53 does not regulate mEH expression in glioma cells as previously thought in other cell types.
The binding specificities of two monoclonal antiglioma antibodies (MAB) derived from hybrids GE2 and BF7 (Schnegg et al. 1981) were tested by indirect immunofluorescence (IF) and two immunoperoxidase (IP) methods. Studies were done on biopsies from 33 human CNS tumors, human derived glioma cells, and N-ethylnitrosourea-induced neurogenic rat cells in culture.
View Article and Find Full Text PDFThe reactivity spectrum of three monoclonal antibodies (Mabs) to human malignant glioma, five Mabs to melanomas and one Mab anti-HLA-DR was investigated by an indirect antibody binding radioimmunoassay on a panel of cells derived from 60 glioma lines, including 47 malignant astrocytomas, 11 low-grade astrocytomas and two malignant ependymomas as well on cells from 12 melanoma, three neuroblastoma, three medulloblastoma, two schwannoma, two retinoblastoma, two choroïd plexus papilloma, ten meningioma and 12 unrelated tumor lines. The anti-glioma Mabs BF7 and GE2 reacted preferentially with gliomas, while the anti-glioma Mab CG12 reacted with gliomas, melanomas, neuroblastomas and medulloblastomas. The five anti-melanoma Mabs reacted with gliomas, neuroblastomas and medulloblastomas.
View Article and Find Full Text PDFWe produced three monoclonal antibodies, BF7, GE2 and CG12, against cultured human glioma cells. Their specificity was tested by an indirect antibody-binding radioimmunoassay on a panel of glial and non-glial tumor cell lines. BF7 and GE2 react preferentially with glioma cells and, except for one colon carcinoma line, they do not bind to the control non-neuroectodermal cells; they appear to be directed against common malignant glioma associated antigens.
View Article and Find Full Text PDFHybridoma cells were derived from a fusion between mouse P3x63/Ag8 myeloma cells and spleen cells from a mouse immunized with whole cells of a human malignant glioma line. Of 345 hybrids obtained, 36 secreted antibodies that reacted with the glioma cell line used for immunization as assayed by an indirect antibody-binding radioimmunoassay. After a first screening for the absence of reactivity on two nongliogenous cell lines, 3 hybrids were selected and cloned by limiting dilution.
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