Masaki Asada scite author profile

The product of the Wilms' tumor gene WT1 is a transcription factor overexpressed not only in leukemic blast cells of almost all patients with acute myeloid leukemia, acute lymphoid leukemia, and chronic myeloid leukemia, but also in various types of solid tumor cells. Thus, it is suggested that the WT1 gene plays an important role in both leukemogenesis and tumorigenesis. Here we tested the potential of WT1 to serve as a target for immunotherapy against leukemia and solid tumors. Four 9-mer WT1 peptides that contain HLA-A2.1-binding anchor motifs were synthesized. Two of them, Db126 and WH187, were determined to bind to HLA-A2.1 molecules in a binding assay using transporter associated with antigen processing-deficient T2 cells. Peripheral blood mononuclear cells from an HLA-A2.1-positive healthy donor were repeatedly sensitized in vitro with T2 cells pulsed with each of these two WT1 peptides, and CD8(+) cytotoxic T lymphocytes (CTLs) that specifically lyse WT1 peptide-pulsed T2 cells in an HLA-A2.1-restricted fashion were induced. The CTLs also exerted specific lysis against WT1-expressing, HLA-A2.1-positive leukemia cells, but not against WT1-expressing, HLA-A2.1-negative leukemia cells, or WT1-nonexpressing, HLA-A2. 1-positive B-lymphoblastoid cells. These data provide the first evidence of human CTL responses specific for the WT1 peptides, and provide a rationale for developing WT1 peptide-based adoptive T-cell therapy and vaccination against leukemia and solid tumors.

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Overexpression of the Wilms' tumor gene WT1 in de novo lung cancers

Oji

Miyoshi

Maeda

et al. 2002

Intl Journal of Cancer

189

176

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Expression of theThe Wilms' tumor gene WT1 was originally isolated as a tumorsuppressor gene responsible for Wilms' tumor, a kidney neoplasm of childhood. 1 However, we proposed that WT1 played an oncogenic role in leukemogenesis based on the following findings: 2 (i) the wild-type WT1 gene was expressed at high levels in leukemic blast cells, 3,4 (ii) there was a clear and inverse correlation between WT1 expression levels and prognosis in acute leukemia, 3 (iii) WT1 expression increased at relapse of acute leukemia, 5 (iv) growth of leukemic blast cells was inhibited by the treatment of WT1 antisense oligomers 6 and (v) constitutive expression of WT1 blocked differentiation and instead induced proliferation in response to granulocyte colony-stimulating factor in 32D cl3 myeloid progenitor cells 7 and normal myeloid progenitor cells. 8 Furthermore, we demonstrated that the wild-type WT1 as expressed in various types of cell line derived from lung cancer, gastric cancer, colon cancer and breast cancer and that growth of these WT1-expressing tumor cells was inhibited by the treatment of WT1 antisense oligomers. 9 These data suggested an oncogenic role of the WT1 gene in tumorigenesis. However, the involvement of the WT1 gene in de novo solid tumors remained unclear. In the present study, we examined WT1 expression in de novo lung cancer using quantitative real-time RT-PCR and immunohistochemistry and demonstrated that the wild-type WT1 was overexpressed in 54/56 (96%) de novo non-small cell lung cancers (NSCLCs) and 5/6 (83%) de novo small cell lung cancers (SCLCs) examined.

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Expression of the Wilms' Tumor Gene WT1 in Solid Tumors and Its Involvement in Tumor Cell Growth

Oji

Ogawa

Tamaki

et al. 1999

Japanese Journal of Cancer Research

199

172

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Enhanced induction of human WT1-specific cytotoxic T lymphocytes with a 9-mer WT1 peptide modified at HLA-A*2402-binding residues

Tsuboi

Oka

Udaka

et al. 2002

Cancer Immunology, Immunotherapy

109

119

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The Wilms' tumor gene WT1 is overexpressed in most types of leukemias and various kinds of solid tumors, including lung and breast cancer, and participates in leukemogenesis and tumorigenesis. WT1 protein has been reported to be a promising tumor antigen in mouse and human. In the present study, a single amino-acid substitution, M-->Y, was introduced into the first anchor motif at position 2 of the natural immunogenic HLA-A*2402-restricted 9-mer WT1 peptide (CMTWNQMNL; a.a. 235-243). This substitution increased the binding affinity of the 9-mer WT1 peptide to HLA-A*2402 molecules from 1.82 x 10(-5) to 6.40 x 10(-7) M. As expected from the increased binding affinity, the modified 9-mer WT1 peptide (CYTWNQMNL) elicited WT1-specific cytotoxic T lymphocytes (CTL) more effectively than the natural 9-mer WT1 peptide from peripheral blood mononuclear cells (PBMC) of HLA-A*2402-positive healthy volunteers. CTL induced by the modified 9-mer WT1 peptide killed the natural 9-mer WT1 peptide-pulsed CIR-A*2402 cells, primary leukemia cells with endogenous WT1 expression and lung cancer cell lines in a WT1-specific HLA-A*2402-restricted manner. These results showed that this modified 9-mer WT1 peptide was more immunogenic for the induction of WT1-specific CTL than the natural 9-mer WT1 peptide, and that CTL induced by the modified 9-mer WT1 peptide could effectively recognize and kill tumor cells with endogenous WT1 expression. Therefore, cancer immunotherapy using this modified 9-mer WT1 peptide should provide efficacious treatment for HLA-A*2402-positive patients with leukemias and solid tumors.

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Antiapoptotic function of 17AA(+)WT1 (Wilms' tumor gene) isoforms on the intrinsic apoptosis pathway

et al. 2006

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Masaki Asada

Human cytotoxic T-lymphocyte responses specific for peptides of the wild-type Wilms' tumor gene ( WT1 ) product

Overexpression of the Wilms' tumor gene WT1 in de novo lung cancers

Expression of the Wilms' Tumor Gene WT1 in Solid Tumors and Its Involvement in Tumor Cell Growth

Enhanced induction of human WT1-specific cytotoxic T lymphocytes with a 9-mer WT1 peptide modified at HLA-A*2402-binding residues

Antiapoptotic function of 17AA(+)WT1 (Wilms' tumor gene) isoforms on the intrinsic apoptosis pathway

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