General information | Literature | Expression | Regulation | Mutation | Interaction |
Basic Information |
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Gene ID | 11010 |
Name | GLIPR1 |
Synonymous | CRISP7|GLIPR|RTVP1;GLI pathogenesis-related 1;GLIPR1;GLI pathogenesis-related 1 |
Definition | GLI pathogenesis-related 1 (glioma)|gliPR 1|glioma pathogenesis-related protein 1|protein RTVP-1|related to testis-specific, vespid, and pathogenesis proteins 1|testes-specific vespid and pathogenesis protein 1 |
Position | 12q21.2 |
Gene type | protein-coding |
Title |
Abstract |
RTVP-1, a tumor suppressor inactivated by methylation in prostate cancer. | We previously identified and characterized a novel p53-regulated gene in mouse prostate cancer cells that was homologous to a human gene that had been identified in brain cancers and termed RTVP-1 or GLIPR. In this report, we document that the human RTVP-1 gene is also regulated by p53 and induces apoptosis in human prostate cancer cell lines. We show that the expression of the human RTVP-1 gene is down-regulated in human prostate cancer specimens compared with normal human prostate tissue at the mRNA and protein levels. We further document epigenetic changes consistent with RTVP-1 being a tumor suppressor in human prostate cancer. |
Glioma pathogenesis-related protein 1 exerts tumor suppressor activities through proapoptotic reactive oxygen species-c-Jun-NH2 kinase signaling. | Glioma pathogenesis-related protein 1 (GLIPR1), a novel p53 target gene, is down-regulated by methylation in prostate cancer and has p53-dependent and -independent proapoptotic activities in tumor cells. These properties suggest an important tumor suppressor role for GLIPR1, yet direct genetic evidence of a tumor suppressor function for GLIPR1 is lacking and the molecular mechanism(s), through which GLIPR1 exerts its tumor suppressor functions, has not been shown. Here, we report that the expression of GLIPR1 is significantly reduced in human prostate tumor tissues compared with adjacent normal prostate tissues and in multiple human cancer cell lines. Overexpression of GLIPR1 in cancer cells leads to suppression of colony growth and induction of apoptosis. Mice with an inactivated Glipr1 gene had significantly shorter tumor-free survival times than either Glipr1(+/+) or Glipr1(+/-) mice in both p53(+/+) and p53(+/-) genetic backgrounds, owing to their development of a unique array of malignant tumors. Mechanistic analysis indicated that GLIPR1 up-regulation increases the production of reactive oxygen species (ROS) leading to apoptosis through activation of the c-Jun-NH(2) kinase (JNK) signaling cascade. Thus, our results identify GLIPR1 as a proapoptotic tumor suppressor acting through the ROS-JNK pathway and support the therapeutic potential for this protein. |
Identification of GLIPR1 tumor suppressor as methylation-silenced gene in acute myeloid leukemia by microarray analysis. | PURPOSE: To identify methylation-silenced genes in acute myeloid leukemia (AML). METHODS: Microarray analyses were performed in AML cell line HL-60 cells exposed to the demethylating agent 5-aza-2dC. The methylation status and expression of glioma pathogenesis-related protein 1 (GLIPR1), one of highly induced genes by demethylation, were further detected in six hematopoietic malignancy cell lines and 260 bone marrow samples from leukemia patients and nonmalignant diseases as control, as well as pre-treated and post-treated bone marrow samples from 24 complete remission AML patients received chemotherapy using MS-PCR, bisulfite DNA sequencing, RT-PCR, and Western blotting. RESULTS: One hundred and nine genes were significantly induced by demethylation in HL-60 cells, 12 genes of which were confirmed by RT-PCR. GLIPR1, a tumor suppressor gene, was frequently methylation-silenced in AML cell lines and AML patients, but not in the other hematopoietic malignancy cell lines and patients. The frequencies of methylation-silenced GLIPR1 in the pre-treatment were significantly higher than those in the post-treatment in complete remission AML patients. CONCLUSION: We identify 109 genes induced by demethylation in HL-60 cells, and demonstrate that GLIPR1 is a methylation-silenced gene in the AML patients, and may serve as a marker for monitoring disease activity during therapy in the AML patients. The data provide the important information for studying the pathogenesis of AML and discovering the target genes of methylating agents. |