Role of MAP Kinases in the 1,25-Dihydroxyvitamin D3-induced Transactivation of the Rat Cytochrome P450C24 (CYP24) Promoter

Role of MAP Kinases in the 1,25-Dihydroxyvitamin D3-induced Transactivation of the Rat Cytochrome P450C24 (CYP24) Promoter

The current study investigated the action of 1,25-dihydroxyvitamin D3 (1,25D) at the genomic and signal transduction levels to induce rat cytochrome P450C24 (CYP24) gene expression. A rat CYP24 promoter containing two vitamin D response elements and an Ets-1 binding site was used to characterize the...

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Veröffentlicht in:The Journal of biological chemistry 2002-08, Vol.277 (33), p.29643-29653
Hauptverfasser: Dwivedi, Prem P., Hii, Charles S.T., Ferrante, Antonio, Tan, Joseph, Der, Channing J., Omdahl, John L., Morris, Howard A., May, Brian K.
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container_end_page 29653
container_issue 33
container_start_page 29643
container_title The Journal of biological chemistry
container_volume 277
creator Dwivedi, Prem P.
Hii, Charles S.T.
Ferrante, Antonio
Tan, Joseph
Der, Channing J.
Omdahl, John L.
Morris, Howard A.
May, Brian K.
description The current study investigated the action of 1,25-dihydroxyvitamin D3 (1,25D) at the genomic and signal transduction levels to induce rat cytochrome P450C24 (CYP24) gene expression. A rat CYP24 promoter containing two vitamin D response elements and an Ets-1 binding site was used to characterize the mechanism of actions for the 1,25D secosteroid hormone. The Ets-1 binding site was determined to function cooperatively with the most proximal vitamin D response element in a hormone-dependent fashion. Evidence was obtained for distinct roles of ERK1/ERK2 and ERK5 in the 1,25D-inductive actions. Specifically, 1,25D stimulated the activities of ERK1/ERK2 and ERK5 in a Ras-dependent manner. Promoter induction was inhibited by mitogen-activated protein (MAP) kinase inhibitors (PD98059 and U0126) and a dominant-negative Ras mutant (Ras17N). Induction ofCYP24 by 1,25D was also inhibited by overexpression of dominant-negative mutants of ERK1 and MEK5 (ERK1K71R and MEK5(A)). The p38 and JNK MAP kinases were not required for the action of 1,25D. 9-cis retinoid X receptor α (RXRα) interacted with ERK2 but not ERK5 in intact cells, whereas Ets-1 interacted preferentially with ERK5. Increased phosphorylation of RXRα and Ets-1 was detected in response to 1,25D. Activated ERK2 and ERK5 specifically phosphorylated RXRα and Ets-1, respectively. Mutagenesis of Ets-1 (T38A) reduced CYP24 promoter activity to levels observed with the dominant-negative MEK5(A) and inhibited ERK5-directed phosphorylation. Mutated RXRα (S260A) inhibited 1,25D-induced CYP24 promoter activity and abolished phosphorylation by activated ERK2. The 1,25D-inductive action through ERK5 involved Ets-1 phosphorylation at threonine 38, whereas hormone stimulation of ERK1/ERK2 required RXRα phosphorylation on serine 260. The ERK1/ERK2 and ERK5 modules provide a novel mechanism for linking the rapid signal transduction and slower transcription actions of 1,25D to induce CYP24 gene expression.
doi_str_mv 10.1074/jbc.M204561200
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The p38 and JNK MAP kinases were not required for the action of 1,25D. 9-cis retinoid X receptor α (RXRα) interacted with ERK2 but not ERK5 in intact cells, whereas Ets-1 interacted preferentially with ERK5. Increased phosphorylation of RXRα and Ets-1 was detected in response to 1,25D. Activated ERK2 and ERK5 specifically phosphorylated RXRα and Ets-1, respectively. Mutagenesis of Ets-1 (T38A) reduced CYP24 promoter activity to levels observed with the dominant-negative MEK5(A) and inhibited ERK5-directed phosphorylation. Mutated RXRα (S260A) inhibited 1,25D-induced CYP24 promoter activity and abolished phosphorylation by activated ERK2. The 1,25D-inductive action through ERK5 involved Ets-1 phosphorylation at threonine 38, whereas hormone stimulation of ERK1/ERK2 required RXRα phosphorylation on serine 260. 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The p38 and JNK MAP kinases were not required for the action of 1,25D. 9-cis retinoid X receptor α (RXRα) interacted with ERK2 but not ERK5 in intact cells, whereas Ets-1 interacted preferentially with ERK5. Increased phosphorylation of RXRα and Ets-1 was detected in response to 1,25D. Activated ERK2 and ERK5 specifically phosphorylated RXRα and Ets-1, respectively. Mutagenesis of Ets-1 (T38A) reduced CYP24 promoter activity to levels observed with the dominant-negative MEK5(A) and inhibited ERK5-directed phosphorylation. Mutated RXRα (S260A) inhibited 1,25D-induced CYP24 promoter activity and abolished phosphorylation by activated ERK2. The 1,25D-inductive action through ERK5 involved Ets-1 phosphorylation at threonine 38, whereas hormone stimulation of ERK1/ERK2 required RXRα phosphorylation on serine 260. 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A rat CYP24 promoter containing two vitamin D response elements and an Ets-1 binding site was used to characterize the mechanism of actions for the 1,25D secosteroid hormone. The Ets-1 binding site was determined to function cooperatively with the most proximal vitamin D response element in a hormone-dependent fashion. Evidence was obtained for distinct roles of ERK1/ERK2 and ERK5 in the 1,25D-inductive actions. Specifically, 1,25D stimulated the activities of ERK1/ERK2 and ERK5 in a Ras-dependent manner. Promoter induction was inhibited by mitogen-activated protein (MAP) kinase inhibitors (PD98059 and U0126) and a dominant-negative Ras mutant (Ras17N). Induction ofCYP24 by 1,25D was also inhibited by overexpression of dominant-negative mutants of ERK1 and MEK5 (ERK1K71R and MEK5(A)). The p38 and JNK MAP kinases were not required for the action of 1,25D. 9-cis retinoid X receptor α (RXRα) interacted with ERK2 but not ERK5 in intact cells, whereas Ets-1 interacted preferentially with ERK5. Increased phosphorylation of RXRα and Ets-1 was detected in response to 1,25D. Activated ERK2 and ERK5 specifically phosphorylated RXRα and Ets-1, respectively. Mutagenesis of Ets-1 (T38A) reduced CYP24 promoter activity to levels observed with the dominant-negative MEK5(A) and inhibited ERK5-directed phosphorylation. Mutated RXRα (S260A) inhibited 1,25D-induced CYP24 promoter activity and abolished phosphorylation by activated ERK2. The 1,25D-inductive action through ERK5 involved Ets-1 phosphorylation at threonine 38, whereas hormone stimulation of ERK1/ERK2 required RXRα phosphorylation on serine 260. The ERK1/ERK2 and ERK5 modules provide a novel mechanism for linking the rapid signal transduction and slower transcription actions of 1,25D to induce CYP24 gene expression.</abstract><pub>Elsevier Inc</pub><pmid>12048211</pmid><doi>10.1074/jbc.M204561200</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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title Role of MAP Kinases in the 1,25-Dihydroxyvitamin D3-induced Transactivation of the Rat Cytochrome P450C24 (CYP24) Promoter
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