Iron regulates synthesis of the iron storage protein ferritin at the translational level through interaction between a stem-loop structure, the iron-responsive element (IRE), located in the 5'-untranslated region (5'-UTR) of ferritin mRNAs, and a protein, the iron regulatory protein (IRP). The role of IRE secondary structure in translational regulation of ferritin synthesis was explored by introducing ferritin constructs containing mutations in the IRE into Rat-2 fibroblasts. Our in vivo studies demonstrate that size and sequence of the loop within the IRE and the distance and/or spatial relationship of this loop to the bulged nucleotide region closest to the loop must be preserved in order to observe iron-dependent translation of ferritin mRNA. In contrast, changes in nucleotide sequence of the upper stem can be introduced without affecting translational regulation in vivo, as long as a stem can be formed. Our in vivo results suggest that only a very small variation in the affinity of interaction of IRP with IRE can be tolerated in order to maintain iron-dependent regulation of translation.
In LLC-PK1 cells, a cyclic AMP (cAMP)-elevating peptide hormone, calcitonin, induces urokinase-type plasminogen activator (uPA) gene transcription without concomitant protein synthesis. To understand the molecular mechanism of the uPA gene regulation by cAMP, we developed a system which allows us to obtain mutant cells with modified regulatory proteins. A uPA-gpt hybrid gene was constructed, in which the regulatory region of the uPA gene was linked to a bacterial xanthine-guanine phosphoribosyltransferase gene (gpt), and it was transfected into LLC-PK1 cells. A stably transformed cell line, which expressed gpt only in the presence of calcitonin, was obtained, and then these cells were treated with a chemical mutagen, ethyl methanesulfonate. Cells were screened for constitutive gpt expression and, as mutations in regulatory proteins should affect the two genes at the same time, cells were further screened for an increased basal uPA mRNA level. Several such clones were obtained and none of them had modified cAMP-dependent protein kinase activity, suggesting that mutations were in the post-protein kinase step in the pathway of hormone action. Five clones were fused with the parent LLC-PK1 cells, and all of the fusion cells showed reduced basal uPA mRNA levels, indicating that they were recessive mutants. One clone was analyzed further for sensitivity to calcitonin in the induction of uPA mRNA, and it showed a significantly different dose-response pattern compared with parent cells. These results suggest that the uPA gene is regulated, at least partly, by a negatively regulating factor and that the action of cAMP is linked to this factor.
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