Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.5.1.3 (dihydrofolate reductase)
 5,819 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The induction of dihydrofolate reductase (DHFR), a key enzyme in DNA biosynthesis that is induced just before the onset of S phase, is markedly attenuated in senescent human fibroblasts (Pang and Chen, 1994, J. Cell. Physiol., 160:531-538). Footprinting analysis of the 365 bp promoter region of the human DHFR gene (-381 to -17) indicated that nuclear proteins bind to a cluster of cis-elements, including two overlapping E2F binding sequences, two Sp1 sites, and one Yi sequence. Gel mobility shift assays were performed to assess the role of each cis-element in the regulation of DHFR gene expression. We found that 1) Sp1 binding activity was constitutively expressed throughout the cell cycle in early passage and senescent cells; 2) Yi binding activity was undetectable in both early passage and senescent cells; and 3) E2F binding activity was serum-inducible, senescence-dependent, and prominent in presenescent cells but strikingly diminished in senescent cells. Northern blot analysis of the expression of E2F and DP family members showed that the E2F-1, E2F-4, and E2F-5 mRNA was growth- and senescence-dependent, whereas E2F-3, DP-1, and DP-2 expression was constitutive and senescence-independent. In contrast, E2F-2 mRNA was not detectable in IMR-90 or WI-38 human fibroblasts. Western blot analysis showed that among the E2F-associated proteins, the expression of E2F-1, cyclin A, and cyclin B but not p107 was cell cycle- and senescence-dependent. A nuclear extract mixing experiment suggested that an inhibitory factor may further reduce E2F binding activity in senescent cells.
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PMID:Regulation of dihydrofolate reductase gene expression and E2F components in human diploid fibroblasts during growth and senescence. 881 12

The retinoblastoma tumor suppressor gene product (pRb) is involved in controlling cell cycle progression from G1 into S. pRb functions, in part, by regulating the activities of several transcription factors, making pRb involved in the transcriptional control of cellular genes. Transient-transfection assays have implicated pRb in the transcription of several genes, including c-fos, the interleukin-6 gene, c-myc, cdc-2, c-neu, and the transforming growth factor beta2 gene. However, these assays place the promoter in an artificial context and exclude the effects of far 5' upstream regions and chromosomal architecture on gene transcription. In these experiments, we have studied the role of pRb in the control of cell cycle-related genes within a chromosomal context and within the context of the G1 phase of the cell cycle. We have used adenovirus vectors to overexpress pRb in human osteosarcoma cells and breast cells synchronized in early G1. By RNase protection assays, we have assayed the effects of this virus-produced pRb on gene expression in these cells. These results indicate that pRb is involved in the transcriptional downregulation of the E2F-1, E2F-2, dihydrofolate reductase, thymidine kinase, c-myc, proliferating-cell nuclear antigen, p107, and p21/Cip1 genes. However, it has no effect on the transcription of the E2F-3, E2F-4, E2F-5, DP-1, DP-2, or p16/Ink4 genes. The results are consistent with the notion that pRb controls the transcription of genes involved in S-phase promotion. They also suggest that pRb negatively regulates the transcription of two of the transcription factors whose activity it also represses, E2F-1 and E2F-2, and that it plays a role in downregulating the immediate-early gene response to serum stimulation.
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PMID:Regulation of cellular genes in a chromosomal context by the retinoblastoma tumor suppressor protein. 967 66

RING3 is a novel, nuclear-localized, serine-threonine kinase that has elevated activity in human leukemias. RING3 transforms NIH/3T3 cells and is activated by mitogenic signals, all of which suggest that it may play a role in cell cycle-responsive transcription. We tested this hypothesis with transient transfection of RING3 into fibroblasts and assayed transactivation of the promoters of cyclin D11 cyclin A, cyclin E, and dihydrofolate reductase (dhfr) genes. RING3 transactivates these promoters in a manner dependent on ras signaling. A kinase-deficient point mutant of RING3 does not transactivate. Mutational analysis of the dhfr promoter reveals that transactivation also depends on the presence of a functional E2F binding site. Furthermore, ectopic expression of Rb protein, a negative regulator of E2F activity, suppresses the RING3-dependent transactivation of this promoter. Consistent with a potential role of E2F in RING3-dependent transcription, anti-RING3 immunoaffinity chromatography or recombinant RING3 protein affinity chromatography of nuclear extracts copurified a protein complex that contains E2F-1 and E2F-2. These data suggest that RING3 is a potentially important regulator of E2F-dependent cell cycle genes.
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PMID:RING3 kinase transactivates promoters of cell cycle regulatory genes through E2F. 1096 46