Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P20226 (TATA-binding protein)
 1,297 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The tumor suppressor protein p53 is frequently inactivated in tumors. It functions as a transcriptional activator as well as a repressor for a number of viral and cellular promoters transcribed by RNA polymerase II (Pol II) and by RNA Pol III. Moreover, it appears that p53 also suppresses RNA Pol I transcription. In this study, we examined the molecular mechanism of Pol I transcriptional inhibition by p53. We show that wild-type, but not mutant, p53 can repress Pol I transcription from a human rRNA gene promoter in cotransfection assays. Furthermore, we show that recombinant p53 inhibits rRNA transcription in a cell-free transcription system. In agreement with these results, p53-null epithelial cells display an increased Pol I transcriptional activity compared to that of epithelial cells that express p53. However, both cell lines display comparable Pol I factor protein levels. Our biochemical analysis shows that p53 prevents the interaction between SL1 and UBF. Protein-protein interaction assays indicate that p53 binds to SL1, and this interaction is mostly mediated by direct contacts with TATA-binding protein and TAF(I)110. Moreover, template commitment assays show that while the formation of a UBF-SL1 complex can partially relieve the inhibition of transcription, only the assembly of a UBF-SL1-Pol I initiation complex on the rDNA promoter confers substantial protection against p53 inhibition. In summary, our results suggest that p53 represses RNA Pol I transcription by directly interfering with the assembly of a productive transcriptional machinery on the rRNA promoter.
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PMID:Repression of RNA polymerase I transcription by the tumor suppressor p53. 1091 76

Initiation of transcription for ribosomal RNA (rRNA) by RNA polymerase I requires TATA-binding protein (TBP) and TBP-associated factors (TAF1A, TAF1B and TAF1C). p53 tumour suppressor inhibits rRNA transcription by blocking TAF1C-UBF interaction, but alterations of TAF1C itself in tumorigenesis remain unknown. The aim of this study was to explore whether TAF1C gene was mutated in gastric (GC) and colorectal cancers (CRC).In a public database, we found that TAF1C gene had a mononucleotide repeat (C8) in the coding sequences that might be a mutation target in the cancers with microsatellite instability (MSI). We analysed 79 GC and 124 CRC by single-strand conformation polymorphism and DNA sequencing analyses. In this study, we found TAF1C frameshift mutations (8.8% of GC and 10.1% of CRC with MSI-H), which were not found in stable MSI/low MSI (MSS/MSI-L) (0/90). In addition, we analysed intratumoural heterogeneity (ITH) of TAF1C frameshift mutations in 16 CRC and found that three CRC (18.8%) harboured regional ITH of the TAF1C frameshift mutations. Our results indicate that TAF1C gene harboured not only somatic frameshift mutations but also the mutational ITH, which together might play a role in tumourigenesis of GC and CRC. Our data also suggest that multi-regional mutation analysis is needed for a better evaluation of the mutation status in CRC.
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PMID:Frameshift mutations of TAF1C gene, a core component for transcription by RNA polymerase I, and its regional heterogeneity in gastric and colorectal cancers. 2555 Dec 96

TATA-box binding protein associated factor, RNA polymerase I subunit C (TAF1C) is a component of selectivity factor 1 belonging to RNA polymerase I (Pol I) transcription machinery. We report two unrelated patients with homozygous TAF1C missense variants and an early onset neurological phenotype with severe global developmental delay. Clinical features included lack of speech and ambulation and epilepsy. MRI of the brain demonstrated widespread cerebral atrophy and frontal periventricular white matter hyperintensity. The phenotype resembled that of a previously described variant of UBTF, which encodes another transcription factor of Pol I. TAF1C variants were located in two conserved amino acid positions and were predicted to be deleterious. In patient-derived fibroblasts, TAF1C mRNA and protein expression levels were substantially reduced compared with healthy controls. We propose that the variants impairing TAF1C expression are likely pathogenic and relate to a novel neurological disease. This study expands the disease spectrum related to Pol I transcription machinery, associating the TAF1C missense variants with a severe neurological phenotype for the first time.
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PMID:Homozygous TAF1C variants are associated with a novel childhood-onset neurological phenotype. 3277 82