UNIPROT:P04637 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Telomeres are nucleoprotein structures that cap the ends of chromosomes, protecting them from exonucleases and distinguishing them from double-stranded breaks. Their integrity is maintained by telomerase, an enzyme consisting of a reverse transcriptase, TERT and an RNA template, TERC, and other components, including the pseudouridine synthase, dyskerin, the product of the DKC1 gene. When telomeres become critically short, a p53-dependent pathway causing cell cycle arrest is induced that can lead to senescence, apoptosis, or, rarely to genomic instability and transformation. The same pathway is induced in response to DNA damage. DKC1 mutations in the disease dyskeratosis congenita are thought to act via this mechanism, causing growth defects in proliferative tissues through telomere shortening. Here, we show that pathogenic mutations in mouse Dkc1 cause a growth disadvantage and an enhanced DNA damage response in the context of telomeres of normal length. We show by genetic experiments that the growth disadvantage, detected by disparities in X-inactivation patterns in female heterozygotes, depends on telomerase. Hemizygous male mutant cells showed a strikingly enhanced DNA damage response via the ATM/p53 pathway after treatment with etoposide with a significant number of DNA damage foci colocalizing with telomeres in cytological preparations. We conclude that dyskerin mutations cause slow growth independently of telomere shortening and that this slow growth is the result of the induction of DNA damage. Thus, dyskerin interacts with telomerase and affects telomere maintenance independently of telomere length.
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PMID:A pathogenic dyskerin mutation impairs proliferation and activates a DNA damage response independent of telomere length in mice. 1862 23

Dyskerin is a component of small nucleolar ribonucleoprotein complexes and acts as a pseudouridine synthase to modify newly synthesized ribosomal, spliceosomal, and possibly other RNAs. It is encoded by the DKC1 gene, the gene mutated in X-linked dyskeratosis congenita, and is also part of the telomerase complex. The yeast ortholog, Cbf5, is an essential protein, but in mammals the effect of dyskerin ablation at the cellular level is not known. Here we show that mouse hepatocytes can survive after induction of a Dkc1 deletion. In the absence of dyskerin, rRNA processing is inhibited with the accumulation of large precursors, and fibrillarin does not accumulate in nucleoli. A low rate of apoptosis is induced in the hepatocytes, which show an induction of the p53-dependent cell cycle checkpoint pathway. Signs of liver damage including an increase in serum alanine aminotransferase activity and a disordered structure at the histological and macroscopic levels are observed. In response to carbon tetrachloride administration, when wild-type hepatocytes mount a rapid proliferative response, those without dyskerin do not divide. We conclude that hepatocytes can survive without dyskerin but that the role of dyskerin in RNA modification is essential for cellular proliferation.
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PMID:Dyskerin ablation in mouse liver inhibits rRNA processing and cell division. 1991 19

Pus10 is a pseudouridine synthase present in Archaea and Eukarya, but not in Bacteria and yeast. It has been suggested that the human PUS10 (DOBI) gene is needed during TRAIL-induced apoptosis. We analyzed the role of PUS10 in TRAIL-induced apoptosis by immunofluorescence, immunoblotting and several indicators of apoptosis. We examined several TRAIL-sensitive cell lines and we also examined some resistant cell lines after treatment with cycloheximide. PUS10 is mainly present in the nucleus. Early during apoptosis, PUS10 translocates to mitochondria via CRM1-mediated export with the concurrent release of cytochrome c and SMAC. Caspase-3 is required for PUS10 translocation, which reciprocally amplifies the activity of caspase-3 through the intrinsic/mitochondrial pathway. This suggests that in addition to cytoplasmic factors, nuclear factors also have a direct role in the major apoptosis pathways. However, p53 is not involved in TRAIL-induced PUS10 movement. The caspase-3-mediated movement of PUS10 and the release of mitochondrial contents enhancing caspase-3 activity creates a feedback amplification loop for caspase-3 action. Therefore, any defect in the movement or interactions of PUS10 would reduce the TRAIL sensitivity of tumor cells.
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PMID:Reciprocal amplification of caspase-3 activity by nuclear export of a putative human RNA-modifying protein, PUS10 during TRAIL-induced apoptosis. 2898 Nov 1

This study aimed to explore more gene markers associated with glioma or its prognosis. The glioma-related RNAseq data from the Gene Expression Omnibus database and The Cancer Genome Atlas dataset in UCSC Xena database were downloaded. There was a total of 971 tumor samples and 102 normal samples in the 2 datasets. The differentially expressed genes (DEGs) data between tumor and normal samples were analyzed, on which were then performed function and pathway enrichment analyses. Pearson correlation coefficient between DEGs was calculated to construct the coexpression network. Finally, prognostic genes were screened. A total of 634 upregulated and 769 downregulated DEGs were identified between tumor and control groups. These DEGs were significantly involved in 15 upregulated pathways, such as p53 signaling pathway, and 16 downregulated pathways, such as neuroactive ligand-receptor interaction, and cell adhesion molecules. In the coexpression network, pseudouridine synthase 7 (PUS7), EFR3 homolog B (EFR3B), and neuronal cell adhesion molecule (NRCAM) had the top three highest degrees. Additionally, 17 prognostic genes were selected, such as thrombospondin-1 (THBS1), caspase-8 (CASP8), glutamate ionotropic receptor AMPA type subunit 2 (GRIA2), GRIA4, and ADCYAP receptor type I (ADCYAP1R1). Pathways of p53 signaling pathway and neuroactive ligand-receptor interaction may play important roles in glioma progression. PUS7, EFR3B, and NRCAM may be potential biomarkers of glioma. THBS1, CASP8, GRIA2, GRIA4, and ADCYAP1R1 may serve as prognostic markers in glioma.
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PMID:Prognostic Markers Identification in Glioma by Gene Expression Profile Analysis. 3143 8