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)

Cardiovascular disease (CVD) is the most prevalent disease worldwide and there is intense interest in pharmaceutical approaches to reduce the burden of this chronic, aging-related condition. The sirtuin (SIRT) family of NAD(+)-dependent protein deacetylases and ADP-ribosyltransferases have emerged as exciting targets for CVD management that can impact the cardiovascular system both directly and indirectly, the latter by modulating whole body metabolism. SIRT1-4 regulate the activities of a variety of transcription factors, coregulators, and enzymes that improve metabolic control in adipose tissue, liver, skeletal muscle, and pancreas, particularly during obesity and aging. SIRT1 and 7 can control myocardial development and resist stress- and aging-associated myocardial dysfunction through the deacetylation of p53 and forkhead box O1 (FoxO1). By modulating the activity of endothelial nitric oxide synthase (eNOS), FoxO1, and p53, and the expression of angiotensin II type 1 receptor (AT1R), SIRT1 also promotes vasodilatory and regenerative functions in endothelial and smooth muscle cells of the vascular wall. Given the array of potentially beneficial effects of SIRT activation on cardiovascular health, interest in developing specific SIRT agonists is well-substantiated. Because SIRT activity depends on cellular NAD+ availability, enzymes involved in NAD+ biosynthesis, including nicotinamide phosphoribosyltransferase (Nampt), may also be valuable pharmaceutical targets for managing CVD. Herein we review the actions of the SIRT proteins on the cardiovascular system and consider the potential of modulating SIRT activity and NAD+ availability to control CVD.
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PMID:NAD(+), sirtuins, and cardiovascular disease. 1914 6

The aromatic amine 2-acetylaminofluore (2-AAF) is a powerful complete genotoxic rat liver carcinogen that induces tumors without any additional interventions. While the tumor-initiating genotoxic activity of 2-AAF is well established, its tumor-promotion activity is far less understood. It is believed that the tumor-promoting property of 2-AAF is associated with selective enhancement of cell replication and sustained suppression of apoptosis in initiated cells. In the present study, we investigated the underlying mechanisms of tumor-promoting events induced by 2-AAF-exposure. Male Sprague-Dawley rats were fed NIH-31 diet containing 0.02% of 2-AAF for 12 and 24 weeks, and the expression pattern of genes associated with the p53-signaling pathway and microRNA genes was determined in the livers of control and 2-AAF-fed rats. The results indicate that the tumor-promoting property of 2-AAF during hepatocarcinogenesis is associated predominantly with the up-regulation of anti-apoptotic growth-related genes and down-regulation of expression of pro-apoptotic genes. This disrupts the balance between cell proliferation and apoptosis, which leads to consequential unrestricted cell proliferation, especially of initiated cells. Also, the long-term-administration of 2-AAF resulted in disruption of regulatory miR-34a-p53 feed-back loop that mediates apoptosis. This was evidenced by an increased expression of miR-34a in response to genotoxic effects of 2-AAF in the absence of p53 up-regulation, and loss of regulatory control of mir-34a on SIRT1 function. Additionally, the livers of 2-AAF-exposed rats were characterized by the substantial deregulation of expression of miR-18, miR-21, miR-182, and miR-200 family, microRNAs involved in control of apoptosis/cell proliferation and cell-cell contact pathways, two major pathways disrupted during the promotion stage of hepatocarcinogenesis.
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PMID:The tumor-promoting activity of 2-acetylaminofluorene is associated with disruption of the p53 signaling pathway and the balance between apoptosis and cell proliferation. 1916 16

SIRT1 has been considered as a tumor promoter because of its increased expression in some types of cancers and its role in inactivating proteins that are involved in tumor suppression and DNA damage repair. However, recent studies demonstrated that SIRT1 levels are reduced in some other types of cancers, and that SIRT1 deficiency results in genetic instability and tumorigenesis, while overexpression of SIRT1 attenuates cancer formation in mice heterozygous for tumor suppressor p53 or APC. Here, I review these recent findings and discuss the possibility that activation of SIRT1 both extends lifespan and inhibits cancer formation.
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PMID:SIRT1, is it a tumor promoter or tumor suppressor? 1917 36

MicroRNAs (miRNAs) are small non-coding RNAs that regulate gene expression. Several studies have linked dysregulation of miRNA with tumorigenesis. The TP53 is one of the most commonly mutated genes in human cancers, and its gene product p53 activates transcription of a set of miRNA including the miR-34 family of miRNA. The miR-34 family regulates cell cycle progression, cellular senescence and apoptosis, but the targets of miR-34 are not completely defined. We recently found that miR-34a inhibits SIRT1, a gene that regulates cellular senescence and limits longevity. SIRT1 also regulates p53 dependent apoptosis through deacetylating and stabilizing p53. We also discovered that SIRT1 mediates miR-34a activation of apoptosis by regulating p53 activity. Based on this observation, we propose a positive feedback loop, in which p53 induces expression of miR-34a which suppresses SIRT1, increasing p53 activity.
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PMID:MiR-34, SIRT1 and p53: the feedback loop. 1922 90

Recent studies have emphasized the importance of SIRT1, a mammalian homolog of Sir2 longevity factor, in the regulation of metabolism, cellular survival, and organismal lifespan. The signaling network interacting with SIRT1 continues to expand as does the number of functions known to be regulated by SIRT1. Autophagy is also an emerging field in longevity studies. Autophagocytosis is a housekeeping mechanism cleaning cells from aberrant and dysfunctional molecules and organelles. The extension of lifespan has been linked to the efficient maintenance of autophagic degradation, a process which declines during aging. Interestingly, recent observations have demonstrated that SIRT1 regulates the formation of autophagic vacuoles, either directly or indirectly through a downstream signaling network. We will examine the signaling pathways linking SIRT1 to the regulation of autophagic degradation. The interactions of SIRT1 with the FoxO and p53 signaling can also regulate both the autophagic degradation and lifespan extension emphasizing the key role of autophagy in the regulation of lifespan.
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PMID:SIRT1: regulation of longevity via autophagy. 1924 51

SIRT1, a nicotinamide adenine dinucleotide (NAD(+))-dependent histone/protein deacetylase, has been extensively studied recently for its critical role in the regulation of physiology, calorie restriction and aging. Studies on laboratory mice showed that expression of SIRT1 can be induced by starvation in a p53-dependent manner and requires the p53-binding sites present in the Sirt1 promoter. However, it remains to be determined whether these findings based on rodents apply to human beings. In this paper, we characterized a putative p53-binding element in the human SIRT1 promoter that might be required for the up-regulation of SIRT1 in response to nutritional stress. The p53-binding site in the promoter of human SIRT1 is more deviant from the consensus sequence than the corresponding sequence in the mouse Sirt1. There is a C to A change at the second half site in human SIRT1, thus disrupting the core-binding element CWWG in the canonical RRRCWWGYYY. To test whether such sequence change would affect its binding with p53 and the SIRT1 expression under stress, we studied various human cell lines with different p53 status and cells with ectopic expression of functionally distinct p53. We found that serum withdrawal also up-regulates human SIRT1 gene expression in a p53-dependent manner and that the p53-binding element in SIRT1 is required for the up-regulation. Thus, the mechanism responsible for the regulation of SIRT1 expression by p53 is conserved between mice and human beings.
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PMID:Serum withdrawal up-regulates human SIRT1 gene expression in a p53-dependent manner. 1926 81

N()-Thioacetyl-lysine-containing tri-, tetra-, and pentapeptides, based on the alpha-tubulin and p53 protein sequences, were studied as SIRT1 and SIRT2 inhibitors. The potency of the pentapeptides depended on the selection of the side chains. The removal of N- and C-terminal residues of the pentapeptides yielded tripeptides with retained SIRT1 inhibitory activity but decreased SIRT2 inhibitory activity. The most potent SIRT1 inhibitors were equipotent with the reference compound (6-chloro-2,3,4,9-tetrahydro-1H-carbazole-1-carboxamide) with the IC(50) values of 180-330 nM.
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PMID:N(epsilon)-thioacetyl-lysine-containing tri-, tetra-, and pentapeptides as SIRT1 and SIRT2 inhibitors. 1929 97

Autophagy is involved in cellular protein and organelle degradation, which is mediated by the lysosomal pathway. Autophagocytosis has a key role in cellular housekeeping by removing damaged organelles. During aging, the efficiency of autophagic degradation declines and intracellular waste products accumulate. In Caenorhabditis elegans, there is clear evidence that lifespan is linked to the capacity to regulate autophagy. Recent studies have revealed that the same signaling factors regulate both aging and autophagocytosis, thus highlighting the role of autophagy in the regulation of aging and age-related degenerative diseases. Here, we examine in detail the interactions of the signaling network involving longevity factors SIRT1, mTOR, FoxO3, NF-kappaB and p53 in the regulation of autophagy. We discuss the possibility that these well-known stress resistance and longevity factors regulate the aging process via autophagy.
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PMID:Regulation of the aging process by autophagy. 1938 Feb 53

The sirtuin family of class III histone deacetylases (HDACs) is named after their homology to yeast silent information regulator 2 (SIR2). SIR2 and its mammalian derivatives (SIRT1-7) play a central role in gene silencing, cell cycle, aging and metabolism. Here we reported cDNA cloning, chromosome mapping,expression and evolutional analysis of sirtuin genes in Sus scrofa (Tongcheng pig). Sequence analysis showed that porcine sirtuin genes contain 7 members designated SIRT1-7. Tissue distribution analysis indicated porcine sirtuin genes ubiquitously expressed but with the highest abundance in brain, spinal cord and genital tissue. In silico and radiation hybrid mapping analysis mapped porcine SIRT1-7 to the chromosomes 14q23,6q11-12, 2q29, 14q19, 7p12, 2q11, and 12p15, respectively. We also isolated and characterized genomic sequence of porcine SIRT1, which spaned a region of 31,834 bp comprising 9 exons ranging in size from 80 bpto 2121 bp. The 5' flanking genomic region preceding an open reading frame of SIRT1 has a TATA box, a small300 bp CpG island and several putative Sp1 and p53 transcription factor binding sites. Moreover, we isolated two novel splicing SIRT6 variants with 346 bp (variant 2) in-frame deletions from lung and 327 bp(variant 3) in-frame deletions from spleen and brain. This is the first systematic report of molecular cloning and characterization of sirtuin genes in pigs, which will be helpful for a better understanding of the physiological role of sirtuin proteins in pigs.
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PMID:Molecular cloning and characterization of porcine sirtuin genes. 1938 81

A new type of small-molecular sirtuin inhibitor was designed on the basis of the proposed catalytic mechanism for deacetylation of acetylated lysine substrates by sirtuins. Among the compounds thus designed and synthesized, we found that 2k, which contains an ethoxycarbonyl group at the alpha position to the acetamide of acetylated lysine substrate analogue 1, showed potent inhibitory activity in an in vitro assay using recombinant SIRT1, with high selectivity over SIRT2 and SIRT3. Mechanistic study by means of kinetic analysis, mass spectroscopy, and computation indicated that the enol form of compound 2k nucleophilically attacks NAD(+) in the active site of SIRTs to afford the stable compound 2k-ADP-ribose conjugate 5, leading to inhibition of the enzyme activity. Compound 2k also caused a dose-dependent increase of p53 acetylation in human colon cancer HCT116 cells, indicating inhibition of SIRT1 in the cells. These results have implications for the development of selective sirtuin inhibitors by means of mechanism-based drug design.
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PMID:Inhibition of human sirtuins by in situ generation of an acetylated lysine-ADP-ribose conjugate. 1941 17

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