EC:3.4.23.15 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mammalian AP-endonuclease (APE1/Ref-1) plays a central role in the repair of oxidized and alkylated bases in mammalian genomes via the base excision repair (BER) pathway. However, APE1, unlike its E. coli prototype Xth, has two unique and apparently distinct transcriptional regulatory activities. APE1 functions as a redox effector factor (Ref-1) for several transcription factors including AP-1, HIF1-alpha, and p53. APE1 was also identified as a direct trans-acting factor for repressing human parathyroid hormone (PTH) and renin genes by binding to the negative calcium-response element (nCaRE) in their promoters. We have characterized APE1's post-translational modification, namely, acetylation which modulates its transcriptional regulatory function. Furthermore, stable interaction of APE1 with several other trans-acting factors including HIF-1alpha, STAT3, YB-1, HDAC1, and CBP/p300 and formation of distinct trans-acting complexes support APE1's direct regulatory function for diverse genes. Multiple functions of mammalian APE1, both in DNA repair and gene regulation, warrant extensive analysis of its own regulation and dissection of the mechanisms. In this review, we have discussed APE1's own regulation and its role as a transcriptional coactivator or corepressor by both redox-dependent and redox-independent (acetylation-mediated) mechanisms, and explore the potential utility of targeting these functions for enhancing drug sensitivity of cancer cells.
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PMID:Transcriptional regulatory functions of mammalian AP-endonuclease (APE1/Ref-1), an essential multifunctional protein. 1871 44

HIV (human immunodeficiency virus) has been reported to induce podocyte injury through down regulation of vitamin D receptor (VDR) and activation of renin angiotensin system; however, the involved mechanism is not clear. Since HIV has been reported to modulate gene expression via epigenetic phenomena, we asked whether epigenetic factors contribute to down regulation of VDR. Kidney cells in HIV transgenic mice and HIV-infected podocytes (HIV/HPs) displayed enhanced expression of SNAIL, a repressor of VDR. To elucidate the mechanism, we studied the effect of HIV on expression of molecules involved in SNAIL repressor complex formation and demonstrated that HIV enhances expression of the histone deacetylase HDAC1 and DNA methyl transferases DNMT3b and DNMT1. 293T cells, when stably transfected with SNAIL (SNAIL/293T), displayed suppressed transcription and translation of VDR. In SNAIL/293T cells, co-immunoprecipitation studies revealed the association of HDAC1, DNMT3b, DNMT1, and mSin3A with SNAIL. Chromatin immunoprecipitation experiments confirmed the presence of the SNAIL repressor complex at the VDR promoter. Consistent with the enhanced DNA methyl transferase expression in HIV/HPs, there was an increased CpG methylation at the VDR promoter. Chromatin immunoprecipitation assay confirmed occurrence of H3K4 trimethylation on SNAIL promoter. Neither a VDR agonist (VDA) nor an HDAC inhibitor (HDACI) nor a demethylating agent (DAC) individually could optimally up regulate VDR in HIV milieu. However, VDA and HDACI when combined were successful in de-repressing VDR expression. Our findings demonstrate that SNAIL recruits multiple chromatin enzymes to form a repressor complex in HIV milieu that down regulates VDR expression.
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PMID:Epigenetic Modulation of Human Podocyte Vitamin D Receptor in HIV Milieu. 2621 Jun 63

Various stresses on the heart, such as myocardial infarction and hemodynamic overload, activate the sympathetic nervous system and the renin-angiotensin system, ultimately reach the nuclei of cardiomyocytes, and change the pattern of gene expression associated with cardiac hypertrophy. Although present pharmacological therapy for heart failure targets such extracellular molecules, mortality due to heart failure is still high. A zinc finger protein, GATA4, is one of the hypertrophy-responsive transcription factors, forms a functional protein complex with an intrinsic histone acetyltransferase, p300, and regulates pathological cardiac hypertrophy. Disruption of this complex results in the inhibition of cardiac hypertrophy and heart failure in vivo. To establish a more effective therapy for heart failure, we have been analyzing a common nuclear pathway within cardiomyocytes. We identified 73 GATA4 binding proteins by tandem-affinity purification and mass spectrometric analysis. Noble GATA4 binding partners, such as cyclin-dependent kinase-9 (Cdk9: the core factor of positive transcription elongation factor b) and retinoblastoma-association protein 48/46 (RbAp48/46: the co-repressor complexes containing HDAC1/2), regulate the p300/GATA4-mediated signaling pathway and hypertrophic responses. Further analysis of p300/GATA4 complex is expected to identify target molecules for heart failure therapy.
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PMID:[Functional Analysis of GATA4 Complex, a Cardiac Hypertrophy-response Transcriptional Factor, Using a Proteomics Approach]. 2683 85

ACE2 was observed as the cell surface receptor of the SARS-CoV-2 virus. Interestingly, we also found ACE2 positivity inside the cell nucleus. The ACE2 levels changed during cell differentiation and aging and varied in distinct cell types. We observed ACE2 depletion in the aortas of aging female mice, similarly, the aging caused ACE2 decrease in the kidneys. Compared with that in the heart, brain and kidneys, the ACE2 level was the lowest in the mouse lungs. In mice exposed to nicotine, ACE2 was not changed in olfactory bulbs but in the lungs, ACE2 was upregulated in females and downregulated in males. These observations indicate the distinct gender-dependent properties of ACE2. Differentiation into enterocytes, and cardiomyocytes, caused ACE2 depletion. The cardiomyogenesis was accompanied by renin upregulation, delayed in HDAC1-depleted cells. In contrast, vitamin D2 decreased the renin level while ACE2 was upregulated. Together, the ACE2 level is high in non-differentiated cells. This protein is more abundant in the tissues of mouse embryos and young mice in comparison with older animals. Mostly, downregulation of ACE2 is accompanied by renin upregulation. Thus, the pathophysiology of COVID-19 disease should be further studied not only by considering the ACE2 level but also the whole renin-angiotensin system.
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PMID:Cell differentiation and aging accompanied by depletion of the ACE2 protein. 3320 93