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1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
2-dihydronicotinamide adenine dinucleotide phosphate + O2
?
-
-
-
?
2-dihydronicotinamide riboside + O2
?
-
-
-
?
6-dihydronicotinamide adenine dinucleotide phosphate + O2
?
-
-
-
?
6-dihydronicotinamide riboside + O2
?
-
-
-
?
alpha-NAD(P)H + H+ + O2
beta-NAD(P)+ + H2O2
alpha-NADH + H+ + O2
beta-NAD+ + H2O2
alpha-NADPH + H+ + O2
beta-NADP+ + H2O2
catecholamine + O2
oxidized catecholamine + H2O2
-
-
-
?
catecholamine + O2
oxidized catecholamine + NH3 + H2O2
-
-
-
?
dopamine + O2
?
-
-
-
-
?
epinephrine + O2
?
-
-
-
-
?
NAD(P)H + H+ + tetrazolium
NAD(P)+ + formazan
-
-
-
?
norepinephrine + O2
?
-
-
-
-
?
additional information
?
-
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
alpha-NAD(P)H + H+ + O2
beta-NAD(P)+ + H2O2
-
renalase is selective for the alpha-anomer, which binds with a dissociation constant of about 20 microM. This association precedes monophasic two-electron reduction of the FAD cofactor with a rate constant of 40.2 per s. The reduced enzyme then delivers both electrons to dioxygen in a second-order reaction with a rate constant of about 2900 per M and s. Renalase has modest affinity for its beta-NADP+ product, and the FAD cofactor has a reduction potential of -155 mV that is unaltered by saturating beta-NADP+. Data suggest that the products are formed and released in a kinetically ordered sequence, first beta-NADP+ then H2O2
-
?
alpha-NAD(P)H + H+ + O2
beta-NAD(P)+ + H2O2
renalase is a protein hormone secreted into the blood by the kidney that is reported to lower blood pressure and slow heart rate
-
-
?
alpha-NAD(P)H + H+ + O2
beta-NAD(P)+ + H2O2
the substrate alpha-dihydropyridyl ring is oxidized by transferring two electrons to the flavin cofactor and the configuration of the ribose C1 is converted from alpha to beta. The reduced FAD cofactor then reoxidizes by reacting with dioxygen to yield hydrogen peroxide
-
-
?
alpha-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
alpha-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
alpha-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
alpha-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
alpha-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
alpha-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
alpha-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
alpha-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
alpha-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
alpha-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
alpha-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
alpha-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
additional information
?
-
renalase has an extremely low diaphorase activity, displaying lower kcat but higher kcat/Km for NADH compared to NADPH
-
-
?
additional information
?
-
-
renalase has an extremely low diaphorase activity, displaying lower kcat but higher kcat/Km for NADH compared to NADPH
-
-
?
additional information
?
-
-
renalase does not catalyze the oxidation of catecholamines
-
-
?
additional information
?
-
renalase exhibits a preference for substrates derived from beta-NAD+ over those derived from beta-NADP+
-
-
?
additional information
?
-
renalase exhibits a preference for substrates derived from beta-NAD+ over those derived from beta-NADP+
-
-
?
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1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
alpha-NAD(P)H + H+ + O2
beta-NAD(P)+ + H2O2
renalase is a protein hormone secreted into the blood by the kidney that is reported to lower blood pressure and slow heart rate
-
-
?
alpha-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
alpha-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
catecholamine + O2
oxidized catecholamine + H2O2
-
-
-
?
dopamine + O2
?
-
-
-
-
?
epinephrine + O2
?
-
-
-
-
?
norepinephrine + O2
?
-
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,2-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADH + H+ + O2
beta-NAD+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
1,6-dihydro-beta-NADPH + H+ + O2
beta-NADP+ + H2O2
-
-
-
-
?
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drug target
high dopamine levels in patients with schizophrenia might be due to low renalase levels. Renalase enzyme levels may play a substantial role in the pathophysiology of schizophrenia. Renalase levels are significantly lower in schizophrenia patients than in the control group, whereas dopamine levels are significantly higher. The epinephrine levels of both groups are similar, while the norepinephrine levels in patients with schizophrenia are significantly lower than those in the control group
malfunction
-
dysregulated extracellular renalase signalling promotes tumour growth
physiological function
renalase is a protein hormone secreted into the blood by the kidney that is reported to lower blood pressure
physiological function
-
renalase knockout mouse model to explore the mechanisms mediating renalase's effect on phosphate excretion. Compared with wild-type mice maintained on a regular diet, knockout mice show decreased serum phosphate and increased urinary phosphate excretion. Both wild-type and knocout mice respond similarly to phosphate restriction by increasing renal catechol-O-methyl transferase COMT-1 activity and markedly decreasing phosphate excretion. Only catechol-O-methyl transferase expression and activity are significantly increased in knockout mice. Urinary dopamine increases by twofold, whereas urinary l-DOPA excretion decreases by twofold in the knockout mouse
physiological function
-
administration of renalase lowers blood pressure and heart rate and also protects cells and organs against ischaemic and toxic injury. Independent of its enzymatic properties, renalase functions as a cytokine that provides protection to cells, tissues and organs by interacting with its receptor to activate protein kinase B, JAK/STAT, and the mitogen-activated protein kinase pathways. Extracellular renalase protects against renal injury, cardiac injury, and acute pancreatitis
physiological function
-
renalase degrades catecholamines contributing to blood pressure control
physiological function
-
renalase participates in the pathophysiological mechanism of cardiac dysfunction by down-regulating the activity of sympathetic nervous system and degrading the level of catecholamines. Renalase is strongly associated with type 1 diabetes, hypertension and ischemic diseases
physiological function
-
renalase protects the cardiomyocytes of Sprague-Dawley rats against ischemia and reperfusion injury by reducing myocardial cell necrosis and apoptosis
physiological function
during transverse aortic constriction-induced heart failure, renalase is directly associated with P38 and extracellular signal-regulated protein kinase 1/2 signaling. Renalase inhibition attenuates the noradrenaline-induced hypertrophic response in vitro or the pressure overload-induced hypertrophic response in vivo. Recombinant renalase protein significantly alleviates pressure overload-induced cardiac failure and is associated with P38 and ERK1/2 signaling
physiological function
genetic deletion of renalase results in more severe disease in murine models of acute pancreatitis, and administering recombinant RNLS to cerulein-exposed wild-type mice after pancreatitis onset is protective. Plasma membrane calcium ATPase 4b is expressed in both murine and human acinar cells and a PMCA4b-selective inhibitor worsens pancreatitis-induced injury and blocks the protective effects of rcombinant RNLS
physiological function
in HK-2 cells, renalase inhibits TGF-1-mediated upregulation of alpha-smooth muscle actin and downregulation of E-cadherin. Increased levels of phospho-extracellular regulated protein kinases (p-ERK1/2) in TGF-1-stimulated cells are reversed by renalase cotreatment. When ERK1 is overexpressed, the inhibition of TGF-1-induced EMT and fibrosis mediated by renalase is attenuated
physiological function
in isolated pancreatic lobules, pretreatment with recombinant human renalase blocks zymogen activation caused by cerulein, carbachol, and a bile acid. Renalase also blocks cerulein-induced cell injury and histological changes. Genetic deletion of renalase results in more severe disease in murine models of acute pancreatitis, and administering recombinant human RNLS to cerulein-exposed wild-type mice after pancreatitis onset is protective
physiological function
in rats with complete unilateral ureteral obstruction, the expression of renalase is markedly downregulated and adenoviral-mediated expression of renalase significantly attenuates renal interstitial fibrosis
physiological function
little to no renalase is detected by histochemistry in the normal pancreatic head in the absence of abdominal trauma. In chronic pancreatitis, renalase immunoreactivity localizes to peri-acinar spindle-shaped cells in some samples and is also widely present in pancreatic ductal adenocarcinoma precursor lesions and pancreatic ductal adenocarcinoma tissue. Among 240 patients with pancreatic ductal adenocarcinoma, elevated plasma renalase levels are associated with worse tumor characteristics, including greater angiolymphatic invasion and greater node positive disease. Overall survival is worse in patients with high plasma renalase levels. Renalase levels also predict whether patients with locally advanced/borderline resectable pancreatic ductal adenocarcinoma undergo resection
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Beaupre, B.A.; Carmichael, B.R.; Hoag, M.R.; Shah, D.D.; Moran, G.R.
Renalase is an alpha-NAD(P)H oxidase/anomerase
J. Am. Chem. Soc.
135
13980-13987
2013
Homo sapiens (Q5VYX0)
brenda
Sizova, D.; Velazquez, H.; Sampaio-Maia, B.; Quelhas-Santos, J.; Pestana, M.; Desir, G.V.
Renalase regulates renal dopamine and phosphate metabolism
Am. J. Physiol. Renal Physiol.
305
F839-F844
2013
Mus musculus
brenda
Beaupre, B.A.; Hoag, M.R.; Carmichael, B.R.; Moran, G.R.
Kinetics and equilibria of the reductive and oxidative half-reactions of human renalase with alpha-NADPH
Biochemistry
52
8929-8937
2013
Homo sapiens (Q5VYX0), Homo sapiens
brenda
Xu, J.; Li, G.; Wang, P.; Velazquez, H.; Yao, X.; Li, Y.; Wu, Y.; Peixoto, A.; Crowley, S.; Desir, G.V.
Renalase is a novel, soluble monoamine oxidase that regulates cardiac function and blood pressure
J. Clin. Invest.
115
1275-1280
2005
Rattus norvegicus (Q5U2W9), Homo sapiens (Q5VYX0), Homo sapiens
brenda
Milani, M.; Ciriello, F.; Baroni, S.; Pandini, V.; Canevari, G.; Bolognesi, M.; Aliverti, A.
FAD-binding site and NADP reactivity in human renalase: a new enzyme involved in blood pressure regulation
J. Mol. Biol.
411
463-473
2011
Homo sapiens (Q5VYX0), Homo sapiens
brenda
Zhou, M.; Liang, T.; Wang, Y.; Jin, D.; Wang, J.; Jia, L.; Zhang, S.
Expression and tissue localization of renalase, a novel soluble FAD-dependent protein, in reproductive/steroidogenic systems
Mol. Biol. Rep.
40
3987-3994
2013
Mus musculus (A7RDN6)
brenda
Quelhas-Santos, J.; Serrao, M.P.; Soares-Silva, I.; Fernandes-Cerqueira, C.; Simoes-Silva, L.; Pinho, M.J.; Remiao, F.; Sampaio-Maia, B.; Desir, G.V.; Pestana, M.
Renalase regulates peripheral and central dopaminergic activities
Am. J. Physiol. Renal Physiol.
308
F84-F91
2015
Mus musculus
brenda
Beaupre, B.A.; Hoag, M.R.; Moran, G.R.
Renalase does not catalyze the oxidation of catecholamines
Arch. Biochem. Biophys.
579
62-66
2015
Homo sapiens
brenda
Beaupre, B.A.; Roman, J.V.; Hoag, M.R.; Meneely, K.M.; Silvaggi, N.R.; Lamb, A.L.; Moran, G.R.
Ligand binding phenomena that pertain to the metabolic function of renalase
Arch. Biochem. Biophys.
612
46-56
2016
Pseudomonas savastanoi pv. phaseolicola (Q48MT7), Pseudomonas savastanoi pv. phaseolicola 1448A (Q48MT7)
brenda
Moran, G.R.; Hoag, M.R.
The enzyme Renalase
Arch. Biochem. Biophys.
632
66-76
2017
Pseudomonas savastanoi (Q48MT7), Homo sapiens (Q5VYX0), Pseudomonas savastanoi 1448A (Q48MT7)
brenda
Severina, I.; Fedchenko, V.; Veselovsky, A.; Medvedev, A.
The history of renalase from amine oxidase to alpha-NAD(P)H-oxidase/anomerase
Biochemistry (Moscow)
10
97-109
2016
Homo sapiens (Q5VYX0)
brenda
Sonawane, P.J.; Gupta, V.; Sasi, B.K.; Kalyani, A.; Natarajan, B.; Khan, A.A.; Sahu, B.S.; Mahapatra, N.R.
Transcriptional regulation of the novel monoamine oxidase renalase Crucial roles of transcription factors Sp1, STAT3, and ZBP89
Biochemistry
53
6878-6892
2014
Homo sapiens
brenda
Hoag, M.R.; Roman, J.; Beaupre, B.A.; Silvaggi, N.R.; Moran, G.R.
Bacterial renalase structure and kinetics of an enzyme with 2- and 6-dihydro-beta-NAD(P) oxidase activity from Pseudomonas phaseolicola
Biochemistry
54
3791-3802
2015
Pseudomonas syringae, Pseudomonas syringae 1448A
brenda
Beaupre, B.A.; Hoag, M.R.; Roman, J.; Foersterling, F.H.; Moran, G.R.
Metabolic function for human renalase oxidation of isomeric forms of beta-NAD(P)H that are inhibitory to primary metabolism
Biochemistry
54
795-806
2015
Homo sapiens
brenda
Moran, G.R.
The catalytic function of renalase A decade of phantoms
Biochim. Biophys. Acta
1864
177-186
2016
Homo sapiens (Q5VYX0), Homo sapiens
brenda
Quelhas-Santos, J.; Soares-Silva, I.; Fernandes-Cerqueira, C.; Simoes-Silva, L.; Ferreira, I.; Carvalho, C.; Coentrao, L.; Vaz, R.; Sampaio-Maia, B.; Pestana, M.
Plasma and urine renalase levels and activity during the recovery of renal function in kidney transplant recipients
Exp. Biol. Med. (Maywood)
239
502-508
2014
Homo sapiens
brenda
Fedchenko, V.I.; Buneeva, O.A.; Kopylov, A.T.; Veselovsky, A.V.; Zgoda, V.G.; Medvedev, A.E.
Human urinary renalase lacks the N-terminal signal peptide crucial for accommodation of its FAD cofactor
Int. J. Biol. Macromol.
78
347-353
2015
Homo sapiens (Q5VYX0), Homo sapiens
brenda
Wang, Y.; Safirstein, R.; Velazquez, H.; Guo, X.J.; Hollander, L.; Chang, J.; Chen, T.M.; Mu, J.J.; Desir, G.V.
Extracellular renalase protects cells and organs by outside-in signalling
J. Cell. Mol. Med.
21
1260-1265
2017
Homo sapiens
brenda
Li, X.; Xie, Z.; Lin, M.; Huang, R.; Liang, Z.; Huang, W.; Jiang, W.
Renalase protects the cardiomyocytes of Sprague-Dawley rats against ischemia and reperfusion injury by reducing myocardial cell necrosis and apoptosis
Kidney Blood Press. Res.
40
215-222
2015
Rattus norvegicus
brenda
Fedchenko, V.; Kopylov, A.; Kozlova, N.; Buneeva, O.; Kaloshin, A.; Zgoda, V.; Medvedev, A.
Renalase secreted by human kidney HEK293T cells lacks its n-terminal peptide implications for putative mechanisms of renalase action
Kidney Blood Press. Res.
41
593-603
2016
Homo sapiens
brenda
Li, X.; Huang, R.; Xie, Z.; Lin, M.; Liang, Z.; Yang, Y.; Jiang, W.
Renalase, a new secretory enzyme Its role in hypertensive-ischemic cardiovascular diseases
Med. Sci. Monit.
20
688-692
2014
Homo sapiens
brenda
Wu, Y.; Quan, C.; Yang, Y.; Liang, Z.; Jiang, W.; Li, X.
Renalase improves pressure overload-induced heart failure in rats by regulating extracellular signal-regulated protein kinase 1/2 signaling
Hypertens. Res.
44
481-488
2021
Rattus norvegicus (Q5U2W9)
brenda
Wu, Y.; Wang, L.; Deng, D.; Zhang, Q.; Liu, W.
Renalase protects against renal fibrosis by inhibiting the activation of the ERK signaling pathways
Int. J. Mol. Sci.
18
855
2017
Rattus norvegicus (Q5U2W9), Homo sapiens (Q5VYX0), Homo sapiens
brenda
Kolodecik, T.R.; Reed, A.M.; Date, K.; Shugrue, C.A.; Patel, V.; Chung, S.L.; Desir, G.V.; Gorelick, F.S.
The serum protein renalase reduces injury in experimental pancreatitis
J. Biol. Chem.
292
21047-21059
2017
Mus musculus (A7RDN6), Homo sapiens (Q5VYX0)
brenda
Catak, Z.; Kocdemir, E.; Ugur, K.; Yardim, M.; Sahin, I.; Kaya, H.; Aydin, S.
A novel biomarker renalase and its relationship with its substrates in schizophrenia
J. Med. Biochem.
38
299-305
2019
Homo sapiens (Q5VYX0), Homo sapiens
brenda
Morrison, C.; Paskaleva, E.; Rios, M.; Beusse, T.; Blair, E.; Lin, L.; Hu, J.; Gorby, A.; Dodds, D.; Armiger, W.; Dordick, J.; Koffas, M.
Improved soluble expression and use of recombinant human renalase
PLoS ONE
15
e0242109
2020
Homo sapiens (Q5VYX0), Homo sapiens
brenda
Gao, Y.; Wang, M.; Guo, X.; Hu, J.; Chen, T.M.; Finn, S.M.B.; Lacy, J.; Kunstman, J.W.; Cha, C.H.; Bellin, M.D.; Robert, M.E.; Desir, G.V.; Gorelick, F.S.
Renalase is a novel tissue and serological biomarker in pancreatic ductal adenocarcinoma
PLoS ONE
16
e0250539
2021
Homo sapiens (Q5VYX0)
brenda