Abstract
Background
Hypertension in elderly patients is one of the main problems in cardiovascular diseases. The sympathetic nervous system hyperactivity seen in older patients is a known risk factor for hypertension and other cardiovascular events as well as chronic kidney disease. Renalase, secreted by the kidney and circulated in blood, may regulate the sympathetic tone by catecholamine degradation and in this way has an impact on cardiovascular and renal complications.
Objective
To assess the impact of age on renalase and catecholamine concentration in hypertensive patients, including those on dialyses and its possible relation to blood pressure control and cardiovascular disease.
Methods
The study cohort of 211 patients was divided into two groups according to age below 65 years (range 19–64) and above 65 years (range 65–86). The older group represented 38% of the whole studied population and 75% of them were dialyzed. The two groups of different ages were also divided into dialysis and nondialysis subgroups. The serum renalase, dopamine, and norepinephrine concentration together with blood pressure value and echocardiography were assessed.
Results
Patients aged 65 years and more had higher renalase (20.59 vs 13.14 µg/mL, P=0.02) and dopamine (41.71 vs 15.46 pg/mL, P<0.001) concentration as well as lower diastolic blood pressure (75.33 vs 85 mmHg, P=0.001), advanced abnormalities in echocardiography, and more often suffered from diabetes and coronary artery disease. The significant correlation between age and renalase (r=0.16; P=0.019), norepinephrine (r=0.179; P=0.013), and dopamine (r=0.21; P=0.003) was found in the whole study population. In the nondialysis subgroup, 44% had chronic kidney disease, mostly in the stage 2 (83%). There was a significantly higher norepinephrine concentration (1.21 vs 0.87 ng/mL; P=0.008) in older patients of that population. In the dialysis subgroup, there were no differences between renalase and catecholamine level but older participants had lower diastolic blood pressure (69 vs 78 mmHg, P=0.001) and ejection fraction (51% vs 56.8%, P=0.03).
Conclusion
The elevated renalase level in older hypertensive patients is related rather to kidney function and cardiovascular diseases than to age itself. Thus, renalase appears to be the possible new marker of these indications in this special population.
Introduction
The world population is increasingly aging. Hypertension in elderly patients is one of the main problems in cardiovascular diseases (CVDs).Citation1 Older hypertensive adults experience cardiovascular events at a rate two to three times greater than the younger with the same blood pressure (BP) values.Citation2 According to recent data, patients aged over 65 years more often suffer from chronic kidney disease (CKD).Citation3 CKD as well as older age is characterized by elevated sympathetic nerves system activity, which correlates with increased vascular resistance and systemic BP and leads to CVD. Sympathetic nerves system overactivity in renal patients also aggravates kidney failure progression.Citation4–Citation6
The year 2005 brought the discovery of renalase – a protein, released by kidney, which may take part in the catecholamines degradation and result hemodynamic effect.Citation7 Renalase infusion in rats caused a dose-dependent decrease in cardiac contraction, heart rate, and BP and prevented a compensatory increase in peripheral vascular tone. Using the Western blot test, the researchers from Yale School of Medicine showed serum renalase deficiency in patients with CKD treated with hemodialysis (HD) compared to healthy individuals.Citation8 Renalase deficiency was also found in rats subjected to subtotal nephrectomy.Citation9 A recent animal study proved the protective renalase role in the progression of cardiorenal syndrome.Citation10 On the other hand, clinical studies using the enzyme-linked immunosorbent assay (ELISA) test showed a higher renalase level in patients with CKD and kidney transplant recipients compared to healthy volunteers.Citation11–Citation16 Some of the genetic studies confirmed the connection between renalase and hypertension as well as CVDs.Citation17–Citation19 But, there are also the opposite investigations.Citation20,Citation21
The aim of our study was to assess, for the very first time, the age influence on renalase and catecholamine concentration in hypertensive patients, including maintained dialysis, and to find out if the suspected impact depends on BP control and CVD.
Methods
We involved in the study 211 patients with hypertension (53% male) in the mean age of 58 years (19–86), including maintained HD and peritoneal dialysis (PD) (mean time on renal replacement therapy – 27 months). Patients were recruited from the Hypertension Outpatient Unit (HT) and the Dialysis Center in Bialystok, Poland, from November 2011 to January 2013. The inclusion criteria contained the diagnosis of hypertension made according to medical records or the fact of hypotension therapy. All patients without the history of hypertension were excluded. The study cohort was divided into two groups – according to age below 65 years (range 19–64) and above 65 years (range 65–86). The two groups of different age were also divided into dialysis and nondialysis subgroups. The serum renalase, dopamine, and norepinephrine concentration were assessed as well as BP rate, body mass index, laboratory tests, and echocardiography.
All patients were informed about the aim of the study and provided written informed consent. The study was approved by the Medical University Ethic Committee. The clinical trial registration number is: R-I-002/238/2011. BP was measured in the HD group – before and after HD session and in HT and PD patients – during routine ambulatory control, in the sitting position using automatic manometer. The arithmetic average of three measurements taken in the different days was used in the analysis. The well-controlled BP was assessed according to European Society of Cardiology/European Society of Hypertension and Kidney Disease Outcomes Quality Initiative guideline as lower than 140/90 mmHg in HT and PD patients and in HD patients before HD session and lower than 130/80 mmHg after that.Citation22–Citation24 Body mass index was calculated according to the dry weight. The kind of hypotensive drugs was collected from the individual prescription cards. The blood for the estimation of the renalase, catecholamine concentration, and laboratory tests was taken once, in the HT and PD groups – while routine ambulatory visit and in HD group – before the HD session in the middle of three dialysis sessions (when also BP, heart rate, and weight were assessed). The ELISA kit made by Uscn Life Science Inc. China, using a monoclonal antibody specific to renalase, was taken to assess renalase level. The same method was used to assess catecholamine level – Noradrenaline ELISA kit and Dopamine ELISA kit – both made by Labor Diagnostica Nord GmbH & Co. KG, Germany. Laboratory tests were estimated using standard methods in the central laboratory.
Statistical analysis
The data were analyzed using Statistica 10 computer software (Tulsa, OK, USA). The examination of the distribution normality was done using the Shapiro–Wilk test. The comparison of two groups was done with the use of Student’s t-test or Mann–Whitney U-test. Data normally distributed are reported as mean ± standard deviation, and nonnormally distributed measurements are presented as median and minimal–maximal value. Spearman correlation was used to show the relationship of two continuous variables. P<0.05 was considered statistically significant.
Results
The clinical and biochemical data of the studied population are presented in . The older group contained 38% of studied patients and 75% of them were treated with dialysis. They had a significantly higher renalase (20.59 vs 13.14 µg/mL, P=0.02) and dopamine (41.71 vs 15.46 pg/mL, P<0.001) concentration (). Patients aged 65 years and more also had lower diastolic BP (75.33 vs 85 mmHg, P=0.001), advanced abnormalities in echocardiography, such as higher interventricular septum diameter (1.2 vs 1.1 mm, P=0.03) and less ejection fraction rate (56% vs 62%, P<0.001), and more often suffered from diabetes and coronary artery disease. The main used hypotensive drugs in the whole studied cohort were beta-blockers. The older group used more calcium-channel blockers than angiotensin converting enzyme inhibitors. There were no differences between renalase and catecholamine concentration according to the kind of hypotension drugs. A significant correlation between age and the concentration of renalase (r=0.16; P=0.019) (), norepinephrine (r=0.179; P=0.013), and dopamine (r=0.21; P=0.003) was found in the whole studied population. In the nondialysis subgroup, 44% had CKD, mostly in stage 2 (83%). There was a significantly higher norepinephrine concentration (1.21 vs 0.87 ng/mL; P=0.008) in older patients of this population. In the dialysis subgroup, there were no differences between renalase and catecholamine level but older people had lower diastolic BP (69 vs 78 mmHg, P=0.001) and ejection fraction (51% vs 56.8%, P=0.03). No correlation between renalase and echocardiography parameters was found in the whole study population or subgroups.
Table 1 Clinical characteristic of the study population
Table 2 Renalase and catecholamine concentration in the study population
Figure 1 The correlation between age and renalase in the study population.
Discussion
Elderly patients compromise the most rapidly growing segment of the US and Europe population and hypertension is highly prevalent among them. According to the study of Egan et al,Citation25 two-thirds of older patients suffered from it. Older hypertensive adults experience cardiovascular events at a rate two to three times greater than younger patients with the same BP values.Citation1 In the face of antihypertensive treatment benefits in older population, the knowledge of the pathogenesis of hypertension and CVD in elderly is crucial. It is a multifactorial process and one of them is the hyperactivity of sympathetic nervous system. Plasma norepinephrine concentration in older males is ~66% higher than that observed in the younger due to a significant reduction in norepinephrine clearance from plasma and also an increased sympathetic discharge directed to different organs.Citation2 On the other hand, the prevalence of CKD is also fast rising and is highest (up to 38%) in patients older than 65 years, which was also confirmed in our study population.Citation3,Citation26 Aging itself is well known to be associated with a progressive decline in kidney reserve. It was found that 30% of glomeruli were obsolete because of sclerosis in clinically healthy individuals by age 75.Citation27 CKD is also associated with the hyperactivity of sympathetic nerve system which causes the increase of vascular resistance and systemic BP and then leads to CVD.Citation4 In our research, the older group more often suffered from end-stage kidney disease and coronary artery disease.
Approximately 10 years ago, a new protein, named renalase, released by the kidney and regulated BP, was discovered.Citation7 It was suggested that renalase is a flavin adenine dinucleotide-dependent amine oxidase, which specifically metabolizes catecholamines, with dopamine being the preferred substrate, followed by epinephrine, and then norepinephrine. But the later study by Desir et alCitation8 on 5/6 nephrectomized rats, using in vitro enzymatic assays and in vivo administration of recombinant renalase, showed that it acts as an NADH (the reduced form of nicotinamide adenine dinucleotide)-dependent oxidase that lowers BP by degrading plasma epinephrine. In addition, its enzymatic activity was unaffected by known inhibitors of the flavin adenine dinucleotide-containing amine oxidases, monoamine oxidase-A and monoamine oxidase-B.Citation28 The role of renalase in the developing of hypertension and other cardiovascular complications became an interesting topic of animal experiments as well as several human studies. An interesting study was made by Gu et alCitation29 on the model of heart failure in rats (ligation of the left anterior descending coronary artery-LAD), which showed that renal renalase expression increased and reached a peak at 1-week post-LAD ligation, gradually decreasing in weeks 3 and 4. They proposed that the kidney might synthesize and secrete more renalase to compensate for the increased catecholamine levels in the early phase of acute myocardial infarction in the animal model. The recent study of Yin et alCitation30 made on Sprague–Dawley rats indicated that renalase protected against renal injury and cardiac remodeling after subtotal nephrectomy. The authors concluded that renalase may act as a therapeutic target for the prevention and treatment of cardiorenal syndrome in patients with CKD. Then, in a recent study performed in patients with essential hypertension, the concentrations of renalase, dopamine, and noradrenaline were evaluated compared to healthy individuals and correlated with kidney function.Citation31 What is more interesting, it was higher in patients with improper BP control and in those with coronary artery disease and correlated with decreased ejection fraction. However, in a recent study, left ventricular mass index was not related to renalase in the population of 50 hemodialyzed patients. The authors concluded that this correlation may be significant in studies with more patient numbers.Citation32 Similarly, we indicated no correlation of renalase with echocardiography parameters of left ventricular hyperthrophy or ejection fraction in our cohort.
There are also genetic studies which evaluate the relationship between renalase and hypertension and CVDs. In one of them, a strong association of the renalase gen polymorphism with stroke in hypertensive patients with and without diabetes was found.Citation18 Stec et alCitation19 found that renalase gen polymorphism was associated with a higher risk of hypertension in patients with CKD-maintained dialysis. In the most recent meta-analysis, Lv et alCitation33 reported that renalase gene rs2296545 polymorphism is significantly associated with an increased risk of hypertension, whereas rs2576178 polymorphism may not be associated with the susceptibility to hypertension. On the other hand, the result of the recent study of Kiseljakovic et alCitation20 suggested that renalase gene polymorphism was not a factor that influenced BP in patients on HD. It appears that associations between renalase gene polymorphism and hypertension are still unclear as well as between renalase and CVD.Citation34
As the time passed by, more clinical studies using commercially available assays demonstrated that the renalase level was related to the kidney function in just the opposite manner as would be expected from the landmark research of Xu et al.Citation7,Citation11–Citation16,Citation35,Citation36 In PD as well as in HD patients, renalase was related to residual renal function.Citation12,Citation13 Surprisingly, the Western blot analysis performed in patients after bilateral nephrectomy showed contradictory results to the Xu et alCitation11 data of the highest renalase level in this group. Gluba-Brzozka et alCitation37 found a higher renalase concentration in patients with early stages of CKD than in the control group and supported the previous findings on the relation between renalase and kidney function. In a recent study of Oguz et al,Citation32 it was also found that renalase was significantly higher in hemodialyzed patients in comparison with the control group. What is also interesting, in kidney transplant recipients, renalase was also dependent on kidney function as well as after heart transplantation. In a recent study of renal transplant recipients with stable graft function, renalase was shown to be a strong predictor of decreased glomerular filtration rate and was significantly higher in the group of patients on cyclosporine, known for the possibility of hypertension and kidney injury developing.Citation38 On the other hand, in patients with heart failure due to coronary artery disease or dilated cardiomyopathy, serum renalase level was significantly higher compared to the healthy volunteers. Positive correlation was found between serum renalase and serum creatinine and age. To our knowledge, there are no available data considering renalase and catecholamines in older patients. Our research demonstrated the higher renalase concentrations in older patients with hypertension compared to the younger. It was connected with advanced heart complications and the prevalence of coronary artery disease, which were more often found in older patients. The statistical analysis of correlations revealed the positive one of renalase and age. Approximately 75% of the older group had CKD and required dialysis. Interestingly, when we divided the whole study cohort according to maintained dialysis, we found no differences of renalase concentration in patients of different ages in the dialysis and nondialysis subgroups. Older hypertensive persons are a special part of the world population. They are at a higher risk of the development of cardiovascular and CKDs, the disorders strongly associated with an elevated renalase level. According to previous and our current findings, renalase appears to be the possible new marker of the risk of cardiovascular complications and CKD development in older hypertensive patients.
Conclusion
The elevated renalase level in older hypertensive patients is related rather to kidney function and CVDs than to age itself. Thus, renalase appears to be the possible new marker of these in this special population.
Disclosure
The authors report no conflicts of interest in this work.
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