Effects of chronic fructose overload on renal dopaminergic system: alteration of urinary L-dopa/dopamine index correlates to hypertension and precedes kidney structural damage

Mikusic, Natalia Lucía Rukavina; Kouyoumdzian, Nicolás Martín; Mauro, Julieta S. Del; Cao, Gabriel; Trida, Verónica; Gironacci, Mariela M.; Puyó, Ana María; Toblli, Jorge Eduardo; Fernández, Belisario E.; Choi, Marcelo Roberto

doi:10.1016/j.jnutbio.2017.09.005

Cited by 10 publications

(8 citation statements)

References 195 publications

(259 reference statements)

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“…Taking into account the complex opposing and counter-regulatory interaction between RAS and RDS at renal level, it can be proposed that one of the effects of AT 1 R over-expression and Ang II increased levels would be a reduction of DA production. Supporting this hypothesis, F rats showed an increased urinary L-dopa/DA ratio since week 4, due to a reduction in DA urinary excretion accompanied by an increase in L-dopa urinary excretion, as we have previously reported [27]. In vitro studies from our group have proven that Ang II is able to reduce DA tubular uptake, a process mediated by members of the SLC22A family called OCTs [28].…”

Section: Discussionsupporting

confidence: 79%

Losartan prevents the imbalance between renal dopaminergic and renin angiotensin systems induced by fructose overload. l-Dopa/dopamine index as new potential biomarker of renal dysfunction

et al. 2018

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Section: Discussionsupporting

confidence: 79%

Losartan prevents the imbalance between renal dopaminergic and renin angiotensin systems induced by fructose overload. l-Dopa/dopamine index as new potential biomarker of renal dysfunction

et al. 2018

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“…However, there is the caveat that these much greater amounts of fructose also cause metabolic syndrome, insulin resistance and increase plasma triglycerides [ 61 ]. Additionally, lower amounts of fructose cause hypertension over longer time frames of 8–12 weeks [ 62 , 63 ]. Taken together these results lead us to propose that the blood pressure effects of fructose are proportional to the amount of fructose, salt content of the diet, and time, such that when fructose makes up a high percentage of caloric intake it increases blood pressure in a short period of time even when animals are on normal salt.…”

Section: Discussionmentioning

confidence: 99%

Dietary Fructose Increases the Sensitivity of Proximal Tubules to Angiotensin II in Rats Fed High-Salt Diets

et al. 2018

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Dietary fructose causes salt-sensitive hypertension. Proximal tubules (PTs) reabsorb 70% of the filtered NaCl. Angiotensin II (Ang II), atrial natriuretic peptide (ANP) and norepinephrine (NE) regulate this process. Although Ang II signaling blockade ameliorates fructose-induced salt-sensitive hypertension, basal PT Na+ reabsorption and its sensitivity to the aforementioned factors have not been studied in this model. We hypothesized consuming fructose with a high-salt diet selectively enhances the sensitivity of PT transport to Ang II. We investigated the effects of Ang II, ANP and NE on PT Na reabsorption in rats fed a high-salt diet drinking tap water (HS) or 20% fructose (HS-FRU). Oxygen consumption (QO2) was used as a measure of all ATP-dependent transport processes. Na+/K+-ATPase and Na+/H+-exchange (NHE) activities were studied because they represent primary apical and basolateral transporters in this segment. The effect of 10−12 mol/L Ang II in QO2 by PTs from HS-FRU was larger than HS (p < 0.02; n = 7). In PTs from HS-FRU 10−12 mol/L Ang II stimulated NHE activity by 2.6 ± 0.7 arbitrary fluorescence units/s (p < 0.01; n = 5) but not in those from HS. The stimulatory effect of Ang II on PT Na+/K+-ATPase activity was not affected by HS-FRU. Responses of QO2 and NHE activity to ANP did not differ between groups. The response of QO2 to NE was unaltered by HS-FRU. We concluded that the sensitivity of PT Na+ reabsorption specifically to Ang II is enhanced by HS-FRU. This maintains high rates of transport even in the presence of low concentrations of the peptide, and likely contributes to the hypertension.

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“…In agreement with other reports, this study shows that an F-rich diet increased blood pressure, plasma triglyceride levels, and water intake and decreased food intake. 34,41–43 The absence of body weight gain in animals with F overload has been reported in various experimental works. 34,41 The absence of differences in body weight levels between control and F-overloaded rats could be associated with unchanged caloric intake, which in turn could be due to higher F intake accompanied by a reduction in food intake.…”

Section: Discussionmentioning

confidence: 90%

“…In agreement with other reports, this study shows that an F-rich diet increased blood pressure, plasma triglyceride levels, and water intake and decreased food intake. 34,[41][42][43] The absence of body weight gain in animals with F overload has been reported in various experimental works. 34,41 The absence of differences in body weight levels between control and F-overloaded rats could be associated with unchanged caloric intake, which in turn could be due to higher F intake accompanied by a reduction in food intake.…”

Section: Discussionmentioning

confidence: 92%

“…Finally, the pellets were resuspended with 200 μL of lysis buffer as previously described. 34 Samples of left ventricle containing similar amounts of protein (100 μg protein/lane) were separated by electrophoresis in 8% sodium dodecyl sulfate polyacrylamide gels (Bio-Rad Labs Inc, Hercules, CA) and then transferred into nitrocellulose membranes (Bio-Rad, Munich, Germany). Nonspecific binding was blocked by incubation with 3% non-fat dry milk in 10 mM PBS (pH 7.40) and 0.1% Tween 20 for 1 hour at room temperature.…”

Section: Methodsmentioning

confidence: 99%

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Cardiotoxic Effects of the Antineoplastic Doxorubicin in a Model of Metabolic Syndrome: Oxidative Stress and Transporter Expression in the Heart

Ogonowski

Mikusic

Kouyoumdzian

et al. 2021

Journal of Cardiovascular Pharmacology

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The aim of the present work was to examine whether metabolic syndrome–like conditions in rats with fructose (F) overload modify the cardiotoxic effects induced by doxorubicin (DOX) and whether the treatment altered the expression of P-gp, breast cancer resistance protein, and organic cation/carnitine transporters in the heart. Male Sprague–Dawley rats received either tap water (control group [C]; n = 16) or water with F 10% wt/vol (n = 16) during 8 weeks. Three days before being killed, the animals received a single dose of DOX (6 mg/kg, ip, md) (C-DOX and F-DOX groups) or vehicle (VEH; ISS 1 mL/kg BW; ip) (C-VEH and F-VEH groups) (n = 8 per group). F overload enhanced thiobarbituric acid–reactive substance levels in the left ventricle, and DOX injection further increased those values. DOX did not alter thiobarbituric acid–reactive substance production in C animals. DOX caused a decrease of 30% in the ejection fraction and a nearly 40% reduction in the fractional shortening in F animals, but not in C rats. Cardiac tissue levels of P-gp decreased by about 30% in F rats compared with the C groups. DOX did not modify cardiac P-gp expression. Breast cancer resistance protein and organic cation/carnitine transporter (OCTN 1/2/3) protein levels did not change with either F or DOX. It is suggested that DOX could cause greater cardiotoxicity in rats receiving F, probably due to enhanced cardiac lipid peroxidation and lower expression of cardiac P-gp. These results support the hypothesis that the cardiotoxicity of DOX could be increased under metabolic syndrome–like conditions or in other health disorders that involve cardiovascular risk factors.

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Effects of chronic fructose overload on renal dopaminergic system: alteration of urinary L-dopa/dopamine index correlates to hypertension and precedes kidney structural damage

Cited by 10 publications

References 195 publications

Losartan prevents the imbalance between renal dopaminergic and renin angiotensin systems induced by fructose overload. l-Dopa/dopamine index as new potential biomarker of renal dysfunction

Losartan prevents the imbalance between renal dopaminergic and renin angiotensin systems induced by fructose overload. l-Dopa/dopamine index as new potential biomarker of renal dysfunction

Dietary Fructose Increases the Sensitivity of Proximal Tubules to Angiotensin II in Rats Fed High-Salt Diets

Cardiotoxic Effects of the Antineoplastic Doxorubicin in a Model of Metabolic Syndrome: Oxidative Stress and Transporter Expression in the Heart

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