Diabetes and Hypertension Differentially Affect Renal Catecholamines and Renal Reactive Oxygen Species

Diabetes and Hypertension Differentially Affect Renal Catecholamines and Renal Reactive Oxygen Species

Patients with diabetic hypertensive nephropathy have accelerated disease progression. Diabetes and hypertension have both been associated with changes in renal catecholamines and reactive oxygen species. With a specific focus on renal catecholamines and oxidative stress we examined a combined model...

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Main Authors: Anna M. D. Watson, Eleanor A. M. Gould, Sally A. Penfold, Gavin W. Lambert, Putra Riza Pratama, Aozhi Dai, Stephen P. Gray, Geoffrey A. Head, Karin A. Jandeleit-Dahm
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-04-01
Series:Frontiers in Physiology
Subjects:
hypertension
diabetes
nephropathy
animal model
oxidative stress
catecholamines
Online Access:https://www.frontiersin.org/article/10.3389/fphys.2019.00309/full
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spelling doaj-23f04488b8df493f835c8fe53cf5ddba2020-11-25T00:34:25ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2019-04-011010.3389/fphys.2019.00309438510Diabetes and Hypertension Differentially Affect Renal Catecholamines and Renal Reactive Oxygen SpeciesAnna M. D. Watson0Anna M. D. Watson1Eleanor A. M. Gould2Sally A. Penfold3Gavin W. Lambert4Gavin W. Lambert5Putra Riza Pratama6Aozhi Dai7Stephen P. Gray8Geoffrey A. Head9Karin A. Jandeleit-Dahm10Karin A. Jandeleit-Dahm11Department of Diabetes, Central Clinical School, Faculty of Medicine, Nursing and Health Sciences, Monash University, Melbourne, VIC, AustraliaBaker Heart and Diabetes Institute, Melbourne, VIC, AustraliaBaker Heart and Diabetes Institute, Melbourne, VIC, AustraliaBaker Heart and Diabetes Institute, Melbourne, VIC, AustraliaBaker Heart and Diabetes Institute, Melbourne, VIC, AustraliaIverson Health Innovation Research Institute, Faculty of Health, Arts and Design, Swinburne University of Technology, Hawthorn, VIC, AustraliaBaker Heart and Diabetes Institute, Melbourne, VIC, AustraliaDepartment of Diabetes, Central Clinical School, Faculty of Medicine, Nursing and Health Sciences, Monash University, Melbourne, VIC, AustraliaBaker Heart and Diabetes Institute, Melbourne, VIC, AustraliaBaker Heart and Diabetes Institute, Melbourne, VIC, AustraliaDepartment of Diabetes, Central Clinical School, Faculty of Medicine, Nursing and Health Sciences, Monash University, Melbourne, VIC, AustraliaBaker Heart and Diabetes Institute, Melbourne, VIC, AustraliaPatients with diabetic hypertensive nephropathy have accelerated disease progression. Diabetes and hypertension have both been associated with changes in renal catecholamines and reactive oxygen species. With a specific focus on renal catecholamines and oxidative stress we examined a combined model of hypertension and diabetes using normotensive BPN/3J and hypertensive BPH/2J Schlager mice. Induction of diabetes (5 × 55 mg/kg streptozotocin i.p.) did not change the hypertensive status of BPH/2J mice (telemetric 24 h avg. MAP, non-diabetic 131 ± 2 vs. diabetic 129 ± 1 mmHg, n.s at 9 weeks of study). Diabetes-associated albuminuria was higher in BPH/2J vs. diabetic BPN/3J (1205 + 196/-169 versus 496 + 67/-59 μg/24 h, p = 0.008). HPLC measurement of renal cortical norepinephrine and dopamine showed significantly greater levels in hypertensive mice whilst diabetes was associated with significantly lower catecholamine levels. Diabetic BPH/2J also had greater renal catecholamine levels than diabetic BPN/3J (diabetic: norepinephrine BPN/3J 40 ± 4, BPH/2J 91 ± 5, p = 0.010; dopamine: BPN/3J 2 ± 1; BPH/2J 3 ± 1 ng/mg total protein, p < 0.001 after 10 weeks of study). Diabetic BPH/2J showed greater cortical tubular immunostaining for monoamine oxidase A and cortical mitochondrial hydrogen peroxide formation was greater in both diabetic and non-diabetic BPH/2J. While cytosolic catalase activity was greater in non-diabetic BPH/2J it was significantly lower in diabetic BPH/2J (cytosolic: BPH/2J 127 ± 12 vs. 63 ± 6 nmol/min/ml, p < 0.001). We conclude that greater levels of renal norepinephrine and dopamine associated with hypertension, together with diabetes-associated compromised anti-oxidant systems, contribute to increased renal oxidative stress in diabetes and hypertension. Elevations in renal cortical catecholamines and reactive oxygen species have important therapeutic implications for hypertensive diabetic patients.https://www.frontiersin.org/article/10.3389/fphys.2019.00309/fullhypertensiondiabetesnephropathyanimal modeloxidative stresscatecholamines
collection DOAJ
language English
format Article
sources DOAJ
author Anna M. D. Watson
Anna M. D. Watson
Eleanor A. M. Gould
Sally A. Penfold
Gavin W. Lambert
Gavin W. Lambert
Putra Riza Pratama
Aozhi Dai
Stephen P. Gray
Geoffrey A. Head
Karin A. Jandeleit-Dahm
Karin A. Jandeleit-Dahm
spellingShingle Anna M. D. Watson
Anna M. D. Watson
Eleanor A. M. Gould
Sally A. Penfold
Gavin W. Lambert
Gavin W. Lambert
Putra Riza Pratama
Aozhi Dai
Stephen P. Gray
Geoffrey A. Head
Karin A. Jandeleit-Dahm
Karin A. Jandeleit-Dahm
Diabetes and Hypertension Differentially Affect Renal Catecholamines and Renal Reactive Oxygen Species
Frontiers in Physiology
hypertension
diabetes
nephropathy
animal model
oxidative stress
catecholamines
author_facet Anna M. D. Watson
Anna M. D. Watson
Eleanor A. M. Gould
Sally A. Penfold
Gavin W. Lambert
Gavin W. Lambert
Putra Riza Pratama
Aozhi Dai
Stephen P. Gray
Geoffrey A. Head
Karin A. Jandeleit-Dahm
Karin A. Jandeleit-Dahm
author_sort Anna M. D. Watson
title Diabetes and Hypertension Differentially Affect Renal Catecholamines and Renal Reactive Oxygen Species
title_short Diabetes and Hypertension Differentially Affect Renal Catecholamines and Renal Reactive Oxygen Species
title_full Diabetes and Hypertension Differentially Affect Renal Catecholamines and Renal Reactive Oxygen Species
title_fullStr Diabetes and Hypertension Differentially Affect Renal Catecholamines and Renal Reactive Oxygen Species
title_full_unstemmed Diabetes and Hypertension Differentially Affect Renal Catecholamines and Renal Reactive Oxygen Species
title_sort diabetes and hypertension differentially affect renal catecholamines and renal reactive oxygen species
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2019-04-01
description Patients with diabetic hypertensive nephropathy have accelerated disease progression. Diabetes and hypertension have both been associated with changes in renal catecholamines and reactive oxygen species. With a specific focus on renal catecholamines and oxidative stress we examined a combined model of hypertension and diabetes using normotensive BPN/3J and hypertensive BPH/2J Schlager mice. Induction of diabetes (5 × 55 mg/kg streptozotocin i.p.) did not change the hypertensive status of BPH/2J mice (telemetric 24 h avg. MAP, non-diabetic 131 ± 2 vs. diabetic 129 ± 1 mmHg, n.s at 9 weeks of study). Diabetes-associated albuminuria was higher in BPH/2J vs. diabetic BPN/3J (1205 + 196/-169 versus 496 + 67/-59 μg/24 h, p = 0.008). HPLC measurement of renal cortical norepinephrine and dopamine showed significantly greater levels in hypertensive mice whilst diabetes was associated with significantly lower catecholamine levels. Diabetic BPH/2J also had greater renal catecholamine levels than diabetic BPN/3J (diabetic: norepinephrine BPN/3J 40 ± 4, BPH/2J 91 ± 5, p = 0.010; dopamine: BPN/3J 2 ± 1; BPH/2J 3 ± 1 ng/mg total protein, p < 0.001 after 10 weeks of study). Diabetic BPH/2J showed greater cortical tubular immunostaining for monoamine oxidase A and cortical mitochondrial hydrogen peroxide formation was greater in both diabetic and non-diabetic BPH/2J. While cytosolic catalase activity was greater in non-diabetic BPH/2J it was significantly lower in diabetic BPH/2J (cytosolic: BPH/2J 127 ± 12 vs. 63 ± 6 nmol/min/ml, p < 0.001). We conclude that greater levels of renal norepinephrine and dopamine associated with hypertension, together with diabetes-associated compromised anti-oxidant systems, contribute to increased renal oxidative stress in diabetes and hypertension. Elevations in renal cortical catecholamines and reactive oxygen species have important therapeutic implications for hypertensive diabetic patients.
topic hypertension
diabetes
nephropathy
animal model
oxidative stress
catecholamines
url https://www.frontiersin.org/article/10.3389/fphys.2019.00309/full
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