Günnur Koçer1, Filiz Basralı2, Oktay Kuru3, Ümit Kemal Şentürk2. 1. Department of Physiology, Near East University, Medical Faculty, Nicosia, Cyprus. 2. Department of Physiology, Akdeniz University, Medical Faculty, Antalya, Turkey. 3. Department of Physical Therapy and Rehabilitation, Muğla Sıtkı Koçman University, Faculty of Health Sciences, Muğla, Turkey.
Abstract
BACKGROUND/AIMS: Temporary proteinuria post-exercise is common and is caused predominantly by renal haemodynamic alterations. One reason is up-regulation of angiotensin II (Ang II) due to the reducing effect of angiotensin-converting enzyme (ACE) inhibitors. However, another, ignored, reason could be the kininase effect of ACE inhibition. This study investigated how ACE inhibition reduces post-exercise proteinuria: by either Ang II up-regulation inhibition or bradykinin elevation due to kininase activity inhibition. METHODS: Our study included 10 volunteers, who completed 3 high-intensity exercise protocols involving cycling at 1-week intervals. The first protocol was a control arm, the second evaluated the effect of ACE inhibition and the third examined the effect of angiotensin type 1 receptor blockade. Upon application, both agents reduced systolic and diastolic blood pressure; however, there were no statistically significant -differences. In addition, total protein, microalbumin and -β2-microglobulin excretion levels in urine specimens were analysed before, 30 min after and 120 min after the exercise protocols. RESULTS: Total protein levels in urine samples were elevated in all 3 protocols after 30 min of high-intensity exercise, compared to baseline levels. However, both ACE inhibition and angiotensin type 1 receptor blockade suppressed total protein in the 30th min. In each protocol, total protein levels returned to the baseline after 120 min. Urinary microalbumin and β2-microglobulin levels during the control protocol were significantly higher 30 min post-exercise; however, only angiotensin type 1 receptor blockade suppressed microalbumin levels. CONCLUSION: The results indicated Ang II up-regulation, not bradykinin elevation, plays a role in post-exercise proteinuria.
BACKGROUND/AIMS: Temporary proteinuria post-exercise is common and is caused predominantly by renal haemodynamic alterations. One reason is up-regulation of angiotensin II (Ang II) due to the reducing effect of angiotensin-converting enzyme (ACE) inhibitors. However, another, ignored, reason could be the kininase effect of ACE inhibition. This study investigated how ACE inhibition reduces post-exercise proteinuria: by either Ang II up-regulation inhibition or bradykinin elevation due to kininase activity inhibition. METHODS: Our study included 10 volunteers, who completed 3 high-intensity exercise protocols involving cycling at 1-week intervals. The first protocol was a control arm, the second evaluated the effect of ACE inhibition and the third examined the effect of angiotensin type 1 receptor blockade. Upon application, both agents reduced systolic and diastolic blood pressure; however, there were no statistically significant -differences. In addition, total protein, microalbumin and -β2-microglobulin excretion levels in urine specimens were analysed before, 30 min after and 120 min after the exercise protocols. RESULTS: Total protein levels in urine samples were elevated in all 3 protocols after 30 min of high-intensity exercise, compared to baseline levels. However, both ACE inhibition and angiotensin type 1 receptor blockade suppressed total protein in the 30th min. In each protocol, total protein levels returned to the baseline after 120 min. Urinary microalbumin and β2-microglobulin levels during the control protocol were significantly higher 30 min post-exercise; however, only angiotensin type 1 receptor blockade suppressed microalbumin levels. CONCLUSION: The results indicated Ang II up-regulation, not bradykinin elevation, plays a role in post-exercise proteinuria.
Authors: Wojciech Wołyniec; Wojciech Ratkowski; Katarzyna Kasprowicz; Sylwia Małgorzewicz; Ewa Aleksandrowicz; Tomasz Zdrojewski; Łukasz Wierucki; Aleksandra Puch-Walczak; Piotr Żmijewski; Marcin Renke Journal: Biol Sport Date: 2019-12-01 Impact factor: 2.806