Resistance training and L-arginine supplementation are determinant in genomic stability, cardiac contractility and muscle mass development in rats.
L-arginine supplementation has been related to increased maximum strength and improvement of hemodynamic parameters in several diseases. The aim of our study was to evaluate the effect of L-arginine supplementation and resistance training on muscle mass, hemodynamic function and DNA damage in health...
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2018-01-01
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| Series: | PLoS ONE |
| Online Access: | http://europepmc.org/articles/PMC6160175?pdf=render |
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doaj-202d47a2278940438f8967e4b2aac6fe2020-11-25T01:24:59ZengPublic Library of Science (PLoS)PLoS ONE1932-62032018-01-01139e020485810.1371/journal.pone.0204858Resistance training and L-arginine supplementation are determinant in genomic stability, cardiac contractility and muscle mass development in rats.Giuseppe Potrick StefaniBruna MarmettJadson Pereira AlvesGabriella Berwig MöllerThiago Gomes HeckMatias Nunes FrizzoMarlise Di DomenicoGabriela Almeida MottaPedro Dal LagoRamiro Barcos NunesCláudia Ramos RhodenL-arginine supplementation has been related to increased maximum strength and improvement of hemodynamic parameters in several diseases. The aim of our study was to evaluate the effect of L-arginine supplementation and resistance training on muscle mass, hemodynamic function and DNA damage in healthy rats subjected to a low-arginine concentration diet. Twenty three Wistar rats (290-320g) were divided into 4 groups: Sedentary (SED-Arg, n = 6), Sedentary+Arg (SED+Arg, n = 6), Resistance Training (RT-Arg, n = 5), Resistance Training+Arg (RT+Arg, n = 6). Trained animals performed resistance training protocol in a squat apparatus adapted for rats (4 sets of 10-12 repetitions, 90s of interval, 4x/week, 65-75% of One Maximum Repetition, for 8 weeks). Comet assay was performed to measure DNA damage in leukocytes. The resistance training induced higher muscle mass in trained groups. The L-arginine supplementation increased both gastrocnemius and left ventricle to body mass ratio and increased left ventricle contractility without changing hemodynamic variables. The SED+Arg group showed higher concentration of extracellular heat shock protein 72 (eHSP72) and total testosterone, as well as lower uric acid concentration in blood versus SED-Arg group. The administration of isolated L-arginine supplementation and its association with resistance training promoted less damage in leukocytes DNA. In conclusion, the L-arginine supplementation showed synergistic effect with resistance training regarding leukocyte genomic stability in a low-L-arginine diet scenario.http://europepmc.org/articles/PMC6160175?pdf=render |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Giuseppe Potrick Stefani Bruna Marmett Jadson Pereira Alves Gabriella Berwig Möller Thiago Gomes Heck Matias Nunes Frizzo Marlise Di Domenico Gabriela Almeida Motta Pedro Dal Lago Ramiro Barcos Nunes Cláudia Ramos Rhoden |
| spellingShingle |
Giuseppe Potrick Stefani Bruna Marmett Jadson Pereira Alves Gabriella Berwig Möller Thiago Gomes Heck Matias Nunes Frizzo Marlise Di Domenico Gabriela Almeida Motta Pedro Dal Lago Ramiro Barcos Nunes Cláudia Ramos Rhoden Resistance training and L-arginine supplementation are determinant in genomic stability, cardiac contractility and muscle mass development in rats. PLoS ONE |
| author_facet |
Giuseppe Potrick Stefani Bruna Marmett Jadson Pereira Alves Gabriella Berwig Möller Thiago Gomes Heck Matias Nunes Frizzo Marlise Di Domenico Gabriela Almeida Motta Pedro Dal Lago Ramiro Barcos Nunes Cláudia Ramos Rhoden |
| author_sort |
Giuseppe Potrick Stefani |
| title |
Resistance training and L-arginine supplementation are determinant in genomic stability, cardiac contractility and muscle mass development in rats. |
| title_short |
Resistance training and L-arginine supplementation are determinant in genomic stability, cardiac contractility and muscle mass development in rats. |
| title_full |
Resistance training and L-arginine supplementation are determinant in genomic stability, cardiac contractility and muscle mass development in rats. |
| title_fullStr |
Resistance training and L-arginine supplementation are determinant in genomic stability, cardiac contractility and muscle mass development in rats. |
| title_full_unstemmed |
Resistance training and L-arginine supplementation are determinant in genomic stability, cardiac contractility and muscle mass development in rats. |
| title_sort |
resistance training and l-arginine supplementation are determinant in genomic stability, cardiac contractility and muscle mass development in rats. |
| publisher |
Public Library of Science (PLoS) |
| series |
PLoS ONE |
| issn |
1932-6203 |
| publishDate |
2018-01-01 |
| description |
L-arginine supplementation has been related to increased maximum strength and improvement of hemodynamic parameters in several diseases. The aim of our study was to evaluate the effect of L-arginine supplementation and resistance training on muscle mass, hemodynamic function and DNA damage in healthy rats subjected to a low-arginine concentration diet. Twenty three Wistar rats (290-320g) were divided into 4 groups: Sedentary (SED-Arg, n = 6), Sedentary+Arg (SED+Arg, n = 6), Resistance Training (RT-Arg, n = 5), Resistance Training+Arg (RT+Arg, n = 6). Trained animals performed resistance training protocol in a squat apparatus adapted for rats (4 sets of 10-12 repetitions, 90s of interval, 4x/week, 65-75% of One Maximum Repetition, for 8 weeks). Comet assay was performed to measure DNA damage in leukocytes. The resistance training induced higher muscle mass in trained groups. The L-arginine supplementation increased both gastrocnemius and left ventricle to body mass ratio and increased left ventricle contractility without changing hemodynamic variables. The SED+Arg group showed higher concentration of extracellular heat shock protein 72 (eHSP72) and total testosterone, as well as lower uric acid concentration in blood versus SED-Arg group. The administration of isolated L-arginine supplementation and its association with resistance training promoted less damage in leukocytes DNA. In conclusion, the L-arginine supplementation showed synergistic effect with resistance training regarding leukocyte genomic stability in a low-L-arginine diet scenario. |
| url |
http://europepmc.org/articles/PMC6160175?pdf=render |
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