The Effects of Krill Oil on mTOR Signaling and Resistance Exercise: A Pilot Study

The Effects of Krill Oil on mTOR Signaling and Resistance Exercise: A Pilot Study

Introduction. Krill oil supplementation has been shown to improve postexercise immune function; however, its effect on muscle hypertrophy is currently unknown. Therefore, the aim of present study was to investigate the ability of krill oil to stimulate mTOR signaling and its ability to augment resis...

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Main Authors: John Georges, Matthew H. Sharp, Ryan P. Lowery, Jacob M. Wilson, Martin Purpura, Troy A. Hornberger, Flint Harding, James H. Johnson, David M. Peele, Ralf Jäger
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Journal of Nutrition and Metabolism
Online Access:http://dx.doi.org/10.1155/2018/7625981
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spelling doaj-4db5d2a109db4245a1d16387a3f643062020-11-24T22:26:23ZengHindawi LimitedJournal of Nutrition and Metabolism2090-07242090-07322018-01-01201810.1155/2018/76259817625981The Effects of Krill Oil on mTOR Signaling and Resistance Exercise: A Pilot StudyJohn Georges0Matthew H. Sharp1Ryan P. Lowery2Jacob M. Wilson3Martin Purpura4Troy A. Hornberger5Flint Harding6James H. Johnson7David M. Peele8Ralf Jäger9Applied Science and Performance Institute, 5850 W. Cypress St., Tampa, FL 33607, USAApplied Science and Performance Institute, 5850 W. Cypress St., Tampa, FL 33607, USAApplied Science and Performance Institute, 5850 W. Cypress St., Tampa, FL 33607, USAApplied Science and Performance Institute, 5850 W. Cypress St., Tampa, FL 33607, USAIncrenovo LLC, 2138 E. Lafayette Pl, Milwaukee, WI 53202, USADepartment of Comparative Biosciences, University of Wisconsin-Madison, Madison, WI 53706, USAAvoca Inc., 841 Avoca Farm Rd., Merry Hill, NC 27957, USAAvoca Inc., 841 Avoca Farm Rd., Merry Hill, NC 27957, USAAvoca Inc., 841 Avoca Farm Rd., Merry Hill, NC 27957, USAIncrenovo LLC, 2138 E. Lafayette Pl, Milwaukee, WI 53202, USAIntroduction. Krill oil supplementation has been shown to improve postexercise immune function; however, its effect on muscle hypertrophy is currently unknown. Therefore, the aim of present study was to investigate the ability of krill oil to stimulate mTOR signaling and its ability to augment resistance training-induced changes in body composition and performance. Methods. C2C12 myoblasts cells were stimulated with krill oil or soy-derived phosphatidylcholine (S-PC), and then, the ratio of P-p70-389 to total p70 was used as readout for mTOR signaling. In double-blind,placebo-controlled study, resistance trained subjects consumed either 3 g krill oil daily or placebo, and each took part in an 8-week periodized resistance training program. Body composition, maximal strength, peak power, and rate of perceived recovery were assessed collectively at the end of weeks 0 and 8. In addition, safety parameters (comprehensive metabolic panel (CMP), complete blood count (CBC), and urine analysis (UA)) and cognitive performance were measured pre- and posttesting. Results. Krill oil significantly stimulated mTOR signaling in comparison to S-PC and control. No differences for markers on the CMP, CBC, or UA were observed. Krill oil significantly increased lean body mass from baseline (p=0.021, 1.4 kg, +2.1%); however, there were no statistically significant differences between groups for any measures taken. Conclusion. Krill oil activates mTOR signaling. Krill oil supplementation in athletes is safe, and its effect on resistance exercise deserves further research.http://dx.doi.org/10.1155/2018/7625981
collection DOAJ
language English
format Article
sources DOAJ
author John Georges
Matthew H. Sharp
Ryan P. Lowery
Jacob M. Wilson
Martin Purpura
Troy A. Hornberger
Flint Harding
James H. Johnson
David M. Peele
Ralf Jäger
spellingShingle John Georges
Matthew H. Sharp
Ryan P. Lowery
Jacob M. Wilson
Martin Purpura
Troy A. Hornberger
Flint Harding
James H. Johnson
David M. Peele
Ralf Jäger
The Effects of Krill Oil on mTOR Signaling and Resistance Exercise: A Pilot Study
Journal of Nutrition and Metabolism
author_facet John Georges
Matthew H. Sharp
Ryan P. Lowery
Jacob M. Wilson
Martin Purpura
Troy A. Hornberger
Flint Harding
James H. Johnson
David M. Peele
Ralf Jäger
author_sort John Georges
title The Effects of Krill Oil on mTOR Signaling and Resistance Exercise: A Pilot Study
title_short The Effects of Krill Oil on mTOR Signaling and Resistance Exercise: A Pilot Study
title_full The Effects of Krill Oil on mTOR Signaling and Resistance Exercise: A Pilot Study
title_fullStr The Effects of Krill Oil on mTOR Signaling and Resistance Exercise: A Pilot Study
title_full_unstemmed The Effects of Krill Oil on mTOR Signaling and Resistance Exercise: A Pilot Study
title_sort effects of krill oil on mtor signaling and resistance exercise: a pilot study
publisher Hindawi Limited
series Journal of Nutrition and Metabolism
issn 2090-0724
2090-0732
publishDate 2018-01-01
description Introduction. Krill oil supplementation has been shown to improve postexercise immune function; however, its effect on muscle hypertrophy is currently unknown. Therefore, the aim of present study was to investigate the ability of krill oil to stimulate mTOR signaling and its ability to augment resistance training-induced changes in body composition and performance. Methods. C2C12 myoblasts cells were stimulated with krill oil or soy-derived phosphatidylcholine (S-PC), and then, the ratio of P-p70-389 to total p70 was used as readout for mTOR signaling. In double-blind,placebo-controlled study, resistance trained subjects consumed either 3 g krill oil daily or placebo, and each took part in an 8-week periodized resistance training program. Body composition, maximal strength, peak power, and rate of perceived recovery were assessed collectively at the end of weeks 0 and 8. In addition, safety parameters (comprehensive metabolic panel (CMP), complete blood count (CBC), and urine analysis (UA)) and cognitive performance were measured pre- and posttesting. Results. Krill oil significantly stimulated mTOR signaling in comparison to S-PC and control. No differences for markers on the CMP, CBC, or UA were observed. Krill oil significantly increased lean body mass from baseline (p=0.021, 1.4 kg, +2.1%); however, there were no statistically significant differences between groups for any measures taken. Conclusion. Krill oil activates mTOR signaling. Krill oil supplementation in athletes is safe, and its effect on resistance exercise deserves further research.
url http://dx.doi.org/10.1155/2018/7625981
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