endurance and strength training: are they … and strength training: are they incompatible? john a....
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Endurance and strength training:Are they incompatible?
John A. Hawley, Ph.D.Exercise & Nutrition Research Group
RMIT UniversityMelbourneAustralia
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The ‘endurance’ or ‘strength’ phenotype is the outcomeof the cumulative effects of multiple acute exercise bouts
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The ‘classic’ study of the potential for strength and endurance training to amplify the endurance phenotype
“These data do notdemonstrate any negativeperformance effects of addingheavy-resistance training toongoing endurance-trainingregimens. They indicate thatcertain types of enduranceperformance, particularlythose requiring fast-twitchfiber recruitment, can beimproved by strength trainingsupplementation.”
Hickson RC et al. J Appl Physiol 65: 2285-90, 1988.
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The physiological demands of team sportsrequire both strength/power and aerobic fitness
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Myofibrillar versus mitochondrial proteins
Myofibrillar protein Mitochondrial protein
Lange S et al. Science 308: 1599-1603, 2005.
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Specificity of training adaptation
The‘training adaptation continuum’
LKB1
PGC-1α
AMPK
Mitochondrial biogenesis
p70S6k
Akt
mTOR
Muscle hypertrophy
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AMPK Thr172
Akt Ser473
The AMPK (endurance) and Akt (resistance)‘master switch’mediates mode-specific adaptations to training
Atherton PJ et al. FASEB J 19: 786-798, 2005.
LFS
HFS
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Wang L et al. J Appl Physiol 111: 1335–1344, 2011.
Effects of heavy resistance exercise undertaken after cycling on early signaling events in skeletal muscle
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Heavy resistance exercise amplifies the acute ‘endurance’ signal in human skeletal muscle
Wang L et al. J Appl Physiol 111: 1335–1344, 2011.
Endurance Endurance + R
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Wang L et al. J Appl Physiol 111: 1335–1344, 2011.
And also preserves the acute ‘myogenic’ signal in human skeletal muscle
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“A novel finding in the presentstudy is that resistance exerciseperformed after endurance exerciseresulted in enhanced expression ofgenes involved in the signalingcascade of mitochondrialbiogenesis/oxidative metabolism, aswell as enhanced activation ofproteins involved in the regulationof muscle protein synthesis. Theseresults challenge the current view ofhow to optimize endurance trainingadaptation.”
Wang L et al. J Appl Physiol 111: 1335–1344, 2011.
Heavy resistance exercise amplifies the acute ‘endurance’ signal in human skeletal muscle
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Overall effect sizes for strength, endurance andconcurrent strength and endurance training
Wilson JM et al. J Strength & Cond Res 26: 2293-2307, 2012.
Strength Endurance Concurrent
* Different from Strength, P<0.05& Different from Endurance, P<0.05
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All endurance sports are not created equal:Endurance running versus cycling and strength training
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Overall effect sizes for running plus strength, cycling plus strength, and strength only training
Wilson JM et al. J Strength & Cond Res 26: 2293-2307, 2012.
Running + S Cycling + S Strength only
* Different from Running + S, P<0.05
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Dose response effect size for the average duration ofendurance sessions on muscle strength, size, and power
Wilson JM et al. J Strength & Cond Res 26: 2293-2307, 2012.
Strength Hypertrophy Power
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Can nutrient provision attenuate some of the concurrent training-induced ‘interference’ on muscle proteins?
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Effects of protein ingestion on muscle protein synthesis following consecutive resistance and endurance exercise
Camera DA et al. (Unpublished observations)
25 g whey protein
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Effects of protein ingestion on muscle protein synthesis following consecutive resistance and endurance exercise
Camera DA et al. (Unpublished observations)
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“Concurrent training promotesanabolic responses and increases inmetabolic/oxidative pathways inskeletal muscle. Protein ingestionafter combined resistance andendurance exercise enhancesmyofibrillar protein synthesis andattenuates markers of musclecatabolism. Protein ingestion maytherefore promote and/or protectmuscle mass and reduce the potentialinterference effect of enduranceexercise on hypertrophy.”
Camera DA et al. (Unpublished observations)
Effects of protein ingestion on muscle protein synthesis following consecutive resistance and endurance exercise
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Summary and practical implications:Are endurance and strength training incompatible?
There is potential for strength training to amplify enduranceperformance in individuals with little prior training history
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Summary and practical implications:Are endurance and strength training incompatible?
There is potential for strength training to amplify enduranceperformance in individuals with little prior training historyThe ‘interference’ effect of concurrent strength and endurancetraining depends on the ability level of the athlete
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Summary and practical implications:Are endurance and strength training incompatible?
There is potential for strength training to amplify enduranceperformance in individuals with little prior training historyThe ‘interference’ effect of concurrent strength and endurancetraining depends on the ability level of the athleteThe distinct ‘molecular signatures’ associated with strength andendurance training (i.e., AMPK-Akt pathways) are not as unique as originally proposed
![Page 23: Endurance and strength training: Are they … and strength training: Are they incompatible? John A. Hawley, Ph.D. Exercise & Nutrition Research Group RMIT University Melbourne Australia](https://reader031.vdocuments.site/reader031/viewer/2022022508/5acf06fe7f8b9ac1478c5585/html5/thumbnails/23.jpg)
Summary and practical implications:Are endurance and strength training incompatible?
There is potential for strength training to amplify enduranceperformance in individuals with little prior training historyThe ‘interference’ effect of concurrent strength and endurancetraining depends on the ability level of the athleteThe distinct ‘molecular signatures’ associated with strength andendurance training (i.e., AMPK-Akt pathways) are not as unique as originally proposed There is greater ‘interference’ with strength/power measures when undertaking running than cycling concurrently with strength training
![Page 24: Endurance and strength training: Are they … and strength training: Are they incompatible? John A. Hawley, Ph.D. Exercise & Nutrition Research Group RMIT University Melbourne Australia](https://reader031.vdocuments.site/reader031/viewer/2022022508/5acf06fe7f8b9ac1478c5585/html5/thumbnails/24.jpg)
Summary and practical implications:Are endurance and strength training incompatible?
There is potential for strength training to amplify enduranceperformance in individuals with little prior training historyThe ‘interference’ effect of concurrent strength and endurancetraining depends on the ability level of the athleteThe distinct ‘molecular signatures’ associated with strength andendurance training (i.e., AMPK-Akt pathways) are not as unique as originally proposed There is greater ‘interference’ with strength/power measures when undertaking running than cycling concurrently with strength trainingThere is a ‘dose-response’ effect for time spent endurance training on interference with strength parameters
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Summary and practical implications:Are endurance and strength training incompatible?
There is potential for strength training to amplify enduranceperformance in individuals with little prior training historyThe ‘interference’ effect of concurrent strength and endurancetraining depends on the ability level of the athleteThe distinct ‘molecular signatures’ associated with strength andendurance training (i.e., AMPK-Akt pathways) are not as unique as originally proposed There is greater ‘interference’ with strength/power measures when undertaking running than cycling concurrently with strength trainingThere is a ‘dose-response’ effect for time spent endurance training on interference with strength parametersNutrient provision (i.e., protein) can attenuate the ‘interference effect’ of endurance exercise on hypertrophy signalling pathways
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Summary and practical implications:Are endurance and strength training incompatible?
There is potential for strength training to amplify enduranceperformance in individuals with little prior training historyThe ‘interference’ effect of concurrent strength and endurancetraining depends on the ability level of the athleteThe distinct ‘molecular signatures’ associated with strength andendurance training (i.e., AMPK-Akt pathways) are not as unique as originally proposed There is greater ‘interference’ with strength/power measures when undertaking running than cycling concurrently with strength trainingThere is a ‘dose-response’ effect for time spent endurance training on interference with strength parametersNutrient provision (i.e., protein) can attenuate the ‘interference effect’ of endurance exercise on hypertrophy signalling pathwaysThe principle of ‘specificity of training adaptation’ rules!
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Factors affecting the variability in the training response/adaptation
Biochemical Mechanical Electrochemical
ATPADP+Pi AMP
Ca2+
Ca2+ Ca2+ Ca2+ Ca2+
ATPADP+Pi AMP
PGC-1 HDACMEF2CREB
mTOR
CaMKAktAMPK
Training history
Fibre type
Training diet
Gender
Training modality
Training intensity
TRAINING ADAPTATION