Acute effects of a single bout of high-intensity strength and endurance exercise on cognitive biomarkers in young adults and elderly men: a within-subjects crossover study

Background Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes across sex and age is lacking. This study investigated serum concentrations of three neurocognitive biomarkers (i.e., Klotho, brain-der...

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Published inJournal of translational medicine Vol. 23; no. 1; pp. 685 - 18
Main Authors Bekkos, Carolin Haberstroh, Sujan, Md Abu Jafar, Stunes, Astrid Kamilla, Tari, Atefe Rafiee, Aagård, Norun, Brobakken, Cathrine Langlie, Brevig, Martin Siksjø, Syversen, Unni, Wang, Eivind, Mosti, Mats Peder
Format Journal Article
LanguageEnglish
Published London BioMed Central 19.06.2025
BioMed Central Ltd
BMC
Subjects
Adult
Aerobic exercises
Aged
Aged men
Analysis
BDNF
Biological markers
Biomarkers - blood
Biomarkers - metabolism
Biomedical and Life Sciences
Biomedicine
Brain-Derived Neurotrophic Factor - blood
Cognition
Cognition - physiology
Cross-Over Studies
Exercise
Exercise - physiology
Female
Gene expression
Glucuronidase - blood
GPLD1
Health aspects
High-Intensity Interval Training
HIIT (high-intensity interval training)
Humans
Klotho
Klotho Proteins
Male
Measurement
Medical bioinformatics
Medicine/Public Health
Muscle, Skeletal - metabolism
Muscles
Phospholipases
Physical Endurance
Physiological aspects
Psychological aspects
Resistance Training
Strength training
Strengthening exercises
Teenagers
Weight training
Young Adult
Young adults
Youth
Norway
Exercise
Strength training
BDNF
Serum
Cognition
HIIT (high-intensity interval training)
Klotho
Gene expression
GPLD1
Skeletal muscle
Online AccessGet full text
ISSN1479-5876
1479-5876
DOI10.1186/s12967-025-06685-y

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Abstract Background Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes across sex and age is lacking. This study investigated serum concentrations of three neurocognitive biomarkers (i.e., Klotho, brain-derived neurotrophic factor (BDNF), and glycosylphosphatidylinositol-specific phospholipase D1 (GPLD1)) after acute strength and aerobic exercise, along with skeletal muscle gene expression. Methods In a within-subjects crossover design, blood samples of 19 young women, 20 young men, and 14 elderly men were taken before, immediately, 3 h and 24 h after one bout of strength training (ST) and high-intensity interval training (HIIT). Muscle biopsies were taken from a subgroup (n = 22) before, 3 h and 24 h after ST and HIIT for gene expression analyses. Time changes and baseline levels, including the influence of sex and age, were analyzed using a multilevel model and Welch’s analysis of variance, respectively. Biomarker levels were adjusted for exercise-induced plasma volume changes. Results Serum concentration of all biomarkers increased after ST and HIIT but were not affected by sex or age. While serum Klotho and BDNF levels peaked immediately after exercise in all groups, serum GPLD1 levels were highest at 3 h (young groups only). Age was a determining factor for baseline measures; young men had higher and lower resting serum Klotho and BDNF concentration, respectively, than elderly men. Muscle gene expression of Klotho increased after both exercise modes, and BDNF and GPLD1 expression was reduced within 24 h. Conclusions Circulating levels of biomarkers linked to brain health can acutely be increased by one bout of ST or HIIT. This increase might be related to altered gene expression of these proteins in skeletal muscle. Ultimately, this could have beneficial implications for the management of mental and neurocognitive impairments.
AbstractList Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes across sex and age is lacking. This study investigated serum concentrations of three neurocognitive biomarkers (i.e., Klotho, brain-derived neurotrophic factor (BDNF), and glycosylphosphatidylinositol-specific phospholipase D1 (GPLD1)) after acute strength and aerobic exercise, along with skeletal muscle gene expression. In a within-subjects crossover design, blood samples of 19 young women, 20 young men, and 14 elderly men were taken before, immediately, 3 h and 24 h after one bout of strength training (ST) and high-intensity interval training (HIIT). Muscle biopsies were taken from a subgroup (n = 22) before, 3 h and 24 h after ST and HIIT for gene expression analyses. Time changes and baseline levels, including the influence of sex and age, were analyzed using a multilevel model and Welch's analysis of variance, respectively. Biomarker levels were adjusted for exercise-induced plasma volume changes. Serum concentration of all biomarkers increased after ST and HIIT but were not affected by sex or age. While serum Klotho and BDNF levels peaked immediately after exercise in all groups, serum GPLD1 levels were highest at 3 h (young groups only). Age was a determining factor for baseline measures; young men had higher and lower resting serum Klotho and BDNF concentration, respectively, than elderly men. Muscle gene expression of Klotho increased after both exercise modes, and BDNF and GPLD1 expression was reduced within 24 h. Circulating levels of biomarkers linked to brain health can acutely be increased by one bout of ST or HIIT. This increase might be related to altered gene expression of these proteins in skeletal muscle. Ultimately, this could have beneficial implications for the management of mental and neurocognitive impairments.
Abstract Background Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes across sex and age is lacking. This study investigated serum concentrations of three neurocognitive biomarkers (i.e., Klotho, brain-derived neurotrophic factor (BDNF), and glycosylphosphatidylinositol-specific phospholipase D1 (GPLD1)) after acute strength and aerobic exercise, along with skeletal muscle gene expression. Methods In a within-subjects crossover design, blood samples of 19 young women, 20 young men, and 14 elderly men were taken before, immediately, 3 h and 24 h after one bout of strength training (ST) and high-intensity interval training (HIIT). Muscle biopsies were taken from a subgroup (n = 22) before, 3 h and 24 h after ST and HIIT for gene expression analyses. Time changes and baseline levels, including the influence of sex and age, were analyzed using a multilevel model and Welch’s analysis of variance, respectively. Biomarker levels were adjusted for exercise-induced plasma volume changes. Results Serum concentration of all biomarkers increased after ST and HIIT but were not affected by sex or age. While serum Klotho and BDNF levels peaked immediately after exercise in all groups, serum GPLD1 levels were highest at 3 h (young groups only). Age was a determining factor for baseline measures; young men had higher and lower resting serum Klotho and BDNF concentration, respectively, than elderly men. Muscle gene expression of Klotho increased after both exercise modes, and BDNF and GPLD1 expression was reduced within 24 h. Conclusions Circulating levels of biomarkers linked to brain health can acutely be increased by one bout of ST or HIIT. This increase might be related to altered gene expression of these proteins in skeletal muscle. Ultimately, this could have beneficial implications for the management of mental and neurocognitive impairments.
Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes across sex and age is lacking. This study investigated serum concentrations of three neurocognitive biomarkers (i.e., Klotho, brain-derived neurotrophic factor (BDNF), and glycosylphosphatidylinositol-specific phospholipase D1 (GPLD1)) after acute strength and aerobic exercise, along with skeletal muscle gene expression. In a within-subjects crossover design, blood samples of 19 young women, 20 young men, and 14 elderly men were taken before, immediately, 3 h and 24 h after one bout of strength training (ST) and high-intensity interval training (HIIT). Muscle biopsies were taken from a subgroup (n = 22) before, 3 h and 24 h after ST and HIIT for gene expression analyses. Time changes and baseline levels, including the influence of sex and age, were analyzed using a multilevel model and Welch's analysis of variance, respectively. Biomarker levels were adjusted for exercise-induced plasma volume changes. Serum concentration of all biomarkers increased after ST and HIIT but were not affected by sex or age. While serum Klotho and BDNF levels peaked immediately after exercise in all groups, serum GPLD1 levels were highest at 3 h (young groups only). Age was a determining factor for baseline measures; young men had higher and lower resting serum Klotho and BDNF concentration, respectively, than elderly men. Muscle gene expression of Klotho increased after both exercise modes, and BDNF and GPLD1 expression was reduced within 24 h. Circulating levels of biomarkers linked to brain health can acutely be increased by one bout of ST or HIIT. This increase might be related to altered gene expression of these proteins in skeletal muscle. Ultimately, this could have beneficial implications for the management of mental and neurocognitive impairments.
Background Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes across sex and age is lacking. This study investigated serum concentrations of three neurocognitive biomarkers (i.e., Klotho, brain-derived neurotrophic factor (BDNF), and glycosylphosphatidylinositol-specific phospholipase D1 (GPLD1)) after acute strength and aerobic exercise, along with skeletal muscle gene expression. Methods In a within-subjects crossover design, blood samples of 19 young women, 20 young men, and 14 elderly men were taken before, immediately, 3 h and 24 h after one bout of strength training (ST) and high-intensity interval training (HIIT). Muscle biopsies were taken from a subgroup (n = 22) before, 3 h and 24 h after ST and HIIT for gene expression analyses. Time changes and baseline levels, including the influence of sex and age, were analyzed using a multilevel model and Welch's analysis of variance, respectively. Biomarker levels were adjusted for exercise-induced plasma volume changes. Results Serum concentration of all biomarkers increased after ST and HIIT but were not affected by sex or age. While serum Klotho and BDNF levels peaked immediately after exercise in all groups, serum GPLD1 levels were highest at 3 h (young groups only). Age was a determining factor for baseline measures; young men had higher and lower resting serum Klotho and BDNF concentration, respectively, than elderly men. Muscle gene expression of Klotho increased after both exercise modes, and BDNF and GPLD1 expression was reduced within 24 h. Conclusions Circulating levels of biomarkers linked to brain health can acutely be increased by one bout of ST or HIIT. This increase might be related to altered gene expression of these proteins in skeletal muscle. Ultimately, this could have beneficial implications for the management of mental and neurocognitive impairments. Keywords: Exercise, Strength training, HIIT (high-intensity interval training), BDNF, Klotho, GPLD1, Cognition, Gene expression, Skeletal muscle, Serum
Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes across sex and age is lacking. This study investigated serum concentrations of three neurocognitive biomarkers (i.e., Klotho, brain-derived neurotrophic factor (BDNF), and glycosylphosphatidylinositol-specific phospholipase D1 (GPLD1)) after acute strength and aerobic exercise, along with skeletal muscle gene expression.BACKGROUNDAlthough evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes across sex and age is lacking. This study investigated serum concentrations of three neurocognitive biomarkers (i.e., Klotho, brain-derived neurotrophic factor (BDNF), and glycosylphosphatidylinositol-specific phospholipase D1 (GPLD1)) after acute strength and aerobic exercise, along with skeletal muscle gene expression.In a within-subjects crossover design, blood samples of 19 young women, 20 young men, and 14 elderly men were taken before, immediately, 3 h and 24 h after one bout of strength training (ST) and high-intensity interval training (HIIT). Muscle biopsies were taken from a subgroup (n = 22) before, 3 h and 24 h after ST and HIIT for gene expression analyses. Time changes and baseline levels, including the influence of sex and age, were analyzed using a multilevel model and Welch's analysis of variance, respectively. Biomarker levels were adjusted for exercise-induced plasma volume changes.METHODSIn a within-subjects crossover design, blood samples of 19 young women, 20 young men, and 14 elderly men were taken before, immediately, 3 h and 24 h after one bout of strength training (ST) and high-intensity interval training (HIIT). Muscle biopsies were taken from a subgroup (n = 22) before, 3 h and 24 h after ST and HIIT for gene expression analyses. Time changes and baseline levels, including the influence of sex and age, were analyzed using a multilevel model and Welch's analysis of variance, respectively. Biomarker levels were adjusted for exercise-induced plasma volume changes.Serum concentration of all biomarkers increased after ST and HIIT but were not affected by sex or age. While serum Klotho and BDNF levels peaked immediately after exercise in all groups, serum GPLD1 levels were highest at 3 h (young groups only). Age was a determining factor for baseline measures; young men had higher and lower resting serum Klotho and BDNF concentration, respectively, than elderly men. Muscle gene expression of Klotho increased after both exercise modes, and BDNF and GPLD1 expression was reduced within 24 h.RESULTSSerum concentration of all biomarkers increased after ST and HIIT but were not affected by sex or age. While serum Klotho and BDNF levels peaked immediately after exercise in all groups, serum GPLD1 levels were highest at 3 h (young groups only). Age was a determining factor for baseline measures; young men had higher and lower resting serum Klotho and BDNF concentration, respectively, than elderly men. Muscle gene expression of Klotho increased after both exercise modes, and BDNF and GPLD1 expression was reduced within 24 h.Circulating levels of biomarkers linked to brain health can acutely be increased by one bout of ST or HIIT. This increase might be related to altered gene expression of these proteins in skeletal muscle. Ultimately, this could have beneficial implications for the management of mental and neurocognitive impairments.CONCLUSIONSCirculating levels of biomarkers linked to brain health can acutely be increased by one bout of ST or HIIT. This increase might be related to altered gene expression of these proteins in skeletal muscle. Ultimately, this could have beneficial implications for the management of mental and neurocognitive impairments.
Background Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes across sex and age is lacking. This study investigated serum concentrations of three neurocognitive biomarkers (i.e., Klotho, brain-derived neurotrophic factor (BDNF), and glycosylphosphatidylinositol-specific phospholipase D1 (GPLD1)) after acute strength and aerobic exercise, along with skeletal muscle gene expression. Methods In a within-subjects crossover design, blood samples of 19 young women, 20 young men, and 14 elderly men were taken before, immediately, 3 h and 24 h after one bout of strength training (ST) and high-intensity interval training (HIIT). Muscle biopsies were taken from a subgroup (n = 22) before, 3 h and 24 h after ST and HIIT for gene expression analyses. Time changes and baseline levels, including the influence of sex and age, were analyzed using a multilevel model and Welch’s analysis of variance, respectively. Biomarker levels were adjusted for exercise-induced plasma volume changes. Results Serum concentration of all biomarkers increased after ST and HIIT but were not affected by sex or age. While serum Klotho and BDNF levels peaked immediately after exercise in all groups, serum GPLD1 levels were highest at 3 h (young groups only). Age was a determining factor for baseline measures; young men had higher and lower resting serum Klotho and BDNF concentration, respectively, than elderly men. Muscle gene expression of Klotho increased after both exercise modes, and BDNF and GPLD1 expression was reduced within 24 h. Conclusions Circulating levels of biomarkers linked to brain health can acutely be increased by one bout of ST or HIIT. This increase might be related to altered gene expression of these proteins in skeletal muscle. Ultimately, this could have beneficial implications for the management of mental and neurocognitive impairments.
ArticleNumber 685
Audience Academic
Author Sujan, Md Abu Jafar
Wang, Eivind
Tari, Atefe Rafiee
Aagård, Norun
Mosti, Mats Peder
Stunes, Astrid Kamilla
Brobakken, Cathrine Langlie
Syversen, Unni
Bekkos, Carolin Haberstroh
Brevig, Martin Siksjø
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  email: carolin.haberstroh@stolav.no
  organization: Department of Research and Development, Clinic of Substance Use and Addiction Medicine, St. Olavs Hospital, Trondheim University Hospital, Department of Mental Health, Faculty of Medicine and Health Sciences, Norwegian University of Science and Technology (NTNU)
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  givenname: Astrid Kamilla
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  givenname: Norun
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  fullname: Brobakken, Cathrine Langlie
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– sequence: 7
  givenname: Martin Siksjø
  surname: Brevig
  fullname: Brevig, Martin Siksjø
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– sequence: 8
  givenname: Unni
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  fullname: Wang, Eivind
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  givenname: Mats Peder
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  surname: Mosti
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Issue 1
Keywords Exercise
Strength training
BDNF
Serum
Cognition
HIIT (high-intensity interval training)
Klotho
Gene expression
GPLD1
Skeletal muscle
Language English
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SSID ssj0024549
Score 2.449626
Snippet Background Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise...
Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise regimes...
Background Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different exercise...
Abstract Background Although evidence for exercise-induced changes in neurocognitive biomarkers is emerging, research examining acute responses to different...
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pubmedcentral
proquest
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pubmed
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SourceType Open Website
Open Access Repository
Aggregation Database
Index Database
Publisher
StartPage 685
SubjectTerms Adult
Aerobic exercises
Aged
Aged men
Analysis
BDNF
Biological markers
Biomarkers - blood
Biomarkers - metabolism
Biomedical and Life Sciences
Biomedicine
Brain-Derived Neurotrophic Factor - blood
Cognition
Cognition - physiology
Cross-Over Studies
Exercise
Exercise - physiology
Female
Gene expression
Glucuronidase - blood
GPLD1
Health aspects
High-Intensity Interval Training
HIIT (high-intensity interval training)
Humans
Klotho
Klotho Proteins
Male
Measurement
Medical bioinformatics
Medicine/Public Health
Muscle, Skeletal - metabolism
Muscles
Phospholipases
Physical Endurance
Physiological aspects
Psychological aspects
Resistance Training
Strength training
Strengthening exercises
Teenagers
Weight training
Young Adult
Young adults
Youth
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Title Acute effects of a single bout of high-intensity strength and endurance exercise on cognitive biomarkers in young adults and elderly men: a within-subjects crossover study
URI https://link.springer.com/article/10.1186/s12967-025-06685-y
https://www.ncbi.nlm.nih.gov/pubmed/40537774
https://www.proquest.com/docview/3222639706
https://pubmed.ncbi.nlm.nih.gov/PMC12177964
https://doaj.org/article/f26d1c1ab99a497c9c428ab9924aeb2b
Volume 23
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