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A Single Session of Aerobic Exercise Mediates Plasticity-Related Phosphorylation in both the Rat Motor Cortex and Hippocampus.
Thacker, Jonathan S; Xu, Yuyi; Tang, Cerise; Tupling, A Russell; Staines, W Richard; Mielke, John G.
Afiliação
  • Thacker JS; Division of Medical Sciences, University of Victoria, 3800 Finnerty Road, PO Box 1700 STN CSC, Victoria, British Columbia, V8W 2Y2, Canada; Department of Kinesiology, Burt Mathews Hall, University of Waterloo, 200 University Ave. West, Waterloo, Ontario, Canada, N2L 3G1. Electronic address: jsthacke
  • Xu Y; School of Public Health & Health Systems, Lyle Hallman Institute for Health Promotion, University of Waterloo, 200 University Ave. West, Waterloo, Ontario, Canada, N2L 3G1.
  • Tang C; School of Public Health & Health Systems, Lyle Hallman Institute for Health Promotion, University of Waterloo, 200 University Ave. West, Waterloo, Ontario, Canada, N2L 3G1.
  • Tupling AR; Department of Kinesiology, Burt Mathews Hall, University of Waterloo, 200 University Ave. West, Waterloo, Ontario, Canada, N2L 3G1.
  • Staines WR; Department of Kinesiology, Burt Mathews Hall, University of Waterloo, 200 University Ave. West, Waterloo, Ontario, Canada, N2L 3G1.
  • Mielke JG; Department of Kinesiology, Burt Mathews Hall, University of Waterloo, 200 University Ave. West, Waterloo, Ontario, Canada, N2L 3G1; School of Public Health & Health Systems, Lyle Hallman Institute for Health Promotion, University of Waterloo, 200 University Ave. West, Waterloo, Ontario, Canada,
Neuroscience ; 412: 160-174, 2019 08 01.
Article em En | MEDLINE | ID: mdl-31181370
A single session of aerobic exercise may offer one means to "prime" motor regions to be more receptive to the acquisition of a motor skill; however, the mechanisms whereby this priming may occur are not clear. One possible explanation may be related to the post-translational modification of plasticity-related receptors and their associated intracellular signaling molecules, given that these proteins are integral to the development of synaptic plasticity. In particular, phosphorylation governs the biophysical properties (e.g., Ca2+ conductance) and the migratory patterns (i.e., trafficking) of plasticity-related receptors by altering the relative density of specific receptor subunits at synapses. We hypothesized that a single session of exercise would alter the subunit phosphorylation of plasticity-related receptors (AMPA receptors, NMDA receptors) and signaling molecules (PKA, CaMKII) in a manner that would serve to prime motor cortex. Young, male Sprague-Dawley rats (n = 24) were assigned to either exercise (Moderate, Exhaustion), or non-exercising (Sedentary) groups. Immediately following a single session of treadmill exercise, whole tissue homogenates were prepared from both the motor cortex and hippocampus. We observed a robust (1.2-2.0× greater than sedentary) increase in tyrosine phosphorylation of AMPA (GluA1,2) and NMDA (GluN2A,B) receptor subunits, and a clear indication that exercise preferentially affects pPKA over pCaMKII. The changes were found, specifically, following moderate, but not maximal, acute aerobic exercise in both motor cortex and hippocampus. Given the requirement for these proteins during the early phases of plasticity induction, the possibility exists that exercise-induced priming may occur by altering the phosphorylation of plasticity-related proteins.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Condicionamento Físico Animal / Hipocampo / Córtex Motor / Plasticidade Neuronal Limite: Animals Idioma: En Revista: Neuroscience Ano de publicação: 2019 Tipo de documento: Article País de publicação: Estados Unidos

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Condicionamento Físico Animal / Hipocampo / Córtex Motor / Plasticidade Neuronal Limite: Animals Idioma: En Revista: Neuroscience Ano de publicação: 2019 Tipo de documento: Article País de publicação: Estados Unidos