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Fernandez‐Gonzalo, Rodrigo; Tesch, Per A.; Lundberg, Tommy R.; Alkner, Björn A.; Rullman, Eric; Gustafsson, Thomas
The FASEB journal, June 2020, Letnik: 34, Številka: 6Journal Article
This study explored the muscle genome‐wide response to long‐term unloading (84‐day bed rest) in 21 men. We hypothesized that a part of the bed rest‐induced gene expression signature would be resilient to a concurrent flywheel resistance exercise (RE) countermeasure. Using DNA microarray technology analyzing 35 345 gene‐level probe‐sets, we identified 335 annotated probe‐sets that were downregulated, and 315 that were upregulated after bed rest (P < .01). Besides a predictable differential expression of genes and pathways related to mitochondria (downregulation; false‐discovery rates (FDR) <1E‐04), ubiquitin system (upregulation; FDR = 3E‐02), and skeletal muscle energy metabolism and structure (downregulation; FDR ≤ 3E‐03), 84‐day bed rest also altered circadian rhythm regulation (upregulation; FDR = 3E‐02). While most of the bed rest‐induced changes were counteracted by RE, 209 transcripts were resilient to the exercise countermeasure. Genes upregulated after bed rest were particularly resistant to training (P < .001 vs downregulated, non‐reversed genes). Specifically, “Translation Factors,” “Proteasome Degradation,” “Cell Cycle,” and “Nucleotide Metabolism” pathways were not normalized by RE. This study provides an unbiased high‐throughput transcriptomic signature of one of the longest unloading periods in humans to date. Classical disuse‐related changes in structural and metabolic genes/pathways were identified, together with a novel upregulation of circadian rhythm transcripts. In the context of previous bed rest campaigns, the latter seemed to be related to the duration of unloading, suggesting the transcriptomic machinery continues to adapt throughout extended disuse periods. Despite that the RE training offset most of the bed rest‐induced muscle‐phenotypic and transcriptomic alterations, we contend that the human skeletal muscle also displays a residual transcriptomic signature of unloading that is resistant to an established exercise countermeasure.
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JCR | SNIP | JCR | SNIP | JCR | SNIP | JCR | SNIP |
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in: SICRIS
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