Browsing by Author "Ali, Mostafa M."
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- The Role of Toll Like Receptor-4 in Exercise-induced Myokine Response and Regulation of Skeletal Muscle Metabolic AdaptationAli, Mostafa M. (Virginia Tech, 2017-02-27)Toll like receptor-4 (TLR4) is a transmembrane inflammatory receptor expressed ubiquitously on the cell surface of immune cells as well as skeletal muscle and other metabolic tissues. A compelling body of evidence shows that muscle TLR4 and the downstream cytokine signaling modulate skeletal muscle metabolism. Intriguingly, skeletal muscle has been demonstrated to gain favorable inflammatory cytokine-mediated metabolic adaptations in the context of exercise training. This paradigm suggests a role for muscle TLR4 inflammatory signaling in the regulation of exercise metabolism. As such, the question arises as to whether exercise stress response follows similar inflammatory physiological pathways to those activated by other physical and pathogenic stimuli or not. Therefore, the objective of the present study was to investigate the role of muscle TLR4 signaling in modulating skeletal muscle cytokine, also known as myokine, response and metabolic adaptations to exercise. To this end, using Cre-mediated recombination, we developed a novel muscle-specific TLR4 knockout (mTLR4-/-) mouse model on C57BL/6JJ background. The differential inflammatory and metabolic responses between mTLR4-/- mice and wild type (WT) littermates were examined following exposure to either exercise or muscle stimulus. Accordingly, different exercise and muscle contraction modalities were pursued, focusing on voluntary wheel running, forced treadmill training, and in vivo electrical muscle stimulation. Overall, this study introduces a novel muscle-specific TLR4 knockout mouse model and discloses a crucial role for mTLR4 in basal systemic cytokine homeostasis. Furthermore, our findings identify mTLR4 as a major immunomodulatory effector of exercise-induced metabolic adaptations and suggest a link between mTLR4 and physiological determinants of maximal aerobic performance.
- Using Isolated Mitochondria from Minimal Quantities of Mouse Skeletal Muscle for High throughput Microplate Respiratory MeasurementsBoutagy, Nabil E.; Rogers, George W.; Pyne, Emily S.; Ali, Mostafa M.; Hulver, Matthew W.; Frisard, Madlyn I. (Journal of Visualized Experiments, 2015-10-01)Skeletal muscle mitochondria play a specific role in many disease pathologies. As such, the measurement of oxygen consumption as an indicator of mitochondrial function in this tissue has become more prevalent. Although many technologies and assays exist that measure mitochondrial respiratory pathways in a variety of cells, tissue and species, there is currently a void in the literature in regards to the compilation of these assays using isolated mitochondria from mouse skeletal muscle for use in microplate based technologies. Importantly, the use of microplate based respirometric assays is growing among mitochondrial biologists as it allows for high throughput measurements using minimal quantities of isolated mitochondria. Therefore, a collection of microplate based respirometric assays were developed that are able to assess mechanistic changes/adaptations in oxygen consumption in a commonly used animal model. The methods presented herein provide step-bystep instructions to perform these assays with an optimal amount of mitochondrial protein and reagents, and high precision as evidenced by the minimal variance across the dynamic range of each assay.