学位论文详细信息
Mechanical and metabolic stresses contribute to high force contraction signaling
Mechanotransduction;Muscle;Force;MAP kinase;P70S6 kinase;Signaling;Tongue;Metabolic stress
Rahnert, Jill Anne ; Applied Physiology
University:Georgia Institute of Technology
Department:Applied Physiology
关键词: Mechanotransduction;    Muscle;    Force;    MAP kinase;    P70S6 kinase;    Signaling;    Tongue;    Metabolic stress;   
Others  :  https://smartech.gatech.edu/bitstream/1853/43636/1/rahnert_jill_a_201205_phd.pdf
美国|英语
来源: SMARTech Repository
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【 摘 要 】

Force production by a muscle is critical to maintaining proper function and overall health of a human or animal. Muscle adapts to increased loading with hypertrophy by activating a number of intracellular signaling cascades that regulate protein synthesis. The overall hypothesis is that force-dependent processes acutely activate growth-related signaling during active force generation. This project took two approaches. The first employed a general survey of muscles in which age-dependent changes in muscle activity differed. No conclusive activity-dependent signaling emerged however coordinated signaling among kinases broke down with age. The second approach utilized an in situ muscle preparation in which force production or metabolic costs were specifically controlled. Similar sub-maximal force levels generated by different methods found that force, per se, is not a primary modulator of growth-related signaling but that ERK phosphorylation is dependent on fiber-activation. Prolonging the duration of electrical stimulation applied to the nerve or increasing the frequency at which stimulations are applied was expected to increase the metabolic stress associated with contraction. Several growth-related kinases correlated with markers of metabolic stress, i.e. increased AMPK activity and decreased glycogen content, which were decoupled from force decline. This suggests energy depletion, specific to stimulation pattern, strongly influences the immediate response to high force contraction signaling. The overall conclusion is that signaling molecules previously implicated in force-dependent signaling lie much too downstream to relay strict force-dependent signaling.

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