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Critical care medicine · Jun 2012
Cross-talk between the calpain and caspase-3 proteolytic systems in the diaphragm during prolonged mechanical ventilation.
- W Bradley Nelson, Ashley J Smuder, Matthew B Hudson, Erin E Talbert, and Scott K Powers.
- Department of Applied Physiology and Kinesiology, University of Florida, Gainesville, FL, USA.
- Crit. Care Med.. 2012 Jun 1;40(6):1857-63.
ObjectiveDiaphragmatic weakness, due to both atrophy and contractile dysfunction, is a well-documented response following prolonged mechanical ventilation. Evidence indicates that activation of the proteases calpain and caspase-3 is essential for mechanical ventilation-induced diaphragmatic weakness to occur. We tested the hypothesis that a regulatory cross-talk exists between calpain and caspase-3 in the diaphragm during prolonged mechanical ventilation. To test this prediction, we determined whether selective pharmacological inhibition of calpain would prevent activation of caspase-3 and conversely whether selective inhibition of caspase-3 would abate calpain activation.DesignAnimal study.SettingUniversity Research Laboratory.SubjectsFemale Sprague-Dawley rats.InterventionsAnimals were randomly divided into control or one of three 12-hr mechanical ventilation groups that were treated with/without a selective pharmacological protease inhibitor: 1) control, 2) mechanical ventilation, 3) mechanical ventilation with a selective caspase-3 inhibitor, and 4) mechanical ventilation with a selective calpain inhibitor.Measurements And Main ResultsCompared to control, mechanical ventilation resulted in calpain and caspase-3 activation in the diaphragm accompanied by atrophy of type I, type IIa, and type IIx/IIb fibers. Independent inhibition of either calpain or caspase-3 prevented this mechanical ventilation-induced atrophy. Pharmacological inhibition of calpain prevented mechanical ventilation-induced activation of diaphragmatic caspase-3 and inhibition of caspase-3 prevented activation of diaphragmatic calpain. Furthermore, calpain inhibition also prevented the activation of caspase-9 and caspase-12, along with the cleavage of Bid to tBid, all upstream signals for caspase-3 activation. Lastly, caspase-3 inhibition prevented the mechanical ventilation-induced degradation of the endogenous calpain inhibitor, calpastatin.ConclusionsCollectively, these results indicate that mechanical ventilation-induced diaphragmatic atrophy is dependent on the activation of both calpain and caspase-3. Importantly, these findings provide the first experimental evidence in diaphragm muscle that calpain inhibition prevents the activation of caspase-3 and vice versa and caspase-3 inhibition prevents the activation of calpain. These findings support our hypothesis that a regulatory calpain/caspase-3 cross-talk exists whereby calpain can promote caspase-3 activation and active caspase-3 can enhance calpain activity in diaphragm muscle during prolonged mechanical ventilation.
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