AI Article Synopsis
- Mitochondria are known for providing ATP and regulating calcium levels in heart cells, but other roles they play in heart cell contractility haven't been well-studied.
- Researchers found that blocking the mitochondrial electron transport chain enhances muscle force in rat heart cells, independent of ATP production or calcium regulation.
- Increased potassium levels in mitochondria also led to similar effects, suggesting that changes in mitochondrial size and pressure could mechanically influence the contractile function of heart muscle fibers.
Article Abstract
It is generally considered that mitochondria regulate cardiac cell contractility by providing ATP for cellular ATPases and by participating in Ca2+ homeostasis. However, other possible mechanisms by which mitochondria can influence contractility have been largely overlooked. Here, we demonstrate that inhibition of the mitochondrial electron transport chain strongly increases Ca2+-dependent and independent isometric force development in rat ventricular fibers with selectively permeabilized sarcolemma. This effect is unrelated to the ATP-generating activity of mitochondria or Ca2+ homeostasis. Furthermore, various conditions that increase K+ accumulation in the mitochondrial matrix (activation of ATP- or Ca2+-dependent K+ channels as well as inhibition of the K+ efflux pathway via the K+/H+ exchanger) induce a similar mechanical response. Modulators of mitochondrial function that augment isometric force also cause swelling of mitochondria in the vicinity of myofibrils in situ, as shown by confocal microscopy. Osmotic compression of intracellular structures abolishes the effect of mitochondria-induced force modulation, suggesting a mechanical basis for the interaction between the organelles. These findings suggest a novel mechanism for cellular regulation of myofibrillar function, whereby increases in mitochondrial volume can impose mechanical constraints inside the cell, leading to an increase in force developed by myofibrils.
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| http://dx.doi.org/10.1096/fj.04-1508com | DOI Listing |
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