AI Article Synopsis
- The heart adapts to increased blood pressure by enhancing myocyte stretch-mediated calcium levels, which boosts contractility; this mechanism, while historically known, is not fully understood, and the role of thrombospondin-4 (TSP4) in this process is being investigated.
- In experiments with mice that lack TSP4, the heart showed inadequate contractility and failed to activate important pathways under stress, leading to worsened heart function and structure compared to normal mice.
- The study concludes that TSP4 is essential for proper cardiac response to stress, suggesting its significant role in preventing chronic heart failure.
Article Abstract
Rationale: One of the physiological mechanisms by which the heart adapts to a rise in blood pressure is by augmenting myocyte stretch-mediated intracellular calcium, with a subsequent increase in contractility. This slow force response was first described over a century ago and has long been considered compensatory, but its underlying mechanisms and link to chronic adaptations remain uncertain. Because levels of the matricellular protein thrombospondin-4 (TSP4) rapidly rise in hypertension and are elevated in cardiac stress overload and heart failure, we hypothesized that TSP4 is involved in this adaptive mechanism.
Objective: To determine the mechano-transductive role that TSP4 plays in cardiac regulation to stress.
Methods And Results: In mice lacking TSP4 (Tsp4⁻/⁻), hearts failed to acutely augment contractility or activate stretch-response pathways (ERK1/2 and Akt) on exposure to acute pressure overload. Sustained pressure overload rapidly led to greater chamber dilation, reduced function, and increased heart mass. Unlike controls, Tsp4⁻/⁻ cardiac trabeculae failed to enhance contractility and cellular calcium after a stretch. However, the contractility response was restored in Tsp4⁻/⁻ muscle incubated with recombinant TSP4. Isolated Tsp4⁻/⁻ myocytes responded normally to stretch, identifying a key role of matrix-myocyte interaction for TSP4 contractile modulation.
Conclusion: These results identify TSP4 as myocyte-interstitial mechano-signaling molecule central to adaptive cardiac contractile responses to acute stress, which appears to play a crucial role in the transition to chronic cardiac dilatation and failure.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3324097 | PMC |
| http://dx.doi.org/10.1161/CIRCRESAHA.111.256743 | DOI Listing |
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