Maria E. Zoghbi scite author profile

Contraction of the heart results from interaction of the myosin and actin filaments. Cardiac myosin filaments consist of the molecular motor myosin II, the sarcomeric template protein, titin, and the cardiac modulatory protein, myosin binding protein C (MyBP-C). Inherited hypertrophic cardiomyopathy (HCM) is a disease caused mainly by mutations in these proteins. The structure of cardiac myosin filaments and the alterations caused by HCM mutations are unknown. We have used electron microscopy and image analysis to determine the three-dimensional structure of myosin filaments from wild-type mouse cardiac muscle and from a electron microscopy ͉ MyBP-C ͉ thick filament ͉ three-dimensional reconstruction

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Direct visualization of myosin-binding protein C bridging myosin and actin filaments in intact muscle

Luther

Winkler

Taylor

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

171

223

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Myosin-binding protein C (MyBP-C) is a thick filament protein playing an essential role in muscle contraction, and MyBP-C mutations cause heart and skeletal muscle disease in millions worldwide. Despite its discovery 40 y ago, the mechanism of MyBP-C function remains unknown. In vitro studies suggest that MyBP-C could regulate contraction in a unique way—by bridging thick and thin filaments—but there has been no evidence for this in vivo. Here we use electron tomography of exceptionally well preserved muscle to demonstrate that MyBP-C does indeed bind to actin in intact muscle. This binding implies a physical mechanism for communicating the relative sliding between thick and thin filaments that does not involve myosin and which could modulate the contractile process.

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Permeation of Calcium through Purified Connexin 26 Hemichannels

Fiori

Figueroa

Zoghbi

et al. 2012

Journal of Biological Chemistry

105

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Developmental changes of intracellular Ca²⁺transients in beating rat hearts

Escobar¹,

Ribeiro-Costa²,

Villalba-Galea³

et al. 2004

American Journal of Physiology-Heart and Circulatory Physiology

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Postnatal maturation of the rat heart is characterized by major changes in the mechanism of excitation-contraction (E-C) coupling. In the neonate, the t tubules and sarcoplasmic reticulum (SR) are not fully developed yet. Consequently, Ca(2+)-induced Ca(2+) release (CICR) does not play a central role in E-C coupling. In the neonate, most of the Ca(2+) that triggers contraction comes through the sarcolemma. In this work, we defined the contribution of the sarcolemmal Ca(2+) entry and the Ca(2+) released from the SR to the Ca(2+) transient during the first 3 wk of postnatal development. To this end, intracellular Ca(2+) transients were measured in whole hearts from neonate rats by using the pulsed local field fluorescence technique. To estimate the contribution of each Ca(2+) flux to the global intracellular Ca(2+) transient, different pharmacological agents were used. Ryanodine was applied to evaluate ryanodine receptor-mediated Ca(2+) release from the SR, nifedipine for dihydropyridine-sensitive L-type Ca(2+) current, Ni(2+) for the current resulting from the reverse-mode Na(+)/Ca(2+) exchange, and mibefradil for the T-type Ca(2+) current. Our results showed that the relative contribution of each Ca(2+) flux changes considerably during the first 3 wk of postnatal development. Early after birth (1-5 days), the sarcolemmal Ca(2+) flux predominates, whereas at 3 wk of age, CICR from the SR is the most important. This transition may reflect the progressive development of the t tube-SR units characteristic of mature myocytes. We have hence directly defined in the whole beating heart the developmental changes of E-C coupling previously evaluated in single (acutely isolated or cultured) cells and multicellular preparations.

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Maria E. Zoghbi

Three-dimensional structure of vertebrate cardiac muscle myosin filaments

Direct visualization of myosin-binding protein C bridging myosin and actin filaments in intact muscle

Permeation of Calcium through Purified Connexin 26 Hemichannels

Developmental changes of intracellular Ca²⁺transients in beating rat hearts

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Maria E. Zoghbi

Three-dimensional structure of vertebrate cardiac muscle myosin filaments

Direct visualization of myosin-binding protein C bridging myosin and actin filaments in intact muscle

Permeation of Calcium through Purified Connexin 26 Hemichannels

Developmental changes of intracellular Ca2+transients in beating rat hearts

Contact Info

Product

Resources

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Developmental changes of intracellular Ca²⁺transients in beating rat hearts