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Título
Calcium signalling in cardiac muscle cells
Congreso
Ciba Foundation Symposium 188
Año del Documento
1995
Editorial
University of Maryland. School of Medicine
Descripción Física
18 p.
Descripción
Producción Científica
Documento Fuente
Calcium waves, gradients and oscillations. Ciba Foundation Symposium 188. Chichester: Willey, 1995, p.146-164
Résumé
In heart cells, severa! distinct kinds of transient spatial patterns of cytoplasmic calcium ion concentration ([ Ca2 + )¡) can be observed: (1) [ Ca2 + )¡ waves, in which regions of spontaneously increased [ Ca2 + ] ; propagate at high velocity (100 ¡.im/s) through the cell; (2) Ca2 + 'sparks', which are spontaneous, non-propagating changes in [ Ca2 + ] ; that are localized in small ( == 2 ¡.im) subcellular regions; and (3) evoked [ Ca2 + )¡ transients that are elicited by electrical depolarization, in association with normal excitation-contraction (E
C) coupling. In confocal [ Ca2 + ] ¡ images, evoked [ Ca2 + ] ; transients appear to be nearly spatially uniform throughout the cell, except during their rising phase or during small depolarizations. In contrast to [Ca2 + )¡ waves and spontaneous Ca2 + sparks, evoked [ Ca2 + ] ; transients are triggered by L-type Ca2 + channel current and they are 'controlled', in the sense that stopping the L-type Ca2 + current stops them. Despite their different characteristics, ali three types of Ca2 + transient involve Ca2 + -induced release of Ca2 + from the sarcoplasmic reticulum. Here, we address the question of how the autocatalytic process of Ca2 + -induced Ca2 + release, which can easily be understood to underlie spontaneous regenerative ('uncontrolled'), propagating [Ca2 + )¡ waves, might be 'harnessed', under other circumstances, to produce controlled changes in [ Ca2 + ]¡, as during normal excitation-contraction coupling, or changes in [ Ca2 + )¡ that do not propagate. We discuss our observations of Ca2 + waves, Ca2 + sparks and normal Ca2 + transients in heart cells and review our results on the 'gain' of Ca2 + -induced Ca2 + release. We discuss a model involving Ca2 + microdomains beneath L-type Ca2 + channels, and clusters of Ca2 + -activated Ca2 + release channels in the sarcoplasmic reticulum which may form the basis of the answer to this question
Palabras Clave
Células cardíacas
Calcio
Version del Editor
Idioma
eng
Derechos
openAccess
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