Contractions induced by a calcium-triggered release of calcium from the sarcoplasmic reticulum of single skinned cardiac cells.

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Contractions induced by a calcium-triggered release of calcium from the sarcoplasmic reticulum of single skinned cardiac cells.

A Fabiato and F Fabiato

1. Fragments of single cardiac cells were obtained by homogenizationof ventricular tissue from adult rats. Remaining pieces of sacrolemmawere removed by micro-dissection. Tension was recorded fromthe ends of the skinned (sarcolemma-free) cells with a photodiodeforce transducer. 2. In the presence of a strong buffering ofthe free [Ca2+] with 4-0 mM total EGTA, a tonic tension wasobtained that increased according to t sigmoid curve when thefree ([Ca2+] was increased from 10(-6-75)M to 10(-5-0)M. Thiscurve was not modified by the destruction of the sarcoplasmicreticulum (SR) by the detergent Brij 58. Therefore, the tonictension corresponded to the direct effect of the free [Ca2+]present in the buffer on the myofilaments. 3. In the presenceof a slight buffering of the free [Ca2+] with 0-050 mM totalEGTA, cyclic contractions were observed that were attributedto cyclic releases and re-sequestrations of Ca2+ by the SR.The absence of effect of azide and ruthenium red on the cycliccontractions obtained at a free [Ca2+] lower than 10(-6-50)Mdemonstrated that the mitochondria played no role in the triggeringof these contractions. 4. Cyclic contractions were induced bya slight variation of free [Ca2+] in the buffer from 10(-7-65)Mto 10(-7-40)M. Their amplitude at 10(-7-40)M free Ca2+ was equalto the tonic tension developed by a free [Ca2+] 20 times higherapplied to the myofilaments when the SR was destroyed by detergentor functionally inhibited by high total [EGTA]. It was concludedthat these cyclic contractions corresponded to a Ca2+-triggeredrelease of Ca2+ from the SR. 5. The cyclic contractions wereinduced by the filling of the SR with Ca2+ to a critical levelat which it released a fraction of the Ca2+ it contained. Eachcontraction was followed by a re-sequestration of Ca2+, thekinetics of which conditioned the duration of the cycles. 6.The amplitude of the cyclic contractions increased when thefree [Ca2+] that triggered them was increased. This gradationwas deemed incompatible with a simple regenerative process,which should produce an all-or-nothing response. Additionalprocess, such as a modulation of the Ca2+ release by free [Mg2+]and [ADP] may help to explain the gradation of the contractions.7. It was concluded that a Ca2+-triggered release of Ca2+ fromthe SR of rat ventricular cells may amplify the Ca2+ flux crossingthe sarcolemma during the plateau of the action potential, therebypermitting the activation of the myofilaments.

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