Summary
We investigated the effects of mechanical stretch on intracellular calcium concentration ([Ca2+]i) of cultured neonatal rat ventricular cells using micro-fluorometry with fura-2. Myocytes were cultured on laminin-coated silicon rubber and stretched by pulling the rubber with a manipulator. Myocytes were either mildly stretched (to less than 115% of control length), moderately so (to 115%–125% of control length), or extensively (to over 125% of the control length). “Quick stretches” (accomplished within 10s) of moderate to extensive intensities produced a large transient increase of [Ca2+]i in the early phase of stretch (30s-2 min), followed by a small but sustained increase during the late phase of stretch (5–10 min). The initial transient increase in [Ca2+]i after the “quick stretch” was preserved in the presence of gallopamil (10−7M) or ryanodine (10−5 M), but was absent in Ca2+-free medium or in the presence of gadolinium (10−7M). The late or steady state [Ca2+]i increase was observed in the presence of gadolinium, gallopamil, or ryanodine but was abolished in Ca2+-free medium. A steady-state increase in [Ca2+]i was also evoked by “slow stretch” in which cells were slowly pulled to the final length within 1–2min. As the presence of external Ca2+ was indispensable, increased trans-sarcolemmal Ca2+ influx appears to be involved in both initial and steady-state increases in [Ca2+]i. The initial increase in [Ca2+]i after the “quick stretch” can be attributed to the activation of gadolinium-sensitive, stretch-activated channels.
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Tatsukawa, Y., Kiyosue, T. & Arita, M. Mechanical stretch increases intracellular calcium concentration in cultured ventricular cells from neonatal rats. Heart Vessels 12, 128–135 (1997). https://doi.org/10.1007/BF02767130
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DOI: https://doi.org/10.1007/BF02767130