Two-photon molecular excitation imaging of Ca2+ transients in langendorff-perfused mouse hearts

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Abstract

The ability to image calcium signals at subcellular levels within the intact depolarizing heart could provide valuable information toward a more integrated understanding of cardiac function. Accordingly, a system combining two-photon excitation with laser-scanning microscopy was developed to monitor electrically evoked [Ca2+]i transients in individual cardiomyocytes within noncontracting Langendorff-perfused mouse hearts. [Ca2+]i transients were recorded at depths ≤100 μm from the epicardial surface with the fluorescent indicators rhod-2 or fura-2 in the presence of the excitation-contraction uncoupler cytochalasin D. Evoked [Ca2+]i transients were highly synchronized among neighboring cardiomyocytes. At 1 Hz, the times from 90 to 50% (t90-50%) and from 50 to 10% (t50-10%) of the peak [Ca2+]i were (means ± SE) 73 ± 4 and 126 ± 10 ms, respectively, and at 2 Hz, 62 ± 3 and 94 ± 6 ms (n = 19, P < 0.05 vs. 1 Hz) in rhod-2-loaded cardiomyocytes. [Ca2+]i decay was markedly slower in fura-2-loaded hearts (t90-50% at 1 Hz, 128 ± 9 ms and at 2 Hz, 88 ± 5 ms; t50-10% at 1 Hz, 214 ± 18 ms and at 2 Hz, 163 ± 7 ms; n = 19, P < 0.05 vs. rhod-2). Fura-2induced deceleration of [Ca2+]i decline resulted from increased cytosolic Ca2+ buffering, because the kinetics of rhod-2 decay resembled those obtained with fura-2 after incorporation of the Ca2+ chelator BAPTA. Propagating calcium waves and [Ca2+]i amplitude alternans were readily detected in paced hearts. This approach should be of general utility to monitor the consequences of genetic and/or functional heterogeneity in cellular calcium signaling within whole mouse hearts at tissue depths that have been inaccessible to single-photon imaging.

Original languageEnglish (US)
Pages (from-to)C1654-C1668
JournalAmerican Journal of Physiology - Cell Physiology
Volume284
Issue number6 53-6
StatePublished - Jun 1 2003

Keywords

  • 2,3-butanedione monoxime
  • BAPTA
  • Cytochalasin D
  • Fura-2
  • Rhod-2

ASJC Scopus subject areas

  • Clinical Biochemistry
  • Cell Biology
  • Physiology

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