OBJECTIVE: Calcium signaling is integral to endothelium-dependent vasodilation. Our goal was to develop methods enabling automated analyses for accurately and objectively determining the dynamic relationship between EC Ca(2+) responses and arteriolar diameter in vivo. METHODS: User-friendly software (DiaFluor) written in LabView was applied to images acquired at 15fps with a custom macrozoom intravital microscope to evaluate changes in EC Ca(2+) concomitant with arteriolar diameter. Transgenic Cx40(BAC) -GCaMP2 mice expressing a fluorescent Ca(2+) indicator molecule in arteriolar ECs enabled resolution of EC Ca(2+) signaling in response to ACh microiontophoresis (500nA, 100-1000msec pulse) from a micropipette (1μm tip) positioned adjacent to an arteriole in the superfused cremaster muscle preparation. RESULTS: A 100-msec pulse of ACh (1M) had little effect on EC Ca(2+) or arteriolar diameter. As pulse duration increased, vasodilation increased with fluorescence intensity (p<0.01). Based upon fluorescence responses (F/F(o)), the effective diffusion distance of ACh along arterioles increased from ∼100μm (250msec pulse) to ∼200μm (1000msec pulse) with a peak velocity of ∼150μm/sec. CONCLUSIONS: The novel imaging and software presented here are the first to enable automated simultaneous evaluation of EC Ca(2+) signaling and endothelium-dependent vasodilation in vivo.
OBJECTIVE:Calcium signaling is integral to endothelium-dependent vasodilation. Our goal was to develop methods enabling automated analyses for accurately and objectively determining the dynamic relationship between EC Ca(2+) responses and arteriolar diameter in vivo. METHODS: User-friendly software (DiaFluor) written in LabView was applied to images acquired at 15fps with a custom macrozoom intravital microscope to evaluate changes in EC Ca(2+) concomitant with arteriolar diameter. TransgenicCx40(BAC) -GCaMP2mice expressing a fluorescent Ca(2+) indicator molecule in arteriolar ECs enabled resolution of EC Ca(2+) signaling in response to ACh microiontophoresis (500nA, 100-1000msec pulse) from a micropipette (1μm tip) positioned adjacent to an arteriole in the superfused cremaster muscle preparation. RESULTS: A 100-msec pulse of ACh (1M) had little effect on EC Ca(2+) or arteriolar diameter. As pulse duration increased, vasodilation increased with fluorescence intensity (p<0.01). Based upon fluorescence responses (F/F(o)), the effective diffusion distance of ACh along arterioles increased from ∼100μm (250msec pulse) to ∼200μm (1000msec pulse) with a peak velocity of ∼150μm/sec. CONCLUSIONS: The novel imaging and software presented here are the first to enable automated simultaneous evaluation of EC Ca(2+) signaling and endothelium-dependent vasodilation in vivo.
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