2011
DOI: 10.1152/jn.00133.2011
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Somatic calcium level reports integrated spiking activity of cerebellar interneurons in vitro and in vivo

Abstract: We examined the relationship between somatic Ca 2ϩ signals and spiking activity of cerebellar molecular layer interneurons (MLIs) in adult mice. Using two-photon microscopy in conjunction with cell-attached recordings in slices, we show that in tonically firing MLIs loaded with high-affinity Ca 2ϩ probes, Ca 2ϩ -dependent fluorescence transients are absent. Spike-triggered averages of fluorescence traces for MLIs spiking at low rates revealed that the fluorescence change associated with an action potential is … Show more

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Cited by 32 publications
(35 citation statements)
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“…In the absence of ChR2 expression, we found no change in GCaMP5-G fluorescence (mean DF/F p = 0.1%, where DF/F p is the calcium signal amplitude; see Figure 3B, bottom trace, and Supplemental Experimental Procedures; 95% confidence interval of the mean (CI95), [À0.7%, 0.9%]; p = 75 mW/mm 2 ; n = 48 cells from 3 mice). In ChR2/GCaMP5-G-coexpressing neurons, the evoked signal rose linearly with the number of pulses, similar to previous observations at MLI soma with fura-2 imaging in cerebellar slices (Franconville et al, 2011). Therefore, each pulse drove a ChR2-mediated cation influx, leading to an increase of GCaMP5-G fluorescence.…”
Section: Photoactivation and Imaging In Anesthetized Micesupporting
confidence: 88%
“…In the absence of ChR2 expression, we found no change in GCaMP5-G fluorescence (mean DF/F p = 0.1%, where DF/F p is the calcium signal amplitude; see Figure 3B, bottom trace, and Supplemental Experimental Procedures; 95% confidence interval of the mean (CI95), [À0.7%, 0.9%]; p = 75 mW/mm 2 ; n = 48 cells from 3 mice). In ChR2/GCaMP5-G-coexpressing neurons, the evoked signal rose linearly with the number of pulses, similar to previous observations at MLI soma with fura-2 imaging in cerebellar slices (Franconville et al, 2011). Therefore, each pulse drove a ChR2-mediated cation influx, leading to an increase of GCaMP5-G fluorescence.…”
Section: Photoactivation and Imaging In Anesthetized Micesupporting
confidence: 88%
“…Because the fluorescence signal illustrated in Figure 7 is a sublinear function of firing frequency (Franconville et al, 2011) and because this signal increases by a ratio of threefold to ninefold during patching (physiological temperature data), the relative frequency increase induced by patching is if anything larger than this ratio. Thus, applying the calibration procedure of Franconville et al to the data obtained in the older group at physiological temperature, the firing frequency before patching is estimated at only 1.4 versus 7.1 Hz during patching, a fivefold ratio, compared with the 2.9-fold ratio indicated by the data of Figure 7C.…”
Section: Inward Single-channel Currents During Cell-attached Recordingmentioning
confidence: 98%
“…Muscimol stops cell firing and allows to measure the fluorescence level displayed without action potentials. Thus, the fluorescence change observed during muscimol application reflects the cell firing rate (Franconville et al, 2011).…”
Section: Inward Single-channel Currents During Cell-attached Recordingmentioning
confidence: 99%
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