Abstract
SummaryInhibitory neurons orchestrate the activity of excitatory neurons and play key roles in circuit function. Although individual interneurons have been studied extensively, little is known about their properties at the population level. Using random-access 3D two-photon microscopy, we imaged local populations of cerebellar Golgi cells (GoCs), which deliver inhibition to granule cells. We show that population activity is organized into multiple modes during spontaneous behaviors. A slow, network-wide common modulation of GoC activity correlates with the level of whisking and locomotion, while faster (<1 s) differential population activity, arising from spatially mixed heterogeneous GoC responses, encodes more precise information. A biologically detailed GoC circuit model reproduced the common population mode and the dimensionality observed experimentally, but these properties disappeared when electrical coupling was removed. Our results establish that local GoC circuits exhibit multidimensional activity patterns that could be used for inhibition-mediated adaptive gain control and spatiotemporal patterning of downstream granule cells.
Highlights
Inhibitory neurons play key roles in information processing in neural circuits, despite forming a relatively small minority ($10%–30% neocortex and
To investigate population dynamics in local Golgi cells (GoCs) circuits, we monitored their activity with GCaMP6f (Chen et al, 2013), which was selectively expressed in the majority of cerebellar GoCs in the injected region (Figures 1A and S1)
Population activity was monitored with an acousto-optic lens (AOL) three-dimensional (3D) 2-photon microscope (Nadella et al, 2016) by rapidly and selectively imaging the GCaMP6f-expressing GoC somata distributed throughout the imaging volume ($300 3 300 3 150 mm) using small imaging patches (e.g., $40 3 20 mm; Figure 1C; Video S1)
Summary
Inhibitory neurons play key roles in information processing in neural circuits, despite forming a relatively small minority ($10%–30% neocortex and
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