%0 Journal Article %A Shane R. Crandall %A G. Govindaiah %A Charles L. Cox %T Low-Threshold Ca2+ Current Amplifies Distal Dendritic Signaling in Thalamic Reticular Neurons %D 2010 %R 10.1523/JNEUROSCI.3636-10.2010 %J The Journal of Neuroscience %P 15419-15429 %V 30 %N 46 %X The low-threshold transient calcium current (IT) plays a critical role in modulating the firing behavior of thalamic neurons; however, the role of IT in the integration of afferent information within the thalamus is virtually unknown. We have used two-photon laser scanning microscopy coupled with whole-cell recordings to examine calcium dynamics in the neurons of the strategically located thalamic reticular nucleus (TRN). We now report that a single somatic burst discharge evokes large-magnitude calcium responses, via IT, in distal TRN dendrites. The magnitude of the burst-evoked calcium response was larger than those observed in thalamocortical projection neurons under the same conditions. We also demonstrate that direct stimulation of distal TRN dendrites, via focal glutamate application and synaptic activation, can locally activate distal IT, producing a large distal calcium response independent of the soma/proximal dendrites. These findings strongly suggest that distally located IT may function to amplify afferent inputs. Boosting the magnitude ensures integration at the somatic level by compensating for attenuation that would normally occur attributable to passive cable properties. Considering the functional architecture of the TRN, elongated nature of their dendrites, and robust dendritic signaling, these distal dendrites could serve as sites of intense intra-modal/cross-modal integration and/or top-down modulation, leading to focused thalamocortical communication. %U https://www.jneurosci.org/content/jneuro/30/46/15419.full.pdf