, 2004 and Towne et al , 2010) Recently, a modified retrograde a

, 2004 and Towne et al., 2010). Recently, a modified retrograde approach has been developed to map the entire synaptic network converging onto a single cell, labeled with in vivo microelectroporation (Marshel et al., 2010), a technical

advance that could well dovetail with optogenetic control. As described above, the limitations imposed by packaging capacity in viral systems Paclitaxel in vivo can be overcome using single-component optogenetic tools (for example, by using recombinase-dependent opsin-expressing viruses and/or by leveraging relevant anatomy for projection targeting). Beyond the benefits of speed, flexibility, spatiotemporal targeting precision, and high gene copy-number, virus injection into recombinase driver lines also can uncouple promoter specificity from expression strength, since opsin expression is related to the copy number of the virus with its strong nonspecific promoter, and resulting transcription can exceed endogenous transcription from tissue-specific promoters. Protein Tyrosine Kinase inhibitor However, another major class of strategy, generation of mouse transgenic lines directly expressing opsin genes under local promoter-enhancer regions (i.e., not in a recombinase-dependent fashion), provides a distinctly useful means of achieving cell-type-specific opsin expression. While transgenic mouse

lines require effort, time, and cost associated with production and maintenance, the convenience and reliability of homogeneous opsin-expressing animals STK38 provides major experimental leverage. The Thy1::ChR2-EYFP mouse lines (Arenkiel et al., 2007 and Wang et al., 2007) express ChR2 under control of the Thy1 promoter. While as discussed above promoters

do not suffice to completely define cell types and the complement of labeled cells must be considered in each case, Thy1-driven expression is largely restricted to projection neurons, enabling several studies in which optogenetics was applied to study cortical connectivity (Wang et al., 2007), transmission from the olfactory bulb to cortex (Arenkiel et al., 2007), aspects of ganglion cell function in visual impairment (Thyagarajan et al., 2010), cortical information processing (Sohal et al., 2009), and parkinsonian circuitry (Gradinaru et al., 2009). For example, in the latter study it was found that therapeutic deep brain stimulation (DBS) in the subthalamic nucleus (STN) arising from a point source (e.g., electrode or fiber) is by far most effective when the direct target is afferent axons within the structure (these axons then efficiently modulate both downstream and upstream neurons—and indeed potently reduce local STN spiking); much weaker effects were seen with direct modulation of local cell bodies in the STN by a point source of control, suggesting electrical DBS might be best designed to target axonal tracts rather than gray matter. A defined local cell type was targeted in a pioneering study by Kiehn and colleagues (Hägglund et al.

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