Brain-wide mapping of inputs to the mouse lateral posterior (LP/Pulvinar) thalamus-anterior cingulate cortex network

The rodent homolog of the primate pulvinar, the lateral posterior (LP) thalamus, is extensively interconnected with multiple cortical areas. While these cortical interactions can span the entire LP, subdivisions of the LP are characterized by differential connections with specific cortical regions. In particular, the medial LP has reciprocal connections with frontoparietal cortical areas, including the anterior cingulate cortex (ACC). The ACC plays an integral role in top-down sensory processing and attentional regulation, likely exerting some of these functions via the LP. However, little is known about how ACC and LP interact, and about the information potentially integrated in this reciprocal network. Here, we address this gap by employing a projection-specific monosynaptic rabies tracing strategy to delineate brain-wide inputs to bottom-up LP -> ACC and top-down ACC -> LP neurons. We find that LP -> ACC neurons receive inputs from widespread cortical regions, including primary and higher order sensory and motor cortical areas. LP -> ACC neurons also receive extensive subcortical inputs, particularly from the intermediate and deep layers of the superior colliculus (SC). Sensory inputs to ACC -> LP neurons largely arise from visual cortical areas. In addition, ACC -> LP neurons integrate cross-hemispheric prefrontal cortex inputs as well as inputs from higher order medial cortex. Our brain-wide anatomical mapping of inputs to the reciprocal LP-ACC pathways provides a roadmap for understanding how LP and ACC communicate different sources of information to mediate attentional control and visuomotor functions.

Automated summary

The rodent homolog of the primate pulvinar, the lateral posterior thalamus, is interconnected with multiple cortical areas, particularly the anterior cingulate cortex (ACC). The ACC and lateral posterior thalamus receive inputs from various cortical and subcortical regions, playing a role in sensory processing, attentional regulation, and visuomotor functions. This study provides insights into the reciprocal interactions and information integration between ACC and lateral posterior thalamus.