TY - JOUR T1 - Circuit-Specific Dendritic Development in the Piriform Cortex JF - eneuro JO - eNeuro DO - 10.1523/ENEURO.0083-20.2020 VL - 7 IS - 3 SP - ENEURO.0083-20.2020 AU - Laura Moreno-Velasquez AU - Hung Lo AU - Stephen Lenzi AU - Malte Kaehne AU - Jörg Breustedt AU - Dietmar Schmitz AU - Sten Rüdiger AU - Friedrich W. Johenning Y1 - 2020/05/01 UR - http://www.eneuro.org/content/7/3/ENEURO.0083-20.2020.abstract N2 - Dendritic geometry is largely determined during postnatal development and has a substantial impact on neural function. In sensory processing, postnatal development of the dendritic tree is affected by two dominant circuit motifs, ascending sensory feedforward inputs and descending and local recurrent connections. In the three-layered anterior piriform cortex (aPCx), neurons in the sublayers 2a and 2b display vertical segregation of these two circuit motifs. Here, we combined electrophysiology, detailed morphometry, and Ca2+ imaging in acute mouse brain slices and modeling to study circuit-specific aspects of dendritic development. We observed that determination of branching complexity, dendritic length increases, and pruning occurred in distinct developmental phases. Layer 2a and layer 2b neurons displayed developmental phase-specific differences between their apical and basal dendritic trees related to differences in circuit incorporation. We further identified functional candidate mechanisms for circuit-specific differences in postnatal dendritic growth in sublayers 2a and 2b at the mesoscale and microscale levels. Already in the first postnatal week, functional connectivity of layer 2a and layer 2b neurons during early spontaneous network activity scales with differences in basal dendritic growth. During the early critical period of sensory plasticity in the piriform cortex, our data are consistent with a model that proposes a role for dendritic NMDA-spikes in selecting branches for survival during developmental pruning in apical dendrites. The different stages of the morphologic and functional developmental pattern differences between layer 2a and layer 2b neurons demonstrate the complex interplay between dendritic development and circuit specificity. ER -