Dara L. Sosulski scite author profile

Sensory information is transmitted to the brain where it must be processed to translate stimulus features into appropriate behavioral output. In the olfactory system, distributed neural activity in the nose is converted into a segregated map in the olfactory bulb. In this study we ask how this ordered representation is transformed in higher olfactory centers. We have developed a tracing strategy to define the neural circuits that convey information from individual glomeruli in the olfactory bulb to the piriform cortex and the cortical amygdala. The spatial order in the bulb is discarded in piriform cortex; axons from individual glomeruli project diffusely to the piriform without apparent spatial preference. In the cortical amygdala, we observe broad patches of projections that are spatially stereotyped for individual glomeruli. These projections to the amygdala are overlapping and afford the opportunity for spatially localized integration of information from multiple glomeruli. The identification of a distributive pattern of projections to the piriform and stereotyped projections to the amygdala provides an anatomic context for the generation of learned and innate behaviors.

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Representation of Spatial Goals in Rat Orbitofrontal Cortex

Feierstein

Quirk

Uchida

et al. 2006

Neuron

248

274

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The orbitofrontal cortex (OFC) is thought to participate in making and evaluating goal-directed decisions. In rodents, spatial navigation is a major mode of goal-directed behavior, and anatomical and lesion studies implicate the OFC in spatial processing, but there is little direct evidence for coding of spatial or motor variables. Here, we recorded from ventrolateral and lateral OFC in an odor-cued two-alternative choice task requiring orientation and approach to spatial goal ports. In this context, over half of OFC neurons encoded choice direction or goal port location. A subset of neurons was jointly selective for the trial outcome and port location, information useful for the selection or evaluation of spatial goals. These observations show that the rodent OFC not only encodes information relating to general motivational significance, as shown previously, but also encodes spatiomotor variables needed to define specific behavioral goals and the locomotor actions required to attain them.

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Recurrent Circuitry Dynamically Shapes the Activation of Piriform Cortex

Franks

Russo

Sosulski

et al. 2011

Neuron

197

224

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Summary In the piriform cortex, individual odorants activate a unique ensemble of neurons that are distributed without discernable spatial order. Piriform neurons receive convergent excitatory inputs from random collections of olfactory bulb glomeruli. Pyramidal cells also make extensive recurrent connections with other excitatory and inhibitory neurons. We have introduced channelrhodopsin into piriform cortex to characterize these intrinsic circuits and examine their contribution to activity driven by afferent bulbar inputs. We demonstrate that individual pyramidal cells are sparsely interconnected by thousands of excitatory synaptic connections that extend, largely undiminished, across piriform cortex, forming a large excitatory network that can dominate the bulbar input. Pyramidal cells also activate inhibitory interneurons that mediate strong, local feedback inhibition that scales with excitation. This recurrent network can enhance or suppress bulbar input, depending on whether the input arrives before or after the cortex is activated. This circuitry may shape the ensembles of piriform cells that encode odorant identity.

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Dara L. Sosulski

Distinct representations of olfactory information in different cortical centres

Representation of Spatial Goals in Rat Orbitofrontal Cortex

Recurrent Circuitry Dynamically Shapes the Activation of Piriform Cortex

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