Spatial Representations in Rat Orbitofrontal Cortex

Wikenheiser, Andrew M.; Gardner, Michael O.; Mueller, Lauren E.; Schoenbaum, Geoffrey

doi:10.1523/jneurosci.0830-21.2021

Cited by 36 publications

(25 citation statements)

References 88 publications

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“…A small but growing body of research suggests that, at least in rodents, there may be navigational functions outside of the hippocampal complex, including within the prefrontal cortex or its homologues (Patai & Spiers, 2021; Maisson et al, 2022). For example, neurons in somatosensory cortex, orbitofrontal cortex, and piriform cortex encode current and future spatial positions as well as the location of targets in the environment (Basu et al, 2021; Long and Zhang, 2021; Poo et al, 2022; Wikenheiser et al, 2021). This work raises the possibility that navigational functions may likewise be widespread across the prefrontal cortex.…”

Section: Introductionmentioning

confidence: 99%

Widespread coding of navigational variables in prefrontal cortex

Maisson

Voloh

Cervera

et al. 2022

Preprint

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To navigate, we must represent information about our place in the environment. Traditional research highlights the role of the hippocampal complex in this process. Spurred by recent research highlighting the widespread cortical encoding of cognitive and motor variables previously thought to have localized function, we hypothesized that navigational variables would be likewise encoded widely, especially in the prefrontal cortex, which is often associated with control of volitional behavior. We recorded neural activity from six prefrontal structures while macaques performed a foraging task in an open enclosure. In all six regions, we found strong encoding of allocentric position, head direction, egocentric boundary distance, and linear and angular velocity. These encodings were not accounted for by distance or time to reward. Strength of coding of all variables increase along a ventral-to-dorsal gradient. Together these results argue that encoding of navigational variables is not localized to the hippocampal complex and support the hypothesis that navigation is continuous with other forms of flexible cognition in the service of action.

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Section: Introductionmentioning

confidence: 99%

Widespread coding of navigational variables in prefrontal cortex

Maisson

Voloh

Cervera

et al. 2022

Preprint

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“…Accordingly, muscle length inputs to a cortical neuron could be continuously tuned by activity representing spatial information in somatosensory cortex (Long and Zhang, 2021; Yin et al, 2018). Spatial activity could be acquired in fS1 based on direct connectivity from limbic structures (Fyhn et al, 2004; Swanson and Köhler, 1986) or cortical areas interconnected with the hippocampal-entorhinal formation (Sauer et al, 2022; Wikenheiser et al, 2021; Wilber et al, 2014). Encoding of space could in fact be a common feature of sensory cortical circuits (Fiser et al, 2016; Town et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Peripersonal encoding of forelimb proprioception in the mouse somatosensory cortex

Alonso

Palacio-Manzano

Scheer

et al. 2022

Preprint

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Conscious perception of limb movements depends on proprioceptive neural responses in the somatosensory cortex. In contrast to tactile sensations, proprioceptive cortical coding is barely studied in the mammalian brain and practically non-existent in rodent research. To understand the cortical representation of this important sensory modality we developed a passive forelimb displacement paradigm in behaving mice. We imaged the responses of layer 2/3 neurons with two-photon microscopy and tracked the 3D position of limb joints. In addition, mice were trained to perceptually discriminate proprioceptive stimuli allowing us to delineate the mouse proprioceptive cortex with optogenetic silencing experiments. Our results reveal that passive forelimb movements are preferentially encoded as a spatial direction vector that interfaces movements with behaviorally relevant targets. This neural representation of proprioception appears not to be limited to the somatosensory cortex.

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“…The majority of CA1 neurons change their spatial representation over time 8,27 , suggesting that a transformation of dynamic-to-stable neuronal responses might occur during this passage of spatial information to the mPFC network. Alternatively, a subset of CA1 place cells with temporally consistent place field locations 28 , or spatially tuned neurons in other neocortical areas such as somatosensory 29 or orbitofrontal cortex 30 might support stable spatial tuning in mPFC circuits. The cellular and network processes which might underlie the transmission of spatial information remain, however, to be investigated.…”

Section: Discussionmentioning

confidence: 99%

A persistent prefrontal reference frame across time and task rules

Muysers

Chen

Sauer

et al. 2022

Preprint

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Behavior can be remarkably consistent, even over extended time periods, yet whether this is reflected in stable or ‘drifting’ neuronal responses to task features remains controversial. We find a persistently active ensemble of neurons in the medial prefrontal cortex (mPFC) of mice that reliably maintains trajectory-specific tuning over several weeks of performance in an olfaction-guided spatial memory task. The spatial map is stabilized during learning, upon which repeatedly active neurons show little representational drift and maintain their spatial tuning across long pauses in task exposure and across repeated changes in cue-target location pairings. These data thus suggest a ‘core ensemble’ of prefrontal neurons forming a reference frame of task-relevant space for the performance of consistent behavior over extended periods of time.

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Spatial Representations in Rat Orbitofrontal Cortex

Cited by 36 publications

References 88 publications

Widespread coding of navigational variables in prefrontal cortex

Widespread coding of navigational variables in prefrontal cortex

Peripersonal encoding of forelimb proprioception in the mouse somatosensory cortex

A persistent prefrontal reference frame across time and task rules

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