What are grid-like responses doing in the orbitofrontal cortex?

Raithel, Clara U.; Gottfried, Jay A.

doi:10.1037/bne0000453

Cited by 8 publications

(6 citation statements)

References 82 publications

(167 reference statements)

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“…BOLD does not appear to suffer from this bias (Logothetis and Wandell, 2004). As a result, one interpretation of the low number of grid cells in our dataset is that the gridness reported in BOLD response reflects the influence of input from hippocampal areas, functioning to help support and properly organize or coordinate the map in OFC with that in other areas (Raithel and Gottfried, 2021). Another possibility is that the foraging task used in the present work was not sufficiently challenging to require or evoke gridlike representations in OFC In hippocampus, for instance, there is evidence that behavioral demands alter spatial representations, with place cells showing increased temporal reliability on tasks that require solving more challenging navigation problems (Olypher et al, 2002;Jackson and Redish, 2007;Fenton et al, 2010;Wikenheiser and Redish, 2011).…”

Section: Discussionmentioning

confidence: 73%

Spatial Representations in Rat Orbitofrontal Cortex

et al. 2021

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The orbitofrontal cortex (OFC) and hippocampus share striking cognitive and functional similarities. As a result, both structures have been proposed to encode "cognitive maps" that provide useful scaffolds for planning complex behaviors. However, while this function has been exemplified by spatial coding in neurons of hippocampal regions-particularly place and grid cells-spatial representations in the OFC have been investigated far less. Here we sought to address this by recording OFC neurons from male rats engaged in an open-field foraging task like that originally developed to characterize place fields in rodent hippocampal neurons. Single-unit activity was recorded as rats searched for food pellets scattered randomly throughout a large enclosure. In some sessions, particular flavors of food occurred more frequently in particular parts of the enclosure; in others, only a single flavor was used. OFC neurons showed spatially localized firing fields in both conditions, and representations changed between flavored and unflavored foraging periods in a manner reminiscent of remapping in the hippocampus. Compared with hippocampal recordings taken under similar behavioral conditions, OFC spatial representations were less temporally reliable, and there was no significant evidence of grid tuning in OFC neurons. These data confirm that OFC neurons show spatial firing fields in a large, two-dimensional environment in a manner similar to hippocampus. Consistent with the focus of the OFC on biological meaning and goals, spatial coding was weaker than in hippocampus and influenced by outcome identity.

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Section: Discussionmentioning

confidence: 73%

Spatial Representations in Rat Orbitofrontal Cortex

et al. 2021

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“…Chen, S.Q. Chen & Ding, 2020;Meier, Q. Wang, Ji Ganachaud & Burkhalter, 2021;Huang, Rolls, Hsu, Feng & Lin, 2021;Raithel & Gottfried, 2021;Syversen et al, 2021) and cover distal cortex areas, e.g., primary somatosensory cortex (С. and area prostriata (Hu et al, 2020).…”

Section: Entorhinal Cortexmentioning

confidence: 99%

Five discoveries of Volodymyr Betz. Part one. Betz and the islands of entorhinal cortex

Medvediev

Cherkasov

Vaslovych³

et al. 2023

USMYJ

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in the series of publications, which this article opens, we consider five fundamental neuromorphological observations of our compatriot, the classic of world neuroscience, Volodymr Betz. For four of them, we demonstrate the status of discoveries for the first time, for the other one — the giant pyramidal neurons of the motor cortex — despite its widespread and long-standing recognition, we reveal the limitations of modern knowledge and ideas. Two of the mentioned observations — giant fusiform, or spindle-shaped neurons of the cingulate and insular cortex and islands of the entorhinal cortex — are currently known only to a narrow circle of specialists; to the others two, islands of Calleja and signs of the columnar cortex organization, we pay attention for the first time. In this, the initial part of the series, exposing modern apprehensions about the structure and functions of the entorhinal cortex, we demonstrate the weight of Betz's pioneering observation of extraordinary neuron clusters, which are nowadays known as entorhinal islands, and prove the fact of recognizing his historical priority in the description of these amazing brain structures.

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“…Therefore, it is not impossible that the somatosensory cortex will respond in grid-like patterns when different parts of the objects are touched, so that all combined neural responses form a coherent allocentric representation of the object. Extending the original idea of cognitive map for spatial landscape (Tolman, 1948 ), the non-spatial information can be organized among visual, olfactory, social and imaging concepts (Bellmund et al, 2018b ; Herweg and Kahana, 2018 ; Raithel and Gottfried, 2021 ).…”

Section: Common Principles and Spatial Mapping In Sensory Perceptionmentioning

confidence: 99%

“…Conceptually, higher-order cortices can use the location-based framework to represent and organize knowledge and social hierarchy (Park et al, 2021 ). Similar to hippocampal sparse encoding of spatial memories, sparse representations of higher-order cortical population activity may encode abstract behavioral concepts or support flexible cognition and behavior (Constantinescu et al, 2016 ; Bellmund et al, 2018b ; Raithel and Gottfried, 2021 ). However, it is also worth pointing out that the fMRI-BOLD signal does not directly measure the neuronal activity, and therefore it cannot be interpreted in the same way as the electrophysiological signal (i.e., spiking activity).…”

Section: Mysteries Of Grid Cells In Sensory and Frontal Corticesmentioning

confidence: 99%

Are Grid-Like Representations a Component of All Perception and Cognition?

Chen

Zhang

Long

et al. 2022

Front. Neural Circuits

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Grid cells or grid-like responses have been reported in the rodent, bat and human brains during various spatial and non-spatial tasks. However, the functions of grid-like representations beyond the classical hippocampal formation remain elusive. Based on accumulating evidence from recent rodent recordings and human fMRI data, we make speculative accounts regarding the mechanisms and functional significance of the sensory cortical grid cells and further make theory-driven predictions. We argue and reason the rationale why grid responses may be universal in the brain for a wide range of perceptual and cognitive tasks that involve locomotion and mental navigation. Computational modeling may provide an alternative and complementary means to investigate the grid code or grid-like map. We hope that the new discussion will lead to experimentally testable hypotheses and drive future experimental data collection.

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What are grid-like responses doing in the orbitofrontal cortex?

Cited by 8 publications

References 82 publications

Spatial Representations in Rat Orbitofrontal Cortex

Spatial Representations in Rat Orbitofrontal Cortex

Five discoveries of Volodymyr Betz. Part one. Betz and the islands of entorhinal cortex

Are Grid-Like Representations a Component of All Perception and Cognition?

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