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Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working Memory Representations

Santiago Torres-Gomez, Jackson D. Blonde, Diego Mendoza-Halliday, Eric S. Kuebler, Michelle Everest, Xiao‐Jing Wang, Wataru Inoue, Michael O. Poulter, Julio Martínez-Trujillo

2020Cerebral Cortex71 citationsDOIOpen Access PDF

Abstract

Neuronal spiking activity encoding working memory (WM) is robust in primate association cortices but weak or absent in early sensory cortices. This may be linked to changes in the proportion of neuronal types across areas that influence circuits' ability to generate recurrent excitation. We recorded neuronal activity from areas middle temporal (MT), medial superior temporal (MST), and the lateral prefrontal cortex (LPFC) of monkeys performing a WM task and classified neurons as narrow (NS) and broad spiking (BS). The ratio NS/BS decreased from MT > MST > LPFC. We analyzed the Allen Institute database of ex vivo mice/human intracellular recordings to interpret our data. Our analysis suggests that NS neurons correspond to parvalbumin (PV) or somatostatin (SST) interneurons while BS neurons are pyramidal (P) cells or vasoactive intestinal peptide (VIP) interneurons. We labeled neurons in monkey tissue sections of MT/MST and LPFC and found that the proportion of PV in cortical layers 2/3 decreased, while the proportion of CR cells increased from MT/MST to LPFC. Assuming that primate CR/CB/PV cells perform similar computations as mice VIP/SST/PV cells, our results suggest that changes in the proportion of CR and PV neurons in layers 2/3 cells may favor the emergence of activity encoding WM in association areas.

Topics & Concepts

NeocortexNeuroscienceInterneuronWorking memoryPrimateInhibitory postsynaptic potentialSensory systemPsychologyBiologyCognitive psychologyCognitionNeural dynamics and brain functionNeuroscience and Neuropharmacology ResearchMemory and Neural Mechanisms
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