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Construction of complex memories via parallel distributed cortical–subcortical iterative integration

Neil McNaughton, Seralynne D. Vann

2022Trends in Neurosciences59 citationsDOIOpen Access PDF

Abstract

The construction of complex engrams requires hippocampal-cortical interactions. These include both direct interactions and ones via often-overlooked subcortical loops. Here, we review the anatomical organization of a hierarchy of parallel 'Papez' loops through the hypothalamus that are homologous in mammals from rats to humans. These hypothalamic loops supplement direct hippocampal-cortical connections with iterative reprocessing paced by theta rhythmicity. We couple existing anatomy and lesion data with theory to propose that recirculation in these loops progressively enhances desired connections, while reducing interference from competing external goals and internal associations. This increases the signal-to-noise ratio in the distributed engrams (neocortical and cerebellar) necessary for complex learning and memory. The hypothalamic nodes provide key motivational input for engram enhancement during consolidation.

Topics & Concepts

NeurosciencePsychologyCognitive scienceComputer scienceCognitive psychologyNeural dynamics and brain functionAdvanced Memory and Neural ComputingFunctional Brain Connectivity Studies
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