Pattern of ventral temporal lobe interconnections in rhesus macaques

Author:

Bautista Julied1,García‐Cabezas Miguel Á.1,Medalla Maria23ORCID,Rosene Douglas L.23,Zikopoulos Basilis234ORCID,Barbas Helen1523

Affiliation:

1. Neural Systems Laboratory, Department of Health Sciences Boston University Boston Massachusetts USA

2. Department of Anatomy & Neurobiology Boston University School of Medicine Boston Massachusetts USA

3. Center for Systems Neuroscience Boston University Boston Massachusetts USA

4. Human Systems Neuroscience Laboratory Boston University Boston Massachusetts USA

5. Graduate Program in Neuroscience Boston University School of Medicine Boston Massachusetts USA

Abstract

AbstractThe entorhinal cortex (EC, A28) is linked through reciprocal pathways with nearby perirhinal and visual, auditory, and multimodal association cortices in the temporal lobe, in pathways associated with the flow of information for memory processing. The density and laminar organization of these pathways is not well understood in primates. We studied interconnections within the ventral temporal lobe in young adult rhesus monkeys of both sexes with the aid of neural tracers injected in temporal areas (Ts1, Ts2, TE1, area 36, temporal polar area TPro, and area 28) to determine the density and laminar distribution of projection neurons within the temporal lobe. These temporal areas can be categorized into three different cortical types based on their laminar architecture: the sensory association areas Ts1, Ts2, and TE1 have six layers (eulaminate); the perirhinal limbic areas TPro and area 36 have an incipient layer IV (dysgranular); and area 28 lacks layer IV (agranular). We found that (1) temporal areas that are similar in laminar architecture by cortical type are strongly interconnected, and (2) the laminar pattern of connections is dependent on the difference in cortical laminar structure between linked areas. Thus, agranular A28 is more strongly connected with other agranular/dysgranular areas than with eulaminate cortices. Further, A28 predominantly projected via feedback‐like pathways that originated in the deep layers, and received feedforward‐like projections from areas of greater laminar differentiation, which emanated from the upper layers. Our results are consistent with the Structural Model, which relates the density and laminar distribution of connections to the relationship of the laminar structure between the linked areas. These connections were viewed in the context of the inhibitory microenvironment of A28, which is the key recipient of pathways from the cortex and of the output of hippocampus. Our findings revealed a higher population of calretinin (CR)‐expressing neurons in EC, with a significantly higher density in its lateral division. Medial EC had a higher density of CR neurons in the deep layers, particularly in layer Va. In contrast, parvalbumin (PV) neurons were more densely distributed in the deep layers of the lateral subdivisions of rostral EC, especially in layer Va, whereas the densities of calbindin (CB) neurons in the medial and lateral EC were comparable in all layers, except for layer IIIa, in which medial EC had a higher CB population than the lateral. The pattern of connections in the inhibitory microenvironment of EC, which sends and receives input from the hippocampus, may shed light on signal propagation in this network associated with diverse aspects of memory, and disruptions in neurologic and psychiatric diseases that affect this region.

Funder

National Institutes of Health

National Institute of Mental Health

Publisher

Wiley

Subject

General Neuroscience

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