4.3 Article

Evidence for two distinct thalamocortical circuits in retrosplenial cortex

期刊

NEUROBIOLOGY OF LEARNING AND MEMORY
卷 185, 期 -, 页码 -

出版社

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.nlm.2021.107525

关键词

Retrosplenial cortex; Anterior thalamus; Theta-modulation; Spatial memory; Chronic rodent electrophysiology; Neuroanatomy; Head direction cells

资金

  1. Wellcome [103896AIA, 103722/Z14/Z]
  2. Royal Society [IEC\R2\181140]
  3. UK BBSRC [BB/T007249/1]
  4. Medical Sciences Division Graduate School Studentship, University of Oxford: Clarendon Fund - Department of Experimental Psychology -Somerville College Mary Somerville Grad-uate Studentship [SFF1718_CB2_ MSD_1074636]
  5. A*Star Graduate Academy
  6. China Schol-arship Council [201608000007]
  7. Wellcome Trust [WT 110157/Z/15/Z]

向作者/读者索取更多资源

The study investigated the differences between two subregions of the retrosplenial cortex (RSC), finding that the granular RSC is more closely connected to the hippocampal formation and receives differential inputs from the anteroventral thalamus (AV) compared to the dysgranular RSC. The results suggest the existence of two distinct but interacting RSC subcircuits, one potentially part of the cognitive hippocampal system and the other linking hippocampal and perceptual regions.
Retrosplenial cortex (RSC) lies at the interface between sensory and cognitive networks in the brain and mediates between these, although it is not yet known how. It has two distinct subregions, granular (gRSC) and dysgranular (dRSC). The present study investigated how these subregions differ with respect to their electrophysiology and thalamic connectivity, as a step towards understanding their functions. The gRSC is more closely connected to the hippocampal formation, in which theta-band local field potential oscillations are prominent. We, therefore, compared theta-rhythmic single-unit activity between the two RSC subregions and found, mostly in gRSC, a subpopulation of non-directional cells with spiking activity strongly entrained by theta oscillations, suggesting a stronger coupling of gRSC to the hippocampal system. We then used retrograde tracers to test for differential inputs to RSC from the anteroventral thalamus (AV). We found that gRSC and dRSC differ in their afferents from two AV subfields: dorsomedial (AVDM) and ventrolateral (AVVL). Specifically: (1) as a whole AV projects more strongly to gRSC; (2) AVVL targets both gRSC and dRSC, while AVDM provides a selective projection to gRSC, (3) the gRSC projection is layer-specific: AVDM targets specifically gRSC superficial layers. These same AV projections are topographically organized with ventral AV neurons innervating rostral RSC and dorsal AV neurons innervating caudal RSC. These combined results suggest the existence of two distinct but interacting RSC subcircuits: one connecting AVDM to gRSC that may comprise part of the cognitive hippocampal system, and the other connecting AVVL to both RSC regions that may link hippocampal and perceptual regions. We suggest that these subcircuits are distinct to allow for differential weighting during integration of converging sensory and cognitive computations: an integration that may take place in thalamus, RSC, or both.

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