Optogenetic activation of CA1 pyramidal neurons at the dorsal and ventral hippocampus evokes distinct brain-wide responses revealed by mouse fMRI.

Norio Takata,Yuji Komaki,Keigo Hikishima,Keitaro Yoshida,Masaru Mimura,Yuki Sakai,Kenji F Tanaka,Ming Xu,Hideyuki Okano,Adam J Schwarz

doi:10.1371/journal.pone.0121417

Abstract

The dorsal and ventral hippocampal regions (dHP and vHP) are proposed to have distinct functions. Electrophysiological studies have revealed intra-hippocampal variances along the dorsoventral axis. Nevertheless, the extra-hippocampal influences of dHP and vHP activities remain unclear. In this study, we compared the spatial distribution of brain-wide responses upon dHP or vHP activation and further estimate connection strengths between the dHP and the vHP with corresponding extra-hippocampal areas. To achieve this, we first investigated responses of local field potential (LFP) and multi unit activities (MUA) upon light stimulation in the hippocampus of an anesthetized transgenic mouse, whose CA1 pyramidal neurons expressed a step-function opsin variant of channelrhodopsin-2 (ChR2). Optogenetic stimulation increased hippocampal LFP power at theta, gamma, and ultra-fast frequency bands, and augmented MUA, indicating light-induced activation of CA1 pyramidal neurons. Brain-wide responses examined using fMRI revealed that optogenetic activation at the dHP or vHP caused blood oxygenation level-dependent (BOLD) fMRI signals in situ. Although activation at the dHP induced BOLD responses at the vHP, the opposite was not observed. Outside the hippocampal formation, activation at the dHP, but not the vHP, evoked BOLD responses at the retrosplenial cortex (RSP), which is in line with anatomical evidence. In contrast, BOLD responses at the lateral septum (LS) were induced only upon vHP activation, even though both dHP and vHP send axonal fibers to the LS. Our findings suggest that the primary targets of dHP and vHP activation are distinct, which concurs with attributed functions of the dHP and RSP in spatial memory, as well as of the vHP and LS in emotional responses.

Highlights

The hippocampus has been extensively studied, and implicated in memory, cognition, and emotion [1]
A linear silicon probe was inserted into the dorsal hippocampus (dHP) of a transgenic mouse to measure local field potential (LFP) responses upon optogenetic stimulation of the ChR2(C128S)-expressing CA1 pyramidal neurons at the dHP (Fig. 1B and Fig. 2A left panel, n = 5 mice)
Optogenetic activation at the dHP or ventral hippocampus (vHP) evokes distinct spatial distribution of brain-wide fMRI responses optogenetics with functional magnetic resonance imaging (ofMRI) was performed to compare the spatial distributions of brain-wide blood oxygenation level-dependent (BOLD) responses upon optogenetic activation of CA1 pyramidal neurons at the dHP or vHP of an anesthetized transgenic mouse (5 and 7 mice for dHP and vHP, respectively)

Summary

Introduction

The hippocampus has been extensively studied, and implicated in memory, cognition, and emotion [1]. Electrophysiological activity is distinct within the hippocampus along the longitudinal axis [7]. To our knowledge, comparison of extra-hippocampal influences stemming from dHP and vHP activity has not yet been performed. Anatomical studies have revealed overlapping but different patterns of axonal outputs from the dHP and vHP [8,9], it is unclear whether the extra-hippocampal influence of dHP and vHP activity faithfully reflects the density of these anatomical connections. Selective hippocampal activation has been difficult until recently using conventional electrical stimulation, since this might stimulate non-hippocampal cells that send their axons within the hippocampus

Methods

Results

Conclusion