Exposure to Short Photoperiod Regime Restores Spatial Cognition in Ventral Subicular Lesioned Rats: Potential Role of Hippocampal Plasticity, Glucocorticoid Receptors, and Neurogenesis

Number of subfields of the rat dorsal subiculum defined by the NOS and PCP4 immunoreactivities changes according to the different levels of observation

The subiculum is a main output part of the hippocampal formation and important for learning and memory. According to connection studies, the distal and proximal regions of the subiculum project to the brain regions related to the spatial and emotional memories, respectively. Our previous morphological studies indicated that the ventral subiculum (vSub) consists of two regions, the distal subiculum (Sub1) and the proximal subiculum (Sub2), while the dorsal subiculum (dSub) seemed to comprise only one region (Sub1). However, the connection studies reported that the dorsal subiculum also contained two regions. Accordingly, we hypothesized that the dorsal subiculum may indicate "one region" and "two regions" at the different dorsoventral levels. To confirm this hypothesis, serial sections of the dorsal subiculum were prepared and labeled for NOS and PCP4 as markers dividing the subiculum. As a result, vSub showed two regions, Sub1 and Sub2, whereas the dorsal tip of the subiculum showed one region (Sub1) as shown in our previous studies. However, two regions were also observed in the dorsal sections. Accordingly, the same dorsal subiculum indicated different number of regions at the different levels of observation. To avoid the confusion, we propose to divide the subiculum into Sub1 and Sub2 by immunoreactivities for subicular markers, instead of the rough division into the distal / proximal parts or the dorsal / ventral parts. Furthermore, we confirmed Sub2 projected to the lateral septum. That is consistent with the fact that the proximal and ventral parts of the subiculum are involved in emotional memory.

In vivo synaptic potency, short-term and long-term plasticity at the hippocampal Schaffer collateral-CA1 synapses: Role of different light-dark cycles in male rats

The changes in the light-dark(L/D) cycle could modify cellular mechanisms in some brain regions. The present study compared the effects of various L/D cycles on invivo synaptic potency, short-term and long-term plasticity in the hippocampal CA1 area, adrenal glands weight(AGWs), corticosterone (CORT) levels, and body weight differences(BWD) in male rats. Male rats were assigned into different L/D cycle groups: L4/D20, L8/D16, L12/D12(control), L16/D8, and L20/D4. The slope, amplitude, and the area under curve(AUC) related to the field excitatory postsynaptic potentials(fEPSPs) were assessed, using the input-output(I/O) functions, paired-pulse(PP) responses at different interpulse intervals, and after the induction of long-term potentiation(LTP) in the hippocampal CA1 area. Also, the CORT levels, AGWs, and BWDs were measured in all groups. The slope, amplitude, and AUC of fEPSP in the I/O functions, all three phases of PP, before and after the LTP induction, were significantly decreased in all experimental groups, especially in the L20/D4 and L4/D20 groups. As such, the CORT levels and AGWs were significantly increased in all experimental groups, especially in the L20/D4 group. Overall, the uncommon L/D cycles (minimum and particularly maximum durations of light) significantly reduced the cellular mechanism of learning and memory. Also, downtrends were observed in synaptic potency, as well as short-term and long-term plasticity. The changes in PP with high interpulse intervals, or activity of GABAB receptors, were more significant than the changes in other PP phases with different L/D durations. Additionally, the CORT levels, adrenal glands, and body weight gain occurred time-independently concerning different L/D lengths.

Ventral subicular lesion impairs pro-social empathy-like behavior in adult Wistar rats

The subiculum, an important structure of the hippocampal formation, regulates spatial information processing, social cognition, and affective behavior. Earlier we demonstrated deficits in sociability and social novelty as a measure of social cognition in ventral subicular lesioned (VSL) rats. The present study investigated empathy-like pro-social behavior and the associated affective states in VSL rats. The ability of free rats to release trapped cagemates was assessed using a modified door-opening empathy task.The rat pairs (free rat and the trapped cagemate) used were from the same group and tested for eight days to assess the pro-social behavior displayed by the free rats. The control_free rats learned to open the door quickly to release the trapped cagemate and both the rats displayed social responses by emitting 'hedonic' calls (50-kHz ultrasonic vocalizations) while playing after the release. The VSL_free rats, however, were less exploratory, displayed apathy towards the trapped cagemate, demonstrated freezing behavior following door-opening and did not interact with the cagemate even after its release. These findings indicate deficits of social motivation and reinforcement learning associated with lesions in possibly both the rats. In addition, the VSL rat pairs elicited more 22-kHz 'alarm' calls and fewer 50-kHz 'hedonic' calls highlighting the lesion-induced alterations of contextual processing and threat perception abilities. In conclusion, VSL led to significant pro-social deficits implicating the role of ventral subiculum in social cognition and empathy. More studies are needed to substantiate whether the subiculum is implicated in social deficits associated with psychiatric conditions such as autism spectrum disorder.