Perirhinal damage produces modality-dependent deficits in fear learning.

The perirhinal cortex (PER) receives multimodal and unimodal sensory information from all modalities. In addition, the PER is anatomically connected with several brain regions that support fear learning. Several studies suggest that the PER is involved in fear conditioning to discontinuous auditory cues but not to continuous auditory cues.

Instantaneous amplitude and shape of postrhinal theta oscillations differentially encode running speed.

Hippocampal theta oscillations have a temporally asymmetric waveform shape, but it is not known if this theta asymmetry extends to all other cortical regions involved in spatial navigation and memory. Here, using both established and improved cycle-by-cycle analysis methods, we show that theta waveforms in the postrhinal cortex are also temporally asymmetric. On average, the falling phase of postrhinal theta cycles lasts longer than the subsequent rising phase.

Perirhinal cortex inactivation produces retrieval deficits in fear extinction to a discontinuous visual stimulus.

Several studies suggest that the perirhinal cortex (PER) may function to unitize stimulus components across time or modalities. While the PER has been shown to be critical for fear acquisition to discontinuous stimuli, the role of the PER in fear extinction memory has not been evaluated. The current study assessed the involvement of the PER during fear extinction training to a continuous or discontinuous conditioned stimulus (CS).

Revisiting the autoconditioning hypothesis for acquired reactivity to ultrasonic alarm calls.

Rats emit 22 kHz ultrasonic vocalizations (USVs) in association with pain, fear, or distress. Whereas the capacity to produce USVs is innate, reactivity to them appears to require experience. Specifically, 22 kHz USVs fail to elicit freezing behavior in naïve laboratory rats.

Functional connectivity of dorsal and ventral frontoparietal seed regions during auditory orienting.

Our ability to refocus auditory attention is vital for even the most routine day-to-day activities. Shifts in auditory attention can be initiated "voluntarily," or triggered "involuntarily" by unexpected novel sound events. Here we employed psychophysiological interaction (PPI) analyses of auditory functional MRI data, to compare functional connectivity patterns of distinct frontoparietal cortex regions during cued voluntary vs.

Deficits in conditioned fear extinction in obsessive-compulsive disorder and neurobiological changes in the fear circuit.

Importance: Obsessive-compulsive disorder (OCD) may be characterized by impaired self-regulation and behavioral inhibition. Elevated fear and anxiety are common characteristics of this disorder. The neurobiology of fear regulation and consolidation of safety memories have not been examined in this patient population.

Single neuron activity and theta modulation in postrhinal cortex during visual object discrimination.

Postrhinal cortex, rodent homolog of the primate parahippocampal cortex, processes spatial and contextual information. Our hypothesis of postrhinal function is that it serves to encode context, in part, by forming representations that link objects to places. To test this hypothesis, we recorded postrhinal neurons and local field potentials (LFPs) in rats trained on a two-choice, visual discrimination task.

Resting amygdala and medial prefrontal metabolism predicts functional activation of the fear extinction circuit.

Objective: Individual differences in a person's ability to control fear have been linked to activation in the dorsal anterior cingulate cortex, the ventromedial prefrontal cortex, and the amygdala. This study investigated whether functional variance in this network can be predicted by resting metabolism in these same regions.

Method: The authors measured resting brain metabolism in healthy volunteers with positron emission tomography using [18F]fluorodeoxyglucose.

Aging-related changes in calcium-binding proteins in rat perirhinal cortex.

Dysregulation of intracellular calcium homeostasis has been linked to neuropathological symptoms observed in aging and age-related disease. Alterations in the distribution and relative frequency of calcium-binding proteins (CaBPs), which are important in regulating intracellular calcium levels, may contribute to disruption of calcium homeostasis. Here we examined the laminar distribution of three CaBPs in rat perirhinal cortex (PR) as a function of aging.

The Floor Projection Maze: A novel behavioral apparatus for presenting visual stimuli to rats.

There is a long tradition of studying visual learning in rats by presenting stimuli vertically on cards or monitors. The procedures are often labor intensive and the rate of acquisition can be prohibitively low. Available evidence suggests that rats process visual information presented in the lower visual hemifield more effectively than information presented in the upper visual hemifield.

Recognition memory: can you teach an old dogma new tricks?

Familiarity and recollection are components of recognition memory. Whether these underlie two separate processes or a single process differing only in memory strength is a matter of continued debate. In this issue of Neuron, Haskins et al.

Single-unit firing in rat perirhinal cortex caused by fear conditioning to arbitrary and ecological stimuli.

Pretraining lesions of rat perirhinal cortex (PR) severely impair pavlovian fear conditioning to a 22 kHz ultrasonic vocalization (USV) cue. However, PR lesions are without significant effect when the cue is a continuous tone at the same or a lower frequency. Here we examined fear-conditioning-produced changes in single-unit firing elicited in rat PR by a 22 kHz tone cue or a 22 kHz USV cue.

Morphology and ontogeny of rat perirhinal cortical neurons.

Golgi-impregnated neurons from rat perirhinal cortex (PR) were classified into one of 15 distinct morphological categories (N = 6,891). The frequency of neurons in each cell class was determined as a function of the layer of PR and the age of the animal, which ranged from postnatal day 0 (P0) to young adulthood (P45). The developmental appearance of Golgi-impregnated neurons conformed to the expected "inside-out" pattern of development, meaning that cells populated in deep before superficial layers of PR.

Functional neuroanatomy of the parahippocampal region: the lateral and medial entorhinal areas.

The entorhinal cortex (EC) serves a pivotal role in corticohippocampal interactions, but a complete description of its extrinsic connections has not been presented. Here, we have summarized the cortical, subcortical, and hippocampal connections of the lateral entorhinal area (LEA) and the medial entorhinal area (MEA) in the rat. We found that the targets and relative strengths of the entorhinal connections are strikingly different for the LEA and MEA.

Functional neuroanatomy of the parahippocampal region in the rat: the perirhinal and postrhinal cortices.

The parahippocampal region in the rodent brain includes the perirhinal, postrhinal, and entorhinal cortices, the presubiculum, and the parasubiculum. In recent years, the perirhinal and postrhinal cortices have been a focus in memory research because they supply highly processed, polymodal sensory information to the hippocampus, both directly and via the entorhinal cortex. Available evidence indicates that these cortices receive different complements of cortical information, which are then forwarded to the hippocampus via parallel pathways.

Single-unit responses to 22 kHz ultrasonic vocalizations in rat perirhinal cortex.

Rats emit ultrasonic vocalizations (USVs) as social signals in several situations. Lesion studies have shown that rat perirhinal cortex (PR), a polymodal sensory region that is reciprocally connected with the amygdala, is critical for normal fear conditioning to so-called "22 kHz USVs". Here we evaluated single-unit responses in rat PR to 22 kHz USVs and other acoustic stimuli.