61 research outputs found
Dorsal hippocampal involvement in conditioned-response timing and maintenance of temporal information in the absence of the CS
Involvement of the dorsal hippocampus (DHPC) in conditioned-response timing and maintaining temporal information across time gaps was examined in an appetitive Pavlovian conditioning task, in which rats with sham and DHPC lesions were first conditioned to a 15-s visual cue. After acquisition, the subjects received a series of non-reinforced test trials, on which the visual cue was extended (45 s) and gaps of different duration, 0.5, 2.5, and 7.5 s, interrupted the early portion of the cue. Dorsal hippocampal-lesioned subjects underestimated the target duration of 15 s and showed broader response distributions than the control subjects on the no-gap trials in the first few blocks of test, but the accuracy and precision of their timing reached the level of that of the control subjects by the last block. On the gap trials, the DHPC-lesioned subjects showed greater rightward shifts in response distributions than the control subjects. We discussed these lesion effects in terms of temporal versus non-temporal processing (response inhibition, generalisation decrement, and inhibitory conditioning)
Coherence and recurrency: maintenance, control and integration in working memory
Working memory (WM), including a ‘central executive’, is used to guide behavior by internal goals or intentions. We suggest that WM is best described as a set of three interdependent functions which are implemented in the prefrontal cortex (PFC). These functions are maintenance, control of attention and integration. A model for the maintenance function is presented, and we will argue that this model can be extended to incorporate the other functions as well. Maintenance is the capacity to briefly maintain information in the absence of corresponding input, and even in the face of distracting information. We will argue that maintenance is based on recurrent loops between PFC and posterior parts of the brain, and probably within PFC as well. In these loops information can be held temporarily in an active form. We show that a model based on these structural ideas is capable of maintaining a limited number of neural patterns. Not the size, but the coherence of patterns (i.e., a chunking principle based on synchronous firing of interconnected cell assemblies) determines the maintenance capacity. A mechanism that optimizes coherent pattern segregation, also poses a limit to the number of assemblies (about four) that can concurrently reverberate. Top-down attentional control (in perception, action and memory retrieval) can be modelled by the modulation and re-entry of top-down information to posterior parts of the brain. Hierarchically organized modules in PFC create the possibility for information integration. We argue that large-scale multimodal integration of information creates an ‘episodic buffer’, and may even suffice for implementing a central executive
When is the perirhinal cortex necessary for the performance of spatial memory tasks? Neurosci
Abstract The perirhinal cortex and hippocampus have close anatomical links and it has, therefore, been proposed that they have important, coordinated roles in memory. This review examines the relative role of these structures in spatial memory tasks that are known to be hippocampal-dependent. The published lesion data gives a mixed picture, as only some studies detect spatial deficits after perirhinal cortex lesions. The possible reasons for these inconsistencies are reviewed, along with electrophysiological data that indicate how perirhinal cortex lesions may alter neuronal activity in the hippocampus. Overall, the disruptive effects of perirhinal lesions on spatial memory performance are, when they occur, typically transient and never as severe as those seen after hippocampal lesions. It is argued that parallel cortical routes provide key, sensory data to the hippocampus such that in the absence of the perirhinal cortex alternative information is available. The deficits associated with perirhinal damage may then reflect difficulties that arise when task performance requires the use of ambiguous distal cues, for example, those containing overlapping visual features.
Enterocyte and M-cell transport of native and heat-denatured bovine β-lactoglobulin : significance of heat denaturation
The three-dimensional structure, digestibility, and immunological properties of bovine β-lactoglobulin (β-lg) are modified by heat treatments used in processing of liquid milk products. Because it is not known if such treatments also modify the intestinal transport properties of β-lg, the transport of native and heat-denatured bovine β-lg was investigated in experimental cell models using Caco-2 cells and M cells. Transport of β-lg labeled with a fluorescent marker was followed with fluorometric measurements, electrophoretic analyses, and fluorescence microscopy. The data show that both cell types transported native β-lg more efficiently than they did heat-denatured β-lg. In addition, M cells transported native β-lg more than Caco-2 cells. Transport of native and heat-denatured β-lg was transcellular. The electrophoretic data also suggest that heat-denatured β-lg may have degraded more than native β-lg during the transport
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