Abstract
Network patterns are believed to provide unique temporal contexts for coordinating neuronal activity within and across different regions of the brain. Some of the characteristics of network patterns modeled in vitro are altered in the CA3 or CA1 subregions of hippocampal slices from aged mice. CA3–CA1 network interactions have not been examined previously. We used slices from aged and adult mice to model spontaneous sharp wave ripples and carbachol-induced gamma oscillations, and compared measures of CA3–CA1 network timing between age groups. Coherent sharp wave ripples and gamma oscillations were evident in the CA3–CA1 circuit in both age groups, but the relative timing of activity in CA1 stratum pyramidale was delayed in the aged. In another sample of aged slices, evoked Schaffer collateral responses were attenuated in CA3 (antidromic spike amplitude) and CA1 (orthodromic field EPSP slope). However, the amplitude and timing of spontaneous sharp waves recorded in CA1 stratum radiatum were similar to adults. In both age groups unit activity recorded juxtacellularly from unidentified neurons in CA1 stratum pyramidale and stratum oriens was temporally modulated by CA3 ripples. However, aged neurons exhibited reduced spike probability during the early cycles of the CA3 ripple oscillation. These findings suggest that aging disrupts the coordination of patterned activity in the CA3–CA1 circuit.
Highlights
Many aspects of cognition, including memory, are thought to involve dynamic interactions among ensembles of neurons that are coordinated by different types of patterned network activity 1]
We examined spontaneous sharp wave ripples and carbachol-induced gamma oscillations modeled in hippocampal slices from aged and adult mice, with a particular focus on measures of CA3–CA1 network timing
This study used field potential recordings from hippocampal slices to examine the effects of aging on network timing in the CA3–CA1 circuit
Summary
Many aspects of cognition, including memory, are thought to involve dynamic interactions among ensembles of neurons that are coordinated by different types of patterned network activity 1]. Area CA3 is an important source of some of the network patterns generated within the hippocampus. Cholinergic disinhibition of recurrent collaterals 2] leads to irregular population bursts in CA3. These bursts generate negative deflections in CA1 stratum radiatum called ‘‘sharp waves’’, which are associated with high frequency (,200 Hz) ‘‘ripple’’ oscillations in stratum pyramidale 3,4]. Gamma oscillations emerging in the CA3 subregion can entrain network activity in CA1 12,13], and this mode of coupling is thought to assist memory retrieval during active exploration 14,15]. By coordinating neuronal activity between subregions, CA3-generated network patterns might facilitate information transfer to CA1
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