We demonstrate a form of long-term depression (LTD) in the perirhinal cortex that relies on interaction between different glutamate receptors. Group II metabotropic glutamate (mGlu) receptors facilitated group I mGlu receptor-mediated increases in intracellular calcium. This facilitation plus NMDA receptor activation may be necessary for induction of LTD at resting membrane potentials. However, depolarization enhanced NMDA receptor function and removed the requirement of synergy between group I and group II mGlu receptors: under these conditions, activation of only NMDA and group I mGlu receptors was required for LTD. Such glutamate receptor interactions potentially provide new rules for synaptic plasticity. These forms of LTD occur in the perirhinal cortex, where long-term decreases in neuronal responsiveness may mediate recognition memory.
In this study, we have investigated the developmental range over which different stimulus protocols induce long-term depression (LTD). Low-frequency stimulation (LFS; 900 stimuli, 1 Hz) produced LTD in hippocampal slices from rats younger than approximately 40 days old, but not in animals aged between approximately 40 days and 16 weeks. We demonstrate, however, that different stimulus protocols can result in LTD in the adult hippocampus. Whilst one paired-pulse low-frequency stimulus protocol [PP-LFS; 50 ms paired-pulse interval (PPI), 900 pairs of stimuli] produced N-methyl-D-aspartate (NMDA) receptor-independent LTD, another PP-LFS protocol (200 ms PPI; 900 pairs) produced NMDA receptor-dependent LTD. Furthermore, the saturation of NMDA receptor-dependent LTD did not prevent the induction of further NMDA receptor-independent LTD. This lack of occlusion suggests that different mechanisms of expression may underlie each of the above forms of LTD in the adult hippocampus. In contrast to the adult hippocampus, NMDA receptor-dependent LTD was induced by both LFS and PP-LFS (50 ms PPI) in slices from young animals (12-20 days). Although they share a common induction mechanism, LTD induced by PP-LFS may be expressed through other mechanisms in addition to those underlying LFS-induced LTD in the young hippocampus. In conclusion, the results in this study demonstrate that mechanisms of long-term synaptic depression within the hippocampus can alter radically with development of the central nervous system and with the use of different induction protocols.
Functional compartmentalization of dendrites is thought to underlie afferent-specific integration of neural activity in laminar brain structures. Here we show that in the lateral nucleus of the amygdala (LA), an area lacking apparent laminar organization, thalamic and cortical afferents converge on the same dendrites, contacting neighboring but morphologically and functionally distinct spine types. Large spines contacted by thalamic afferents exhibited larger Ca(2+) transients during action potential backpropagation than did small spines contacted by cortical afferents. Accordingly, induction of Hebbian plasticity, dependent on postsynaptic spikes, was restricted to thalamic afferents. This synapse-specific effect involved activation of R-type voltage-dependent Ca(2+) channels preferentially located at thalamic inputs. These results indicate that afferent-specific mechanisms of postsynaptic, associative Hebbian plasticity in LA projection neurons depend on local, spine-specific morphological and molecular properties, rather than global differences between dendritic compartments.
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