Rhythmically active enkephalin-expressing GABAergic cells in the CA1 area of the hippocampus project to the subiculum and preferentially innervate interneurons

Fuentealba, Pablo; Tomioka, Ryohei; Dalezios, Yannis; Marton, Laszlo F.; Studer, Michele; Rockland, Kathleen; Klausberger, Thomas; Somogyi, Peter

Abstract

Enkephalins (ENKs) are endogenous opioids that regulate synaptic excitability of GABAergic networks in the cerebral cortex. Using retrograde tracer injections in the subiculum, we identified a hippocampal population of ENK-expressing projection neurons. In situ hybridization for GAD shows that ENK-expressing cells are a small GABAergic subpopulation. Furthermore, by extracellular recording and juxtacellular labeling in vivo, we identified an ENK-expressing cell in stratum radiatum of the CA1 area by its complete axodendritic arborization and characteristic spike timing during network oscillations. The somatodendritic membrane was immunopositive for mGluR1 alpha, and there was both a rich local axon in CA1 and subicular-projecting branches. The boutons showed cell-type- and layerspecific innervation, i.e., interneurons were the main targets in the alveus, both interneurons and pyramidal cell dendrites were innervated in the other layers, and interneurons were exclusive targets in the subiculum. Parvalbumin-, but not somatostatin-, calbindin-, or cholecystokinin-expressing interneurons were preferred synaptic targets. During network activity, the juxtacellularly labeled ENK-expressing cell was phase modulated throughout theta oscillations, but silenced during sharp-wave/ripple episodes. After these episodes the interneuron exhibited rebound activity of high-frequency spike bursts, presumably causing peptide release. The ENK-expressing interneurons innervating parvalbumin-positive interneurons might contribute to the organization of the sharp-wave/ripple episodes by decreased firing during and rebound activity after the ripple episodes, as well as to the coordination of activity between the CA1 and subicular areas during network oscillations.

Más información

Título según WOS: ID WOS:000259702300013 Not found in local WOS DB
Título de la Revista: JOURNAL OF NEUROSCIENCE
Volumen: 28
Número: 40
Editorial: SOC NEUROSCIENCE
Fecha de publicación: 2008
Página de inicio: 10017
Página final: 10022
DOI:

10.1523/JNEUROSCI.2052-08.2008

Notas: ISI