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Title: Differential firing pattern and response to lighting conditions of rat intergeniculate leaflet neurons projecting to suprachiasmatic nucleus or contralateral intergeniculate leaflet. Author: Blasiak T, Lewandowski MH. Journal: Neuroscience; 2013 Jan 03; 228():315-24. PubMed ID: 23103793. Abstract: The intergeniculate leaflet (IGL) of the lateral geniculate body in the rat is a population of GABAergic neurons that can be divided into two, anatomically and neurochemically distinct populations. One population comprises neuropeptide-Y (NPY)-positive neurons that form the geniculohypothalamic tract innervating the suprachiasmatic nuclei (SCN) and the other population comprises enkephalin-positive (ENK) neurons giving rise to the geniculo-geniculate tract innervating the contralateral IGL (cIGL). Previous electrophysiological studies have observed various patterns of firing and different responses to changes in lighting conditions of IGL neurons in vitro and in vivo. The aim of the present study was to determine if these distinct properties could be ascribed to differentially projecting IGL neurons. Neuron activity was recorded extracellularly in the IGL of anaesthetised rats under different lighting conditions (i.e. light/dark). Antidromic activation was used to identify recorded cells as projecting to the SCN or the contralateral IGL. All IGL neurons identified as projecting to the contralateral IGL displayed infra-slow oscillatory activity (ISO; i.e. slow rhythmic bursts of action potentials). ISO of these neurons was sustained in the light and was diminished in the darkness. In contrast, all IGL neurons identified as projecting to the SCN displayed a low level of firing in the light and a majority of these cells increased firing in the darkness. All IGL neurons projecting to the SCN were characterised by an irregular pattern of firing in the light and dark. These data are the first to demonstrate that differentially projecting rat intergeniculate leaflet neurons are characterised by distinct firing patterns and opposite responses to light and dark conditions.[Abstract] [Full Text] [Related] [New Search]