Saku T. Sinkkonen scite author profile

Previously, GABA(A) receptor epsilon and theta subunits have been identified only in human. Here, we describe properties of the epsilon and theta subunit genes from mouse and rat that reveal an unusually high level of divergence from their human homologs. In addition to a low level of amino acid sequence conservation ( approximately 70%), the rodent epsilon subunit cDNAs encode a unique Pro/Glx motif of approximately 400 residues within the N-terminal extracellular domain of the subunits. Transcripts of the rat epsilon subunit were detected in brain and heart, whereas the mouse theta subunit mRNA was detectable in brain, lung, and spleen by Northern blot analysis. In situ hybridization revealed a particularly strong signal for both subunit mRNAs in rat locus ceruleus in which expression was detectable from the first postnatal day. Lower levels of coexpression were also detected in other brainstem nuclei and in the hypothalamus. However, the expression pattern of theta subunit mRNA was more widespread than that of epsilon subunit, being found also in the cerebral cortex of rat pups. In contrast to primate brain, neither subunit was expressed in the hippocampus or substantia nigra. The results indicate that GABA(A) receptor epsilon and theta subunits are evolving at a much faster rate than other known GABA(A) receptor subunits and that their expression patterns and functional properties may differ significantly between species.

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Intrinsic regenerative potential of murine cochlear supporting cells

Sinkkonen

Chai

Jan

et al. 2011

Sci Rep

102

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The lack of cochlear regenerative potential is the main cause for the permanence of hearing loss. Albeit quiescent in vivo, dissociated non-sensory cells from the neonatal cochlea proliferate and show ability to generate hair cell-like cells in vitro. Only a few non-sensory cell-derived colonies, however, give rise to hair cell-like cells, suggesting that sensory progenitor cells are a subpopulation of proliferating non-sensory cells. Here we purify from the neonatal mouse cochlea four different non-sensory cell populations by fluorescence-activated cell sorting (FACS). All four populations displayed proliferative potential, but only lesser epithelial ridge and supporting cells robustly gave rise to hair cell marker-positive cells. These results suggest that cochlear supporting cells and cells of the lesser epithelial ridge show robust potential to de-differentiate into prosensory cells that proliferate and undergo differentiation in similar fashion to native prosensory cells of the developing inner ear.

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Altered receptor subtypes in the forebrain of GABAA receptor δ subunit-deficient mice: recruitment of γ2 subunits

et al. 2002

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Ectopic expression of the GABAA receptor α6 subunit in hippocampal pyramidal neurons produces extrasynaptic receptors and an increased tonic inhibition

et al. 2002

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Saku T. Sinkkonen

GABA_AReceptor ε and θ Subunits Display Unusual Structural Variation between Species and Are Enriched in the Rat Locus Ceruleus

Intrinsic regenerative potential of murine cochlear supporting cells

Altered receptor subtypes in the forebrain of GABAA receptor δ subunit-deficient mice: recruitment of γ2 subunits

Ectopic expression of the GABAA receptor α6 subunit in hippocampal pyramidal neurons produces extrasynaptic receptors and an increased tonic inhibition

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Saku T. Sinkkonen

GABAAReceptor ε and θ Subunits Display Unusual Structural Variation between Species and Are Enriched in the Rat Locus Ceruleus

Intrinsic regenerative potential of murine cochlear supporting cells

Altered receptor subtypes in the forebrain of GABAA receptor δ subunit-deficient mice: recruitment of γ2 subunits

Ectopic expression of the GABAA receptor α6 subunit in hippocampal pyramidal neurons produces extrasynaptic receptors and an increased tonic inhibition

Contact Info

Product

Resources

About

GABA_AReceptor ε and θ Subunits Display Unusual Structural Variation between Species and Are Enriched in the Rat Locus Ceruleus