SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2588156913> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2588156913 endingPage "3495" @default.
W2588156913 startingPage "3483" @default.
W2588156913 abstract "Key points Spontaneous activity of the sensory inner hair cells shapes maturation of the developing ascending (afferent) auditory system before hearing begins. Just before the onset of hearing, descending (efferent) input from cholinergic neurons originating in the brainstem inhibit inner hair cell spontaneous activity and may further refine maturation. We show that agonist activation of the group I metabotropic glutamate receptor mGluR1 increases the strength of this efferent inhibition by enhancing the presynaptic release of acetylcholine. We further show that the endogenous release of glutamate from the inner hair cells may increase the strength of efferent inhibition via the activation of group I metabotropic glutamate receptors. Thus, before the onset of hearing, metabotropic glutamate signalling establishes a local negative feedback loop that is positioned to regulate inner hair cell excitability and refine maturation of the auditory system. Abstract Just before the onset of hearing, the inner hair cells (IHCs) receive inhibitory efferent input from cholinergic medial olivocochlear (MOC) neurons originating in the brainstem. This input may serve a role in the maturation of the ascending (afferent) auditory system by inhibiting spontaneous activity of the IHCs. To investigate the molecular mechanisms regulating these IHC efferent synapses, we combined electrical stimulation of the efferent fibres with patch clamp recordings from the IHCs to measure efferent synaptic strength. By examining evoked responses, we show that activation of metabotropic glutamate receptors (mGluRs) by general and group I‐specific mGluR agonists enhances IHC efferent inhibition. This enhancement is blocked by application of a group I mGluR1‐specific antagonist, indicating that enhancement of IHC efferent inhibition is mediated by group I mGluRs and specifically by mGluR1s. By comparing spontaneous and evoked responses, we show that group I mGluR agonists act presynaptically to increase neurotransmitter release without affecting postsynaptic responsiveness. Moreover, endogenous glutamate released from the IHCs also enhances IHC efferent inhibition via the activation of group I mGluRs. Finally, immunofluorescence analysis indicates that the efferent terminals are sufficiently close to IHC glutamate release sites to allow activation of mGluRs on the efferent terminals by glutamate spillover. Together, these results suggest that glutamate released from the IHCs activates group I mGluRs (mGluR1s), probably present on the efferent terminals, which, in turn, enhances release of acetylcholine and inhibition of the IHCs. Thus, mGluRs establish a local negative feedback loop positioned to regulate IHC activity and maturation of the ascending auditory system in the developing cochlea." @default.
W2588156913 created "2017-02-24" @default.
W2588156913 creator A5019763780 @default.
W2588156913 creator A5054281121 @default.
W2588156913 creator A5056020474 @default.
W2588156913 creator A5062919842 @default.
W2588156913 date "2017-04-21" @default.
W2588156913 modified "2023-10-17" @default.
W2588156913 title "mGluR1 enhances efferent inhibition of inner hair cells in the developing rat cochlea" @default.
W2588156913 cites W1498901682 @default.
W2588156913 cites W1606945552 @default.
W2588156913 cites W164709782 @default.
W2588156913 cites W1931451724 @default.
W2588156913 cites W1966846803 @default.
W2588156913 cites W1974720828 @default.
W2588156913 cites W1976113189 @default.
W2588156913 cites W1977203567 @default.
W2588156913 cites W1983664266 @default.
W2588156913 cites W1986805625 @default.
W2588156913 cites W1989336822 @default.
W2588156913 cites W1990107804 @default.
W2588156913 cites W1995919912 @default.
W2588156913 cites W2003975167 @default.
W2588156913 cites W2014514014 @default.
W2588156913 cites W2017448724 @default.
W2588156913 cites W2030715414 @default.
W2588156913 cites W2031821392 @default.
W2588156913 cites W2035657815 @default.
W2588156913 cites W2037101969 @default.
W2588156913 cites W2037852973 @default.
W2588156913 cites W2043166209 @default.
W2588156913 cites W2043339467 @default.
W2588156913 cites W2044500873 @default.
W2588156913 cites W2063120293 @default.
W2588156913 cites W2065235572 @default.
W2588156913 cites W2068273333 @default.
W2588156913 cites W2069274422 @default.
W2588156913 cites W2073188416 @default.
W2588156913 cites W2091448118 @default.
W2588156913 cites W2092477459 @default.
W2588156913 cites W2095186890 @default.
W2588156913 cites W2102545752 @default.
W2588156913 cites W2106081526 @default.
W2588156913 cites W2120307371 @default.
W2588156913 cites W2127242552 @default.
W2588156913 cites W2129933607 @default.
W2588156913 cites W2137325594 @default.
W2588156913 cites W2137626982 @default.
W2588156913 cites W2155756146 @default.
W2588156913 cites W2164484142 @default.
W2588156913 cites W2166216981 @default.
W2588156913 cites W2311816167 @default.
W2588156913 cites W2418988513 @default.
W2588156913 cites W4241872693 @default.
W2588156913 cites W4289965596 @default.
W2588156913 doi "https://doi.org/10.1113/jp272604" @default.
W2588156913 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5451706" @default.
W2588156913 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28211069" @default.
W2588156913 hasPublicationYear "2017" @default.
W2588156913 type Work @default.
W2588156913 sameAs 2588156913 @default.
W2588156913 citedByCount "20" @default.
W2588156913 countsByYear W25881569132017 @default.
W2588156913 countsByYear W25881569132018 @default.
W2588156913 countsByYear W25881569132019 @default.
W2588156913 countsByYear W25881569132020 @default.
W2588156913 countsByYear W25881569132021 @default.
W2588156913 countsByYear W25881569132022 @default.
W2588156913 crossrefType "journal-article" @default.
W2588156913 hasAuthorship W2588156913A5019763780 @default.
W2588156913 hasAuthorship W2588156913A5054281121 @default.
W2588156913 hasAuthorship W2588156913A5056020474 @default.
W2588156913 hasAuthorship W2588156913A5062919842 @default.
W2588156913 hasBestOaLocation W25881569131 @default.
W2588156913 hasConcept C169760540 @default.
W2588156913 hasConcept C170493617 @default.
W2588156913 hasConcept C17077164 @default.
W2588156913 hasConcept C185592680 @default.
W2588156913 hasConcept C207951395 @default.
W2588156913 hasConcept C22885893 @default.
W2588156913 hasConcept C26702167 @default.
W2588156913 hasConcept C2776512019 @default.
W2588156913 hasConcept C2778585322 @default.
W2588156913 hasConcept C2779263132 @default.
W2588156913 hasConcept C2780130748 @default.
W2588156913 hasConcept C2780648746 @default.
W2588156913 hasConcept C2910068652 @default.
W2588156913 hasConcept C49051014 @default.
W2588156913 hasConcept C55493867 @default.
W2588156913 hasConcept C61174792 @default.
W2588156913 hasConcept C86803240 @default.
W2588156913 hasConceptScore W2588156913C169760540 @default.
W2588156913 hasConceptScore W2588156913C170493617 @default.
W2588156913 hasConceptScore W2588156913C17077164 @default.
W2588156913 hasConceptScore W2588156913C185592680 @default.
W2588156913 hasConceptScore W2588156913C207951395 @default.
W2588156913 hasConceptScore W2588156913C22885893 @default.
W2588156913 hasConceptScore W2588156913C26702167 @default.