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Deletion of the Ca(2+) Channel Subunit α(2)δ3 Differentially Affects Ca(v)2.1 and Ca(v)2.2 Currents in Cultured Spiral Ganglion Neurons Before and After the Onset of Hearing
Voltage-gated Ca(2+) channels are composed of a pore-forming α(1) subunit and auxiliary β and α(2)δ subunits, which modulate Ca(2+) current properties and channel trafficking. So far, the partial redundancy and specificity of α(1) for α(2)δ subunits in the CNS have remained largely elusive. Mature s...
| Autores principales: | , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
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Frontiers Media S.A.
2019
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6606706/ https://www.ncbi.nlm.nih.gov/pubmed/31293392 http://dx.doi.org/10.3389/fncel.2019.00278 |
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| author | Stephani, Friederike Scheuer, Veronika Eckrich, Tobias Blum, Kerstin Wang, Wenying Obermair, Gerald J. Engel, Jutta |
| author_facet | Stephani, Friederike Scheuer, Veronika Eckrich, Tobias Blum, Kerstin Wang, Wenying Obermair, Gerald J. Engel, Jutta |
| author_sort | Stephani, Friederike |
| collection | PubMed |
| description | Voltage-gated Ca(2+) channels are composed of a pore-forming α(1) subunit and auxiliary β and α(2)δ subunits, which modulate Ca(2+) current properties and channel trafficking. So far, the partial redundancy and specificity of α(1) for α(2)δ subunits in the CNS have remained largely elusive. Mature spiral ganglion (SG) neurons express α(2)δ subunit isoforms 1, 2, and 3 and multiple Ca(2+) channel subtypes. Differentiation and in vivo functions of their endbulb of Held synapses, which rely on presynaptic P/Q channels (Lin et al., 2011), require the α(2)δ3 subunit (Pirone et al., 2014). This led us to hypothesize that P/Q channels may preferentially co-assemble with α(2)δ3. Using a dissociated primary culture, we analyzed the effects of α(2)δ3 deletion on somatic Ca(2+) currents (I(Ca)) of SG neurons isolated at postnatal day 20 (P20), when the cochlea is regarded to be mature. P/Q currents were the dominating steady-state Ca(2+) currents (54% of total) followed by T-type, L-type, N-type, and R-type currents. Deletion of α(2)δ3 reduced P/Q- and R-type currents by 60 and 38%, respectively, whereas L-type, N-type, and T-type currents were not altered. A subset of I(Ca) types was also analyzed in SG neurons isolated at P5, i.e., before the onset of hearing (P12). Both L-type and N-type current amplitudes of wildtype SG neurons were larger at P5 compared with P20. Deletion of α(2)δ3 reduced L-type and N-type currents by 23 and 44%, respectively. In contrast, small P/Q currents, which were just being up-regulated at P5, were unaffected by the lack of α(2)δ3. In summary, α(2)δ3 regulates amplitudes of L- and N-type currents of immature cultured SG neurons, whereas it regulates P/Q- and R-type currents at P20. Our data indicate a developmental switch from dominating somatic N- to P/Q-type currents in cultured SG neurons. A switch from N- to P/Q-type channels, which has been observed at several central synapses, may also occur at developing endbulbs of Held. In this case, reduction of both neonatal N- (P5) and more mature P/Q-type currents (around/after hearing onset) may contribute to the impaired morphology and function of endbulb synapses in α(2)δ3-deficient mice. |
| format | Online Article Text |
| id | pubmed-6606706 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2019 |
| publisher | Frontiers Media S.A. |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-66067062019-07-10 Deletion of the Ca(2+) Channel Subunit α(2)δ3 Differentially Affects Ca(v)2.1 and Ca(v)2.2 Currents in Cultured Spiral Ganglion Neurons Before and After the Onset of Hearing Stephani, Friederike Scheuer, Veronika Eckrich, Tobias Blum, Kerstin Wang, Wenying Obermair, Gerald J. Engel, Jutta Front Cell Neurosci Neuroscience Voltage-gated Ca(2+) channels are composed of a pore-forming α(1) subunit and auxiliary β and α(2)δ subunits, which modulate Ca(2+) current properties and channel trafficking. So far, the partial redundancy and specificity of α(1) for α(2)δ subunits in the CNS have remained largely elusive. Mature spiral ganglion (SG) neurons express α(2)δ subunit isoforms 1, 2, and 3 and multiple Ca(2+) channel subtypes. Differentiation and in vivo functions of their endbulb of Held synapses, which rely on presynaptic P/Q channels (Lin et al., 2011), require the α(2)δ3 subunit (Pirone et al., 2014). This led us to hypothesize that P/Q channels may preferentially co-assemble with α(2)δ3. Using a dissociated primary culture, we analyzed the effects of α(2)δ3 deletion on somatic Ca(2+) currents (I(Ca)) of SG neurons isolated at postnatal day 20 (P20), when the cochlea is regarded to be mature. P/Q currents were the dominating steady-state Ca(2+) currents (54% of total) followed by T-type, L-type, N-type, and R-type currents. Deletion of α(2)δ3 reduced P/Q- and R-type currents by 60 and 38%, respectively, whereas L-type, N-type, and T-type currents were not altered. A subset of I(Ca) types was also analyzed in SG neurons isolated at P5, i.e., before the onset of hearing (P12). Both L-type and N-type current amplitudes of wildtype SG neurons were larger at P5 compared with P20. Deletion of α(2)δ3 reduced L-type and N-type currents by 23 and 44%, respectively. In contrast, small P/Q currents, which were just being up-regulated at P5, were unaffected by the lack of α(2)δ3. In summary, α(2)δ3 regulates amplitudes of L- and N-type currents of immature cultured SG neurons, whereas it regulates P/Q- and R-type currents at P20. Our data indicate a developmental switch from dominating somatic N- to P/Q-type currents in cultured SG neurons. A switch from N- to P/Q-type channels, which has been observed at several central synapses, may also occur at developing endbulbs of Held. In this case, reduction of both neonatal N- (P5) and more mature P/Q-type currents (around/after hearing onset) may contribute to the impaired morphology and function of endbulb synapses in α(2)δ3-deficient mice. Frontiers Media S.A. 2019-06-26 /pmc/articles/PMC6606706/ /pubmed/31293392 http://dx.doi.org/10.3389/fncel.2019.00278 Text en Copyright © 2019 Stephani, Scheuer, Eckrich, Blum, Wang, Obermair and Engel. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. |
| spellingShingle | Neuroscience Stephani, Friederike Scheuer, Veronika Eckrich, Tobias Blum, Kerstin Wang, Wenying Obermair, Gerald J. Engel, Jutta Deletion of the Ca(2+) Channel Subunit α(2)δ3 Differentially Affects Ca(v)2.1 and Ca(v)2.2 Currents in Cultured Spiral Ganglion Neurons Before and After the Onset of Hearing |
| title | Deletion of the Ca(2+) Channel Subunit α(2)δ3 Differentially Affects Ca(v)2.1 and Ca(v)2.2 Currents in Cultured Spiral Ganglion Neurons Before and After the Onset of Hearing |
| title_full | Deletion of the Ca(2+) Channel Subunit α(2)δ3 Differentially Affects Ca(v)2.1 and Ca(v)2.2 Currents in Cultured Spiral Ganglion Neurons Before and After the Onset of Hearing |
| title_fullStr | Deletion of the Ca(2+) Channel Subunit α(2)δ3 Differentially Affects Ca(v)2.1 and Ca(v)2.2 Currents in Cultured Spiral Ganglion Neurons Before and After the Onset of Hearing |
| title_full_unstemmed | Deletion of the Ca(2+) Channel Subunit α(2)δ3 Differentially Affects Ca(v)2.1 and Ca(v)2.2 Currents in Cultured Spiral Ganglion Neurons Before and After the Onset of Hearing |
| title_short | Deletion of the Ca(2+) Channel Subunit α(2)δ3 Differentially Affects Ca(v)2.1 and Ca(v)2.2 Currents in Cultured Spiral Ganglion Neurons Before and After the Onset of Hearing |
| title_sort | deletion of the ca(2+) channel subunit α(2)δ3 differentially affects ca(v)2.1 and ca(v)2.2 currents in cultured spiral ganglion neurons before and after the onset of hearing |
| topic | Neuroscience |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6606706/ https://www.ncbi.nlm.nih.gov/pubmed/31293392 http://dx.doi.org/10.3389/fncel.2019.00278 |
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