STUDY OBJECTIVES: Low-threshold voltage-gated T-type Ca(2+) channels (T-channels or CaV3 channels) sustain oscillatory discharges of thalamocortical (TC) and nucleus Reticularis thalami (nRt) cells. The CaV3.3 subtype dominates nRt rhythmic bursting and mediates a substantial fraction of spindle power in the NREM sleep EEG. CaV3.2 channels are also found in nRt, but whether these contribute to nRt-dependent spindle generation is unexplored. We investigated thalamic rhythmogenesis in mice lacking this subtype in isolation (CaV3.2KO mice) or in concomitance with CaV3.3 deletion (CaV3.double-knockout (DKO) mice). METHODS: We examined discharge characteristics of thalamic cells and intrathalamic evoked synaptic transmission in brain slices from wild-type, CaV3.2KO and CaV3.DKO mice through patch-clamp recordings. The sleep profile of freely behaving CaV3.2KO and CaV3.DKO mice was assessed by polysomnographic recordings. RESULTS: CaV3.2 channel deficiency left nRt discharge properties largely unaltered, but additional deletion of CaV3.3 channels fully abolished low-threshold whole-cell Ca(2+) currents and bursting, and suppressed burst-mediated inhibitory responses in TC cells. CaV3.DKO mice had more fragmented sleep, with shorter NREM sleep episodes and more frequent microarousals. The NREM sleep EEG power spectrum displayed a relative suppression of the σ frequency band (10-15 Hz), which was accompanied by an increase in the δ band (1-4 Hz). CONCLUSIONS: Consistent with previous findings, CaV3.3 channels dominate nRt rhythmogenesis, but the lack of CaV3.2 channels further aggravates neuronal, synaptic, and EEG deficits. Therefore, CaV3.2 channels can boost intrathalamic synaptic transmission, and might play a modulatory role adjusting the relative presence of NREM sleep EEG rhythms.
STUDY OBJECTIVES: Low-threshold voltage-gated T-type Ca(2+) channels (T-channels or CaV3 channels) sustain oscillatory discharges of thalamocortical (TC) and nucleus Reticularis thalami (nRt) cells. The CaV3.3 subtype dominates nRt rhythmic bursting and mediates a substantial fraction of spindle power in the NREM sleep EEG. CaV3.2 channels are also found in nRt, but whether these contribute to nRt-dependent spindle generation is unexplored. We investigated thalamic rhythmogenesis in mice lacking this subtype in isolation (CaV3.2KO mice) or in concomitance with CaV3.3 deletion (CaV3.double-knockout (DKO) mice). METHODS: We examined discharge characteristics of thalamic cells and intrathalamic evoked synaptic transmission in brain slices from wild-type, CaV3.2KO and CaV3.DKO mice through patch-clamp recordings. The sleep profile of freely behaving CaV3.2KO and CaV3.DKO mice was assessed by polysomnographic recordings. RESULTS:CaV3.2channel deficiency left nRt discharge properties largely unaltered, but additional deletion of CaV3.3 channels fully abolished low-threshold whole-cell Ca(2+) currents and bursting, and suppressed burst-mediated inhibitory responses in TC cells. CaV3.DKO mice had more fragmented sleep, with shorter NREM sleep episodes and more frequent microarousals. The NREM sleep EEG power spectrum displayed a relative suppression of the σ frequency band (10-15 Hz), which was accompanied by an increase in the δ band (1-4 Hz). CONCLUSIONS: Consistent with previous findings, CaV3.3 channels dominate nRt rhythmogenesis, but the lack of CaV3.2 channels further aggravates neuronal, synaptic, and EEG deficits. Therefore, CaV3.2 channels can boost intrathalamic synaptic transmission, and might play a modulatory role adjusting the relative presence of NREM sleep EEG rhythms.
Authors: Romain Ly; Guy Bouvier; Martijn Schonewille; Arnaud Arabo; Laure Rondi-Reig; Clément Léna; Mariano Casado; Chris I De Zeeuw; Anne Feltz Journal: Proc Natl Acad Sci U S A Date: 2013-11-25 Impact factor: 11.205
Authors: Stephen Thankachan; Fumi Katsuki; James T McKenna; Chun Yang; Charu Shukla; Karl Deisseroth; David S Uygun; Robert E Strecker; Ritchie E Brown; James M McNally; Radhika Basheer Journal: Sci Rep Date: 2019-03-05 Impact factor: 4.379
Authors: Ana Laura Sanchez-Sandoval; Zazil Herrera Carrillo; Clara Estela Díaz Velásquez; Dulce María Delgadillo; Heriberto Manuel Rivera; Juan Carlos Gomora Journal: PLoS One Date: 2018-02-23 Impact factor: 3.240
Authors: Yinqing Li; Violeta G Lopez-Huerta; Xian Adiconis; Kirsten Levandowski; Soonwook Choi; Sean K Simmons; Mario A Arias-Garcia; Baolin Guo; Annie Y Yao; Timothy R Blosser; Ralf D Wimmer; Tomomi Aida; Alexander Atamian; Tina Naik; Xuyun Sun; Dasheng Bi; Diya Malhotra; Cynthia C Hession; Reut Shema; Marcos Gomes; Taibo Li; Eunjin Hwang; Alexandra Krol; Monika Kowalczyk; João Peça; Gang Pan; Michael M Halassa; Joshua Z Levin; Zhanyan Fu; Guoping Feng Journal: Nature Date: 2020-07-22 Impact factor: 49.962