β2-subunit alternative splicing stabilizes Cav2.3 Ca2+ channel activity during continuous midbrain dopamine neuron-like activity

Anita Siller; Nadja T. Hofer; Giulia Tomagra; Nicole Burkert; Simon Heß; Julia Benkert; Aisylu Gaifullina; Desirée Spaich; Johanna Duda; Christina Poetschke; Kristina Vilusic; Eva Fritz; Toni Schneider; Peter Kloppenburg; Birgit Liss; Valentina Carabelli; Emilio Carbone; Nadine J. Ortner; Jörg Striessnig

doi:10.7554/elife.67464

β2-subunit alternative splicing stabilizes Cav2.3 Ca2+ channel activity during continuous midbrain dopamine neuron-like activity

Anita Siller(Universität Innsbruck), Nadja T. Hofer(Universität Innsbruck), Giulia Tomagra(University of Turin), Nicole Burkert(Universität Ulm), Simon Heß(University of Cologne), Julia Benkert(Universität Ulm), Aisylu Gaifullina(Universität Ulm), Desirée Spaich(Universität Ulm), Johanna Duda(Universität Ulm), Christina Poetschke(Universität Ulm), Kristina Vilusic(Universität Innsbruck), Eva Fritz(Universität Innsbruck), Toni Schneider(University of Cologne), Peter Kloppenburg(University of Cologne), Birgit Liss(Universität Ulm), Valentina Carabelli(University of Turin), Emilio Carbone(University of Turin), Nadine J. Ortner(Universität Innsbruck), Jörg Striessnig(Universität Innsbruck)

eLife

July 6, 2022

10.7554/elife.67464

Cited by 22Open Access

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Abstract

In dopaminergic (DA) Substantia nigra (SN) neurons Cav2.3 R-type Ca 2+ -currents contribute to somatodendritic Ca 2+ -oscillations. This activity may contribute to the selective degeneration of these neurons in Parkinson’s disease (PD) since Cav2.3-knockout is neuroprotective in a PD mouse model. Here, we show that in tsA-201-cells the membrane-anchored β2-splice variants β2a and β2e are required to stabilize Cav2.3 gating properties allowing sustained Cav2.3 availability during simulated pacemaking and enhanced Ca 2+ -currents during bursts. We confirmed the expression of β2a- and β2e-subunit transcripts in the mouse SN and in identified SN DA neurons. Patch-clamp recordings of mouse DA midbrain neurons in culture and SN DA neurons in brain slices revealed SNX-482-sensitive R-type Ca 2+ -currents with voltage-dependent gating properties that suggest modulation by β2a- and/or β2e-subunits. Thus, β-subunit alternative splicing may prevent a fraction of Cav2.3 channels from inactivation in continuously active, highly vulnerable SN DA neurons, thereby also supporting Ca 2+ signals contributing to the (patho)physiological role of Cav2.3 channels in PD.

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