Systemic isradipine treatment diminishes calcium-dependent mitochondrial oxidant stress
Jaime N. Guzman, … , Paul T. Schumacker, D. James Surmeier
Jaime N. Guzman, … , Paul T. Schumacker, D. James Surmeier
Published April 30, 2018
Citation Information: J Clin Invest. 2018;128(6):2266-2280. https://doi.org/10.1172/JCI95898.
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Research Article Neuroscience

Systemic isradipine treatment diminishes calcium-dependent mitochondrial oxidant stress

Abstract

The ability of the Cav1 channel inhibitor isradipine to slow the loss of substantia nigra pars compacta (SNc) dopaminergic (DA) neurons and the progression of Parkinson’s disease (PD) is being tested in a phase 3 human clinical trial. But it is unclear whether and how chronic isradipine treatment will benefit SNc DA neurons in vivo. To pursue this question, isradipine was given systemically to mice at doses that achieved low nanomolar concentrations in plasma, near those achieved in patients. This treatment diminished cytosolic Ca2+ oscillations in SNc DA neurons without altering autonomous spiking or expression of Ca2+ channels, an effect mimicked by selectively knocking down expression of Cav1.3 channel subunits. Treatment also lowered mitochondrial oxidant stress, reduced a high basal rate of mitophagy, and normalized mitochondrial mass — demonstrating that Cav1 channels drive mitochondrial oxidant stress and turnover in vivo. Thus, chronic isradipine treatment remodeled SNc DA neurons in a way that should not only diminish their vulnerability to mitochondrial challenges, but to autophagic stress as well.

Authors

Jaime N. Guzman, Ema Ilijic, Ben Yang, Javier Sanchez-Padilla, David Wokosin, Dan Galtieri, Jyothisri Kondapalli, Paul T. Schumacker, D. James Surmeier

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Figure 1

Combined patch clamp and Fura-2 Ca2+ imaging from SNc DA neurons revealed large oscillations in cytosolic [Ca2+] during pacemaking.

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Combined patch clamp and Fura-2 Ca2+ imaging from SNc DA neurons reveale...
(A) Schematic coronal section of the midbrain, positioned 3.5 mm posterior to bregma. At the bottom, magnified ventral part of the midbrain showing sampled region of SNc (highlighted in red). (B) Whole-cell recording from a SNc DA neuron shown at left as a representative reconstruction of a Fura-2 –filled cell. At the bottom, 2PLSM measurement of Fura-2 fluorescence at a proximal dendritic location is shown (~15 μm from the soma). (C) Somatic recording during imaging at a distal dendritic location (~100 μm from the soma from the projection image of a SNc DA neuron). Note the increase in Ca2+ transient at the distal imaging site. (D) Ca2+ transients increased along the dendrite of shown SNc DA neuron ranging from 15 to 200 μm from the soma.