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  • Increasing Ca2+ in photoreceptor mitochondria alters metabolites, accelerates photoresponse recovery, and reveals adaptations to mitochondrial stress.

Increasing Ca2+ in photoreceptor mitochondria alters metabolites, accelerates photoresponse recovery, and reveals adaptations to mitochondrial stress.

Cell death and differentiation (2019-08-03)
Rachel A Hutto, Celia M Bisbach, Fatima Abbas, Daniel C Brock, Whitney M Cleghorn, Edward D Parker, Benjamin H Bauer, William Ge, Frans Vinberg, James B Hurley, Susan E Brockerhoff
ABSTRACT

Photoreceptors are specialized neurons that rely on Ca2+ to regulate phototransduction and neurotransmission. Photoreceptor dysfunction and degeneration occur when intracellular Ca2+ homeostasis is disrupted. Ca2+ homeostasis is maintained partly by mitochondrial Ca2+ uptake through the mitochondrial Ca2+ uniporter (MCU), which can influence cytosolic Ca2+ signals, stimulate energy production, and trigger apoptosis. Here we discovered that zebrafish cone photoreceptors express unusually low levels of MCU. We expected that this would be important to prevent mitochondrial Ca2+ overload and consequent cone degeneration. To test this hypothesis, we generated a cone-specific model of MCU overexpression. Surprisingly, we found that cones tolerate MCU overexpression, surviving elevated mitochondrial Ca2+ and disruptions to mitochondrial ultrastructure until late adulthood. We exploited the survival of MCU overexpressing cones to additionally demonstrate that mitochondrial Ca2+ uptake alters the distributions of citric acid cycle intermediates and accelerates recovery kinetics of the cone response to light. Cones adapt to mitochondrial Ca2+ stress by decreasing MICU3, an enhancer of MCU-mediated Ca2+ uptake, and selectively transporting damaged mitochondria away from the ellipsoid toward the synapse. Our findings demonstrate how mitochondrial Ca2+ can influence physiological and metabolic processes in cones and highlight the remarkable ability of cone photoreceptors to adapt to mitochondrial stress.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Ethyl 3-aminobenzoate methanesulfonate, 98%
Sigma-Aldrich
N-Phenylthiourea, ≥98%
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5-Propyl-2-thiouracil, ≥98%
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Ru360, Ru360, is a cell-permeable oxygen-bridged dinuclear ruthenium amine complex. Binds to mitochondria with high affinity (Kd = 340 pM) and blocks Ca2+ uptake into mitochondria in vitro (IC₅₀ = 184 pM).
Millipore
Immobilon®-FL PVDF Membrane, 1 roll, 27 cm x 3.75 m, 0.45 µm pore size, Hydrophobic PVDF Transfer Membrane with low background fluorescence for Western blotting. Compatible with visible and infrared fluorescent probes.
Sigma-Aldrich
Anti-phospho-PDHE1-A type I (Ser293) Antibody, from rabbit, purified by affinity chromatography