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The Effect of OPA1 on Mitochondrial Ca2+ Signaling
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Journal Article
The Effect of OPA1 on Mitochondrial Ca2+ Signaling
2011
Overview
The dynamin-related GTPase protein OPA1, localized in the intermembrane space and tethered to the inner membrane of mitochondria, participates in the fusion of these organelles. Its mutation is the most prevalent cause of Autosomal Dominant Optic Atrophy. OPA1 controls the diameter of the junctions between the boundary part of the inner membrane and the membrane of cristae and reduces the diffusibility of cytochrome c through these junctions. We postulated that if significant Ca²⁺ uptake into the matrix occurs from the lumen of the cristae, reduced expression of OPA1 would increase the access of Ca²⁺ to the transporters in the crista membrane and thus would enhance Ca²⁺ uptake. In intact H295R adrenocortical and HeLa cells cytosolic Ca²⁺ signals evoked with K⁺ and histamine, respectively, were transferred into the mitochondria. The rate and amplitude of mitochondrial [Ca²⁺] rise (followed with confocal laser scanning microscopy and FRET measurements with fluorescent wide-field microscopy) were increased after knockdown of OPA1, as compared with cells transfected with control RNA or mitofusin1 siRNA. Ca²⁺ uptake was enhanced despite reduced mitochondrial membrane potential. In permeabilized cells the rate of Ca²⁺ uptake by depolarized mitochondria was also increased in OPA1-silenced cells. The participation of Na⁺/Ca²⁺ and Ca²⁺/H⁺ antiporters in this transport process is indicated by pharmacological data. Altogether, our observations reveal the significance of OPA1 in the control of mitochondrial Ca²⁺ metabolism.
Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject
/ Atrophy
/ Biology
/ Calcium Signaling - genetics
/ Calcium Signaling - physiology
/ Confocal
/ Cristae
/ Dynamin
/ Fluorescence resonance energy transfer
/ GTP Phosphohydrolases - genetics
/ GTP Phosphohydrolases - metabolism
/ Humans
/ Hypoxia
/ Kinases
/ Ligands
/ Medicine
/ Membrane Potential, Mitochondrial - genetics
/ Membrane Potential, Mitochondrial - physiology
/ Mutation
/ Proteins
/ RNA
/ Rodents
/ siRNA
/ Sodium
