Ivana Savic scite author profile

Calcium dynamics control synaptic transmission. Calcium triggers synaptic vesicle fusion, determines release probability, modulates vesicle recycling, participates in long-term plasticity and regulates cellular metabolism. Mitochondria, the main source of cellular energy, serve as calcium signaling hubs. Mitochondrial calcium transients are primarily determined by the balance between calcium influx, mediated by the mitochondrial calcium uniporter (MCU), and calcium efflux through the sodium/lithium/calcium exchanger (NCLX). We identified a human recessive missense SLC8B1 variant that impairs NCLX activity and is associated with severe mental retardation. On this basis, we examined the effect of deleting NCLX in mice on mitochondrial and synaptic calcium homeostasis, synaptic activity, and plasticity. Neuronal mitochondria exhibited basal calcium overload, membrane depolarization, and a reduction in the amplitude and rate of calcium influx and efflux. We observed smaller cytoplasmic calcium transients in the presynaptic terminals of NCLX-KO neurons, leading to a lower probability of release and weaker transmission. In agreement, synaptic facilitation in NCLX-KO hippocampal slices was enhanced. Importantly, deletion of NCLX abolished long term potentiation of Schaffer collateral synapses. Our results show that NCLX controls presynaptic calcium transients that are crucial for defining synaptic strength as well as short- and long-term plasticity, key elements of learning and memory processes.

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Author Correction: Aberrant activity of mitochondrial NCLX is linked to impaired synaptic transmission and is associated with mental retardation

Stavsky

Stoler

Kostić

et al. 2021

Commun Biol

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Essential Role of the Mitochondrial Na <sup>+</sup>/Ca <sup>2+</sup> Exchanger - NCLX in Mediating the PDE2 Dependent Neuronal Survival and Learning

et al. 2021

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Ivana Savic

Aberrant activity of mitochondrial NCLX is linked to impaired synaptic transmission and is associated with mental retardation

Author Correction: Aberrant activity of mitochondrial NCLX is linked to impaired synaptic transmission and is associated with mental retardation

Essential Role of the Mitochondrial Na <sup>+</sup>/Ca <sup>2+</sup> Exchanger - NCLX in Mediating the PDE2 Dependent Neuronal Survival and Learning

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