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1.
EMBO Rep ; 23(12): e54978, 2022 12 06.
Article in English | MEDLINE | ID: mdl-36321428

ABSTRACT

Mitochondrial Ca2+ ions are crucial regulators of bioenergetics and cell death pathways. Mitochondrial Ca2+ content and cytosolic Ca2+ homeostasis strictly depend on Ca2+ transporters. In recent decades, the major players responsible for mitochondrial Ca2+ uptake and release have been identified, except the mitochondrial Ca2+ /H+ exchanger (CHE). Originally identified as the mitochondrial K+ /H+ exchanger, LETM1 was also considered as a candidate for the mitochondrial CHE. Defining the mitochondrial interactome of LETM1, we identify TMBIM5/MICS1, the only mitochondrial member of the TMBIM family, and validate the physical interaction of TMBIM5 and LETM1. Cell-based and cell-free biochemical assays demonstrate the absence or greatly reduced Na+ -independent mitochondrial Ca2+ release in TMBIM5 knockout or pH-sensing site mutants, respectively, and pH-dependent Ca2+ transport by recombinant TMBIM5. Taken together, we demonstrate that TMBIM5, but not LETM1, is the long-sought mitochondrial CHE, involved in setting and regulating the mitochondrial proton gradient. This finding provides the final piece of the puzzle of mitochondrial Ca2+ transporters and opens the door to exploring its importance in health and disease, and to developing drugs modulating Ca2+ exchange.


Subject(s)
Antiporters , Protons , Antiporters/genetics
2.
Free Radic Biol Med ; 206: 94-105, 2023 09.
Article in English | MEDLINE | ID: mdl-37353175

ABSTRACT

There is accumulating evidence that pro-inflammatory features are inherent to mitochondrial DNA and oxidized DNA species. 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodGuo) is the most frequently studied oxidatively generated lesion. Modified DNA reaches the circulation upon cell apoptosis, necrosis or neutrophil extracellular trap (NET) formation. Standard chromatography-based techniques for the assessment of 8-oxodGuo imply degradation of DNA to a single base level, thus precluding the attribution to a nuclear or mitochondrial origin. We therefore aimed to establish a protocol for the concomitant assessment of oxidized mitochondrial and nuclear DNA from human plasma samples. We applied immunoprecipitation (IP) for 8-oxodGuo to separate oxidized from non-oxidized DNA species and subsequent quantitative polymerase chain reaction (qPCR) to assign them to their subcellular source. The IP procedure failed when applied directly to plasma samples, i.e. isotype control precipitated similar amounts of DNA as the specific 8-oxodGuo antibody. In contrast, DNA isolation from plasma prior to the IP process provided assay specificity with little impact on DNA oxidation status. We further optimized sensitivity and efficiency of qPCR analysis by reducing amplicon length and targeting repetitive nuclear DNA elements. When the established protocol was applied to plasma samples of abdominal aortic aneurysm (AAA) patients and control subjects, the AAA cohort displayed significantly elevated circulating non-oxidized and total nuclear DNA and a trend for increased levels of oxidized mitochondrial DNA. An enrichment of mitochondrial versus nuclear DNA within the oxidized DNA fraction was seen for AAA patients. Regarding the potential source of circulating DNA, we observed a significant correlation of markers of neutrophil activation and NET formation with nuclear DNA, independent of oxidation status. Thus, the established method provides a tool to detect and distinguish the release of oxidized nuclear and mitochondrial DNA in human plasma and offers a refined biomarker to monitor disease conditions of pro-inflammatory cell and tissue destruction.


Subject(s)
Aortic Aneurysm, Abdominal , Deoxyguanosine , Humans , 8-Hydroxy-2'-Deoxyguanosine , DNA, Mitochondrial/genetics , Oxidation-Reduction , Aortic Aneurysm, Abdominal/genetics
3.
Life Sci Alliance ; 5(9)2022 09.
Article in English | MEDLINE | ID: mdl-35697381

ABSTRACT

Mitochondria are fundamental for life and require balanced ion exchange to maintain proper functioning. The mitochondrial cation exchanger LETM1 sparks interest because of its pathophysiological role in seizures in the Wolf Hirschhorn Syndrome (WHS). Despite observation of sleep disorganization in epileptic WHS patients, and growing studies linking mitochondria and epilepsy to circadian rhythms, LETM1 has not been studied from the chronobiological perspective. Here we established a viable letm1 knock-out, using the diurnal vertebrate Danio rerio to study the metabolic and chronobiological consequences of letm1 deficiency. We report diurnal rhythms of Letm1 protein levels in wild-type fish. We show that mitochondrial nucleotide metabolism is deregulated in letm1-/- mutant fish, the rate-limiting enzyme of NAD+ production is up-regulated, while NAD+ and NADH pools are reduced. These changes were associated with increased expression amplitude of circadian core clock genes in letm1-/- compared with wild-type under light/dark conditions, suggesting decreased NAD(H) levels as a possible mechanism for circadian system perturbation in Letm1 deficiency. Replenishing NAD pool may ameliorate WHS-associated sleep and neurological disorders.


Subject(s)
NAD , Wolf-Hirschhorn Syndrome , Animals , Calcium-Binding Proteins/metabolism , Cations , Circadian Rhythm/genetics , Membrane Proteins/metabolism , NAD/metabolism , Wolf-Hirschhorn Syndrome/genetics , Wolf-Hirschhorn Syndrome/metabolism , Zebrafish
4.
Cell Rep ; 35(2): 108985, 2021 04 13.
Article in English | MEDLINE | ID: mdl-33852843

ABSTRACT

Decreased cognitive performance is a hallmark of brain aging, but the underlying mechanisms and potential therapeutic avenues remain poorly understood. Recent studies have revealed health-protective and lifespan-extending effects of dietary spermidine, a natural autophagy-promoting polyamine. Here, we show that dietary spermidine passes the blood-brain barrier in mice and increases hippocampal eIF5A hypusination and mitochondrial function. Spermidine feeding in aged mice affects behavior in homecage environment tasks, improves spatial learning, and increases hippocampal respiratory competence. In a Drosophila aging model, spermidine boosts mitochondrial respiratory capacity, an effect that requires the autophagy regulator Atg7 and the mitophagy mediators Parkin and Pink1. Neuron-specific Pink1 knockdown abolishes spermidine-induced improvement of olfactory associative learning. This suggests that the maintenance of mitochondrial and autophagic function is essential for enhanced cognition by spermidine feeding. Finally, we show large-scale prospective data linking higher dietary spermidine intake with a reduced risk for cognitive impairment in humans.


Subject(s)
Aging/genetics , Autophagy-Related Protein 7/genetics , Cognitive Dysfunction/genetics , Dietary Supplements , Protein Kinases/genetics , Spermidine/pharmacology , Ubiquitin-Protein Ligases/genetics , Aging/metabolism , Animals , Autophagy-Related Protein 7/metabolism , Brain/cytology , Brain/drug effects , Brain/growth & development , Brain/metabolism , Cognition/drug effects , Cognition/physiology , Cognitive Dysfunction/metabolism , Cognitive Dysfunction/physiopathology , Cognitive Dysfunction/prevention & control , Drosophila melanogaster/drug effects , Drosophila melanogaster/genetics , Drosophila melanogaster/growth & development , Drosophila melanogaster/metabolism , Female , Gene Expression Regulation , Humans , Learning/drug effects , Learning/physiology , Male , Mice , Mitochondria/drug effects , Mitochondria/genetics , Mitochondria/metabolism , Neurons/drug effects , Neurons/metabolism , Oxidative Phosphorylation/drug effects , Protein Kinases/metabolism , Signal Transduction , Spatial Memory/drug effects , Spatial Memory/physiology , Ubiquitin-Protein Ligases/metabolism
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