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Yeast homologs of human MCUR1 regulate mitochondrial proline metabolism

Although some fungal mitochondria lack the calcium uniporter, many intriguingly encode homologs of the uniporter assembly factor MCUR1. Here, the authors show that in budding yeast, the MCUR1 homologs Put6 and Put7 regulate mitochondrial proline metabolism, a function also conserved in human MCUR1.

Mohammad Zulkifli
John K. Neff
Vishal M. Gohil
ResearchOpen Access25 Sept 2020
Nature Communications

Volume: 11, P: 1-15
Mitochondrial calcium exchange links metabolism with the epigenome to control cellular differentiation

Myofibroblast differentiation contributes to extracellular matrix remodeling and fibrosis. Here, the authors report that alterations in mitochondrial calcium uptake is essential for metabolic reprogramming and epigenetic signaling for activation of the myofibroblast gene program.

Alyssa A. Lombardi
Andrew A. Gibb
John W. Elrod
ResearchOpen Access04 Oct 2019
Nature Communications

Volume: 10, P: 1-17
Impaired mitochondrial calcium efflux contributes to disease progression in models of Alzheimer’s disease

Dysregulation of intracellular calcium is reported in Alzheimer’s disease. Here the authors show that loss of the mitochondrial Na⁺ /Ca²⁺ exchanger, NCLX – primary route of mitochondrial calcium efflux, precedes neuronal pathology in experimental models and contributes to Alzheimer’s disease progression.

Pooja Jadiya
Devin W. Kolmetzky
John W. Elrod
ResearchOpen Access29 Aug 2019
Nature Communications

Volume: 10, P: 1-14
FOXD1-dependent MICU1 expression regulates mitochondrial activity and cell differentiation

Genetic ablation of Mitochondrial Ca2+ uptake protein 1 (MICU1) in mouse induces higher rates of perinatal lethality. Here the authors show that MICU1 expression is regulated by hypoxia in a FOXD1-dependent manner, establishing a cyclic switch between glycolytic and oxidative metabolism during development.

Santhanam Shanmughapriya
Dhanendra Tomar
Muniswamy Madesh
ResearchOpen Access29 Aug 2018
Nature Communications

Volume: 9, P: 1-12
TMEM65 regulates and is required for NCLX-dependent mitochondrial calcium efflux

Garbincius et al. show that the mitochondrial protein TMEM65 is required to mediate NCLX-dependent mitochondrial calcium efflux, thus fine-tuning mitochondrial function and cellular homeostasis

Joanne F. Garbincius
Oniel Salik
John W. Elrod
Research08 Apr 2025
Nature Metabolism

Volume: 7, P: 714-729

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Yeast homologs of human MCUR1 regulate mitochondrial proline metabolism

Mitochondrial calcium exchange links metabolism with the epigenome to control cellular differentiation

Impaired mitochondrial calcium efflux contributes to disease progression in models of Alzheimer’s disease

FOXD1-dependent MICU1 expression regulates mitochondrial activity and cell differentiation

TMEM65 regulates and is required for NCLX-dependent mitochondrial calcium efflux

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