1. MICU1 imparts the mitochondrial uniporter with the ability to discriminate between Ca(2+) and Mn(2+). PMID: 30082385
2. Mitochondrial Ca(2+) uptake is controlled by protein arginine methyl transferase 1 that asymmetrically methylates MICU1, resulting in decreased Ca(2+) sensitivity. UCP2/3 normalize Ca(2+) sensitivity of methylated MICU1 and, thus, re-establish mitochondrial Ca(2+) uptake activity. PMID: 27642082
3. VDAC1 allows Ca(2+) access to the MCU, facilitating transport of Ca(2+) to the matrix, and also from the IMS to the cytosol. Intra-mitochondrial Ca(2+) controls energy production and metabolism by modulating critical enzymes in the tricarboxylic acid (TCA) cycle and fatty acid oxidation. PMID: 29594867
4. MICU2 restricts spatial crosstalk between InsP3R and MCU channels by regulating threshold and gain of MICU1-mediated inhibition and activation of MCU. PMID: 29241542
5. The results highlight the dynamic nature of uniporter subunit assembly, which must be tightly regulated to ensure proper mitochondrial responses to intracellular Ca(2+) signals. PMID: 28396416
6. MCU expression returned to physiological levels in visceral adipose tissue of patients after weight loss by bariatric surgery. Altered mitochondrial calcium flux in fat cells may play a role in obesity and diabetes and may be associated with the differential metabolic profiles of visceral and subcutaneous adipose tissue. PMID: 28790027
7. Mitochondrial calcium uniporter plays an important role in hyperglycaemia-induced endothelial cell dysfunction. PMID: 28777009
8. The studies findings in aging human skeletal muscle confirm the data obtained in mice and propose mitochondrial calcium uniporter and mitochondria-related proteins as potential pharmacological targets to counteract age-related muscle loss. PMID: 28039397
9. decreased MCU expression in hypertensive with mutation cells contributed to dysregulated Ca(2+) uptake into the mitochondria PMID: 27471128
10. The molecular structure and regulation of the MCU complex in addition to its pathophysiological role are discussed with particular attention to striated muscle tissues. Review. PMID: 26968367
11. High MCU expression is associated with metastasis in hepatocellular carcinoma. PMID: 28650465
12. Here, the authors determine the transmembrane orientation of EMRE, and show that its known MCU-activating function is mediated by the interaction of transmembrane helices from both proteins. PMID: 27099988
13. Regulation of mitochondrial Ca(2+) suggests that MCU may play a pivotal role in the development of fibrosis and could potentially be a therapeutic target for pulmonary fibrosis. PMID: 28351840
14. MCU downregulation hampered cell motility and invasiveness and reduced tumor growth, lymph node infiltration, and lung metastasis in triple-negative breast cancer xenografts. In MCU-silenced cells, production of mitochondrial reactive oxygen species (mROS) is blunted and expression of the hypoxia-inducible factor-1alpha (HIF-1alpha) is reduced, suggesting a signaling role for mROS and HIF-1alpha, downstream of mitochon... PMID: 27138568
15. Reveal a distinct functional role for Cys-97 in mitochondrial reactive oxygen species sensing and regulation of MCU activity. PMID: 28262504
16. Study indicates that inhibition of mitochondrial calcium uniporter can inhibit excessive mitophagy and protect the neurocytes from ischemia/reperfusion injury. PMID: 27288019
17. Our experiments provide novel details about how MCU/EMRE is regulated by MICU1 and an original approach to investigate MCU/EMRE activation in intact cells. PMID: 26489515
18. results suggest that N terminal domain of MCU is essential for the modulation of MCU function, although it does not affect the uniplex formation PMID: 26341627
19. MCU-VDAC1 complex regulates mitochondrial Ca(2+) uptake and oxidative stress-induced apoptosis PMID: 25753332
20. Loss of heterozygosity of MCU gene on chromosome 10q is associated with pancreatic cancer. PMID: 25824785
21. Studies indicate the existence of an inner mitochondrial protein termed the mitochondrial calcium uniporter for calcium transport. PMID: 25999421
22. analyses establish that MCU encodes the pore-forming subunit of the uniporter channel PMID: 23755363
23. MCU plays a critical role in breast cancer cell migration by regulating store-operated Ca(2) entry. PMID: 25640838
24. We review not only the biochemical identities and structures of the proteins required for mitochondrial Ca2+ uptake but also their implications in different physiopathological contexts. [review] PMID: 24366263
25. ERp57 can regulate the expression of the mitochondrial calcium uniporter (MCU) and modulate mitochondrial calcium uptake PMID: 24815697
26. study demonstrates that MCU overexpression is a feature of some breast cancers and that MCU overexpression may offer a survival advantage against some cell death pathways PMID: 23602897
27. The mitochondrial calcium uniporter (MCU): molecular identity and physiological roles. PMID: 23400777
28. the crucial role of MICU1 and MCU in mitochondrial Ca(2+) uptake in pancreatic beta-cells and their involvement in the positive feedback required for sustained insulin secretion. PMID: 22904319
29. Functional characterization of the MCU protein; shows that it is necessary for mitochondrial calcium uptake. PMID: 21685888
30. MCU is an oligomeric protein residing in the mitochondrial inner membrane that interacts with MICU1 and is necessary for mitochondrial calcium uniport. PMID: 21685886
31. CCDC109A was identified in this large-scale proteomics analysis as a mitochondrial protein broadly expressed in many mouse tissues. The human protein was also confirmed to localize to mitochondria. PMID: 18614015

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HGNC: 23526

OMIM: 614197

KEGG: hsa:90550

STRING: 9606.ENSP00000362144

UniGene: Hs.591366