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Tissue-Specific Mitochondrial Decoding of Cytoplasmic Ca(2+) Signals Is Controlled by the Stoichiometry of MICU1/2 and MCU
Mitochondrial Ca(2+) uptake through the Ca(2+) uniporter supports cell functions, including oxidative metabolism, while meeting tissue-specific calcium signaling patterns and energy needs. The molecular mechanisms underlying tissue-specific control of the uniporter are unknown. Here, we investigated...
Autores principales: | , , , , , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
2017
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5760244/ https://www.ncbi.nlm.nih.gov/pubmed/28273446 http://dx.doi.org/10.1016/j.celrep.2017.02.032 |
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author | Paillard, Melanie Csordás, György Szanda, Gergö Golenár, Tünde Debattisti, Valentina Bartok, Adam Wang, Nadan Moffat, Cynthia Seifert, Erin L. Spät, András Hajnóczky, György |
author_facet | Paillard, Melanie Csordás, György Szanda, Gergö Golenár, Tünde Debattisti, Valentina Bartok, Adam Wang, Nadan Moffat, Cynthia Seifert, Erin L. Spät, András Hajnóczky, György |
author_sort | Paillard, Melanie |
collection | PubMed |
description | Mitochondrial Ca(2+) uptake through the Ca(2+) uniporter supports cell functions, including oxidative metabolism, while meeting tissue-specific calcium signaling patterns and energy needs. The molecular mechanisms underlying tissue-specific control of the uniporter are unknown. Here, we investigated a possible role for tissue-specific stoichiometry between the Ca(2+)-sensing regulators (MICUs) and pore unit (MCU) of the uniporter. Low MICU1:MCU protein ratio lowered the [Ca(2+)] threshold for Ca(2+) uptake and activation of oxidative metabolism but decreased the cooperativity of uniporter activation in heart and skeletal muscle compared to liver. In MICU1-overexpressing cells, MICU1 was pulled down by MCU proportionally to MICU1 overexpression, suggesting that MICU1:MCU protein ratio directly reflected their association. Overexpressing MICU1 in the heart increased MICU1:MCU ratio, leading to liver-like mitochondrial Ca(2+) uptake phenotype and cardiac contractile dysfunction. Thus, the proportion of MICU1-free and MICU1-associated MCU controls these tissue-specific uniporter phenotypes and downstream Ca(2+) tuning of oxidative metabolism. |
format | Online Article Text |
id | pubmed-5760244 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2017 |
record_format | MEDLINE/PubMed |
spelling | pubmed-57602442018-01-09 Tissue-Specific Mitochondrial Decoding of Cytoplasmic Ca(2+) Signals Is Controlled by the Stoichiometry of MICU1/2 and MCU Paillard, Melanie Csordás, György Szanda, Gergö Golenár, Tünde Debattisti, Valentina Bartok, Adam Wang, Nadan Moffat, Cynthia Seifert, Erin L. Spät, András Hajnóczky, György Cell Rep Article Mitochondrial Ca(2+) uptake through the Ca(2+) uniporter supports cell functions, including oxidative metabolism, while meeting tissue-specific calcium signaling patterns and energy needs. The molecular mechanisms underlying tissue-specific control of the uniporter are unknown. Here, we investigated a possible role for tissue-specific stoichiometry between the Ca(2+)-sensing regulators (MICUs) and pore unit (MCU) of the uniporter. Low MICU1:MCU protein ratio lowered the [Ca(2+)] threshold for Ca(2+) uptake and activation of oxidative metabolism but decreased the cooperativity of uniporter activation in heart and skeletal muscle compared to liver. In MICU1-overexpressing cells, MICU1 was pulled down by MCU proportionally to MICU1 overexpression, suggesting that MICU1:MCU protein ratio directly reflected their association. Overexpressing MICU1 in the heart increased MICU1:MCU ratio, leading to liver-like mitochondrial Ca(2+) uptake phenotype and cardiac contractile dysfunction. Thus, the proportion of MICU1-free and MICU1-associated MCU controls these tissue-specific uniporter phenotypes and downstream Ca(2+) tuning of oxidative metabolism. 2017-03-07 /pmc/articles/PMC5760244/ /pubmed/28273446 http://dx.doi.org/10.1016/j.celrep.2017.02.032 Text en This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). |
spellingShingle | Article Paillard, Melanie Csordás, György Szanda, Gergö Golenár, Tünde Debattisti, Valentina Bartok, Adam Wang, Nadan Moffat, Cynthia Seifert, Erin L. Spät, András Hajnóczky, György Tissue-Specific Mitochondrial Decoding of Cytoplasmic Ca(2+) Signals Is Controlled by the Stoichiometry of MICU1/2 and MCU |
title | Tissue-Specific Mitochondrial Decoding of Cytoplasmic Ca(2+) Signals Is Controlled by the Stoichiometry of MICU1/2 and MCU |
title_full | Tissue-Specific Mitochondrial Decoding of Cytoplasmic Ca(2+) Signals Is Controlled by the Stoichiometry of MICU1/2 and MCU |
title_fullStr | Tissue-Specific Mitochondrial Decoding of Cytoplasmic Ca(2+) Signals Is Controlled by the Stoichiometry of MICU1/2 and MCU |
title_full_unstemmed | Tissue-Specific Mitochondrial Decoding of Cytoplasmic Ca(2+) Signals Is Controlled by the Stoichiometry of MICU1/2 and MCU |
title_short | Tissue-Specific Mitochondrial Decoding of Cytoplasmic Ca(2+) Signals Is Controlled by the Stoichiometry of MICU1/2 and MCU |
title_sort | tissue-specific mitochondrial decoding of cytoplasmic ca(2+) signals is controlled by the stoichiometry of micu1/2 and mcu |
topic | Article |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5760244/ https://www.ncbi.nlm.nih.gov/pubmed/28273446 http://dx.doi.org/10.1016/j.celrep.2017.02.032 |
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