Fine-tuning of CD8 T cell mitochondrial respiration by MCJ/DnaJC15 dictates protection to influenza virus
Mitochondrial respiration is tightly regulated in CD8 T cells during the transition from naïve to effector and memory cells, but the mechanisms that control this process have not been defined. Here we show that MCJ/DnaJC15 acts as an endogenous break for mitochondrial respiration in CD8 T cells by i...
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| Veröffentlicht in: | Immunity (Cambridge, Mass.) Mass.), 2016-05, Vol.44 (6), p.1299-1311 |
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| container_title | Immunity (Cambridge, Mass.) |
| container_volume | 44 |
| creator | Champagne, Devin P. Hatle, Ketki M. Fortner, Karen A. D’Alessandro, Angelo Thornton, Tina M. Yang, Rui Torralba, Daniel Tomás-Cortázar, Julen Jun, Yong Woong Ahn, Kyo Han Hansen, Kirk C. Haynes, Laura Anguita, Juan Rincon, Mercedes |
| description | Mitochondrial respiration is tightly regulated in CD8 T cells during the
transition from naïve to effector and memory cells, but the mechanisms that
control this process have not been defined. Here we show that MCJ/DnaJC15 acts as an
endogenous break for mitochondrial respiration in CD8 T cells by interfering with the
formation of electron transport chain (ETC) respiratory supercomplexes. Metabolic
profiling reveals an enhanced mitochondrial metabolism in MCJ-deficient CD8 cells.
Increased oxidative phosphorylation and subcellular ATP accumulation caused by the loss of
MCJ selectively increase the secretion, but not the expression, of IFNγ. MCJ also
serves to adapt effector CD8 T cell metabolism during the contraction phase. Consequently,
memory CD8 cells lacking MCJ are superior in providing protection against influenza virus
infection. Thus, MCJ offers a novel mechanism for fine-tuning mitochondrial metabolism in
CD8 cells, as an alternative to modulating mitochondrial mass, which is an energetically
expensive process. MCJ could be a new therapeutic target to enhance CD8 cell
responses. |
| doi_str_mv | 10.1016/j.immuni.2016.02.018 |
| format | Article |
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transition from naïve to effector and memory cells, but the mechanisms that
control this process have not been defined. Here we show that MCJ/DnaJC15 acts as an
endogenous break for mitochondrial respiration in CD8 T cells by interfering with the
formation of electron transport chain (ETC) respiratory supercomplexes. Metabolic
profiling reveals an enhanced mitochondrial metabolism in MCJ-deficient CD8 cells.
Increased oxidative phosphorylation and subcellular ATP accumulation caused by the loss of
MCJ selectively increase the secretion, but not the expression, of IFNγ. MCJ also
serves to adapt effector CD8 T cell metabolism during the contraction phase. Consequently,
memory CD8 cells lacking MCJ are superior in providing protection against influenza virus
infection. Thus, MCJ offers a novel mechanism for fine-tuning mitochondrial metabolism in
CD8 cells, as an alternative to modulating mitochondrial mass, which is an energetically
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transition from naïve to effector and memory cells, but the mechanisms that
control this process have not been defined. Here we show that MCJ/DnaJC15 acts as an
endogenous break for mitochondrial respiration in CD8 T cells by interfering with the
formation of electron transport chain (ETC) respiratory supercomplexes. Metabolic
profiling reveals an enhanced mitochondrial metabolism in MCJ-deficient CD8 cells.
Increased oxidative phosphorylation and subcellular ATP accumulation caused by the loss of
MCJ selectively increase the secretion, but not the expression, of IFNγ. MCJ also
serves to adapt effector CD8 T cell metabolism during the contraction phase. Consequently,
memory CD8 cells lacking MCJ are superior in providing protection against influenza virus
infection. Thus, MCJ offers a novel mechanism for fine-tuning mitochondrial metabolism in
CD8 cells, as an alternative to modulating mitochondrial mass, which is an energetically
expensive process. MCJ could be a new therapeutic target to enhance CD8 cell
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transition from naïve to effector and memory cells, but the mechanisms that
control this process have not been defined. Here we show that MCJ/DnaJC15 acts as an
endogenous break for mitochondrial respiration in CD8 T cells by interfering with the
formation of electron transport chain (ETC) respiratory supercomplexes. Metabolic
profiling reveals an enhanced mitochondrial metabolism in MCJ-deficient CD8 cells.
Increased oxidative phosphorylation and subcellular ATP accumulation caused by the loss of
MCJ selectively increase the secretion, but not the expression, of IFNγ. MCJ also
serves to adapt effector CD8 T cell metabolism during the contraction phase. Consequently,
memory CD8 cells lacking MCJ are superior in providing protection against influenza virus
infection. Thus, MCJ offers a novel mechanism for fine-tuning mitochondrial metabolism in
CD8 cells, as an alternative to modulating mitochondrial mass, which is an energetically
expensive process. MCJ could be a new therapeutic target to enhance CD8 cell
responses.</abstract><pmid>27234056</pmid><doi>10.1016/j.immuni.2016.02.018</doi></addata></record> |
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| source | Cell Press Free Archives; Elsevier ScienceDirect Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals |
| title | Fine-tuning of CD8 T cell mitochondrial respiration by MCJ/DnaJC15 dictates protection to influenza virus |
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