Literature DB >> 28591633

Cytochrome c Oxidase Activity Is a Metabolic Checkpoint that Regulates Cell Fate Decisions During T Cell Activation and Differentiation.

Tatyana N Tarasenko1, Susan E Pacheco2, Mary Kay Koenig2, Julio Gomez-Rodriguez3, Senta M Kapnick3, Francisca Diaz4, Patricia M Zerfas5, Emanuele Barca6, Jessica Sudderth7, Ralph J DeBerardinis7, Raul Covian8, Robert S Balaban8, Salvatore DiMauro6, Peter J McGuire9.   

Abstract

T cells undergo metabolic reprogramming with major changes in cellular energy metabolism during activation. In patients with mitochondrial disease, clinical data were marked by frequent infections and immunodeficiency, prompting us to explore the consequences of oxidative phosphorylation dysfunction in T cells. Since cytochrome c oxidase (COX) is a critical regulator of OXPHOS, we created a mouse model with isolated dysfunction in T cells by targeting a gene, COX10, that produces mitochondrial disease in humans. COX dysfunction resulted in increased apoptosis following activation in vitro and immunodeficiency in vivo. Select T cell effector subsets were particularly affected; this could be traced to their bioenergetic requirements. In summary, the findings presented herein emphasize the role of COX particularly in T cells as a metabolic checkpoint for cell fate decisions following T cell activation, with heterogeneous effects in T cell subsets. In addition, our studies highlight the utility of translational models that recapitulate human mitochondrial disease for understanding immunometabolism. Published by Elsevier Inc.

Entities:  

Keywords:  COX10; T-lymphocytes; cytochrome c oxidase; immunometabolism; mitochondria; mitochondrial disease; oxidative phosphorylation

Mesh:

Substances:

Year:  2017        PMID: 28591633      PMCID: PMC5562283          DOI: 10.1016/j.cmet.2017.05.007

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   27.287


  57 in total

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