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CD4+ T cell metabolism during Trichuris muris infection

Trichuris trichiura is a gastrointestinal dwelling nematode that infects almost 500 million people worldwide. T. muris occurs naturally in mice and is very closely related the human whipworm, making it a suitable model to dissect the immune response against the parasite. Studies using the Trichuris muris system have identified CD4+ T cells as dictators of the outcome of infection. In wild type mice, infection with a high dose of T. muris eggs leads to resistance and worm expulsion, which are dependent on a Th2 response and the secretion of type 2 cytokines especially interleukin (IL) 13. Chronicity is dependent on a Th1 response and occurs when mice are infected with a low dose of T. muris eggs. It is well established that metabolic changes are essential to promoting T cell activation and effector function. Moreover, during chronic infection the host immune system is continuously exposed to parasite antigen, which represents a metabolic challenge. This thesis has investigated the importance of T cell metabolism during response against T. muris. Data presented here show that low and high dose T. muris infections promote upregulation of the glycolytic pathway in CD4+ T cells. During later stages of chronic infection, CD4+ T cells displayed supressed glycolysis and mitochondrial respiration, and may be due to metabolic modulation imposed by the parasite. Leucine uptake via the amino acid transporter Slc7a5 was previously shown to be required for mTORC1 activation and for T cell effector function. Data presented here show that in early stages following a high dose T. muris infection, mice that lack Slc7a5 in T cells have delayed worm expulsion, impaired production of antibodies, and lower levels of IL-13. Their CD4+ T cells present reduced glycolytic rates when compared to cells from cohoused infected wild type mice. However, at later stages of infection, antibody, IL-13 and glycolytic levels were restored together with worm expulsion. CD4+ T cells from the early stage of infection showed reduced phosphorylation of mTOR, which suggested that impairment of function was mTOR dependent. Indeed, mice lacking mTOR in T cells fail to expel a high dose of parasites. They showed abrogation of IL-13 production, impairment in antibody class switching and their CD4+ T cells failed to upregulate glycolysis. Thus, this thesis shows that mTOR is essential for the proper functioning of T cells during T. muris infection and efficient amino acid transport plays a significant role. Taken together, these data show that metabolic orchestration of T cell function influences the capacity to effectively control helminth infection and that even subtle changes in T cell metabolic control can have a major effect on response phenotype.

Identiferoai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:748068
Date January 2018
CreatorsZancanaro Krauss, Maria Eduarda
ContributorsGrencis, Richard ; Couper, Kevin
PublisherUniversity of Manchester
Source SetsEthos UK
Detected LanguageEnglish
TypeElectronic Thesis or Dissertation
Sourcehttps://www.research.manchester.ac.uk/portal/en/theses/cd4-t-cell-metabolism-during-trichuris-muris-infection(24eb0cc7-db70-46ea-ba49-e4fe3d5a5d03).html

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