Abstract
AbstractImpaired regulation of immune function characterised by chronic inflammation together with a declining protective immune response is a major challenge to healthy ageing. It is therefore important to understand the mechanisms that regulate immune function and the impact of ageing upon such processes. Appropriate induction and resolution of the immune response require adequate availability of polyunsaturated fatty acids (PUFAs) for incorporation into cell membranes. However, humans are unable to synthesise PUFAs de novo and are dependent upon dietary intake for pre‐formed PUFAs or synthesis by the liver from the essential fatty acids, linoleic acid (LA, 18:2n‐6) and alpha‐linolenic acid (aLNA, 18:3n‐3). We have shown that activation of peripheral blood mononuclear cells increases PUFA biosynthesis from essential fatty acids via a mechanism that involves altered epigenetic regulation of a key gene in the pathway. Moreover, induction of PUFA synthesis is directly involved in the regulation of lymphocyte activation and proliferation. The aim of the Biotechnology and Biological Sciences Research Council responsive mode award described in this paper, ‘How does polyunsaturated fatty acid biosynthesis regulate T‐lymphocyte function?’, is to determine how PUFA biosynthesis regulates T‐cell function and the effect of ageing on this process. The project will identify points of regulation in the biosynthetic pathway and how these might influence the capacity for up‐regulation of PUFA synthesis in older individuals. We will use stable isotope tracers of LA and aLNA to determine whether newly synthesised PUFAs are preferential substrates for synthesis of lipid mediators and whether they are involved in formation of membrane microdomains that mediate cell signalling.
Highlights
It is possible to isolate these cell types from human blood; one fraction commonly prepared is referred to as peripheral blood mononuclear cells (PBMCs) which are a mixture of lymphocytes and monocytes, with T cells being present in the greatest proportion
Leukocyte membranes are characterised by high levels of polyunsaturated fatty acids (PUFAs), in particular arachidonic acid (AA, 20:4n-6), which are substrates for the synthesis of lipid mediators that are released in response to immunological stimuli such as pathogens and cytokines
We have shown using stable isotope tracers that conversion of aLNA to longer chain PUFAs was undetectable in quiescent PBMCs
Summary
The first two reactions were reversed in PBMCs compared to the ‘conventional’ hepatic pathway (Voss & Sprecher 1988), such that the first reaction was carbon chain elongation by an unidentified enzyme followed by D8 desaturation, rather than the expected D6 desaturation step, possibly by D6 desaturase, namely the protein product of FADS2, acting on 20:3n-3 (Fig. 1). This suggests that the operation and regulation of the pathway may differ between leukocytes and other tissues (Burdge 2004)
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