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United States Department of Agriculture

Agricultural Research Service

Research Project: NUTRITION, AGING, IMMUNE AND INFLAMMATORY RESPONSES IN HEALTH AND DISEASES

Location: Human Nutrition Research Center on Aging

Title: Vitamin E, signalosomes and gene expression in T cells

Authors
item Molano, Alberto -
item Meydani, Simin -

Submitted to: Molecular Aspects of Medicine
Publication Type: Review Article
Publication Acceptance Date: November 15, 2011
Publication Date: February 2, 2012
Citation: Molano, A., Meydani, S. 2012. Vitamin E, signalosomes and gene expression in T cells. Molecular Aspects of Medicine. 33:55-62.

Technical Abstract: CD4+T cells from aged humans or mice show significant reductions in IL-2 production upon activation. The resulting decreased proliferation is linked to higher risks of infection in the elderly. Several lines of evidence indicate that intrinsic defects preferentially affecting the naïve subset of CD4+T cells contribute to this reduced IL-2 production. Comparison of the biochemical pathways that transduce activation signals from the T cell receptor to the IL-2 promoter in young and old CD4+T cells has demonstrated age-related impairments at initial molecular events, in particular the phosphorylation of kinases and adapter proteins involved in the formation of signalosomes – complex multiprotein assemblies that provide the framework for effective signal transduction. Confocal microscopy has demonstrated a series of age-related impairments in effective immune synapse formation. Vitamin E can reverse many of these CD4+T cell age-associated defects, including reduced levels of phosphorylation of critical signaling/adapter proteins as well as defective immune synapse formation. Vitamin E also enhances IL-2 production, expression of several cell cycle control proteins, and proliferation. Although the precise mechanisms underlying this effect are not understood, it is possible that this antioxidant lipophilic vitamin can prevent the propagation of polyunsaturated fatty acid peroxidation in the cell membrane, influence the biochemical characteristics of specific lipid bilayer microdomains involved in signal transduction, modulate the activity of kinases/phosphatases, or interact with intracellular receptors.

Last Modified: 9/10/2014
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