Regulation of Dendritic Cell Function and T Cell Priming by the Fatty Acid-Binding Protein aP2

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Rolph, Michael S.
Young, Timothy R.
Shum, Bennett O. V.
Gorgun, Cem Z.
Schmitz-Peiffer, Carsten
Ramshaw, Ian A.
Hotamisligil, Gökhan S.
Mackay, Charles R.
Griffith University Author(s)
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2006
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Abstract

The fatty acid-binding protein (FABP) family consists of a number of conserved cytoplasmic proteins with roles in intracellular lipid transport, storage, and metabolism. Examination of a comprehensive leukocyte gene expression database revealed strong expression of the adipocyte FABP aP2 in human monocyte-derived dendritic cells (DCs). We isolated bone marrow-derived DC from aP2-deficient mice, and showed that expression of DC cytokines including IL-12 and TNF was significantly impaired in these cells. Degradation of I?Ba was also impaired in aP2-deficient DCs, indicative of reduced signaling through the I?B kinase-NF-?B pathway. The cytokine defect was selective because there was no effect on Ag uptake or expression of MHC class II, CD40, CD80, or CD86. In an MLR, aP2-deficient DCs stimulated markedly lower T cell proliferation and cytokine production than did wild-type DCs. Moreover, aP2-deficient mice immunized with keyhole limpet hemocyanin/CFA showed reduced production of IFN-? by restimulated draining lymph node cells, suggesting a similar defect in DC function in vivo. Similarly, infection of aP2-deficient mice with the natural mouse pathogen ectromelia virus resulted in substantially lower production of IFN-? by CD8+ T cells. Thus, FABP aP2 plays an important role in DC function and T cell priming, and provides an additional link between metabolic processes and the regulation of immune responses.

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Journal of Immunology

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177

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11

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Cellular Immunology

Immunology

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