Role of Fatty-acid Synthesis in Dendritic Cell Generation and Function

Overview

Journal J Immunol

Specialty Allergy & Immunology

Date 2013 Mar 29

PMID 23536633

Citations 54

Authors

Adeel Rehman

Keith C Hemmert

Atsuo Ochi

Mohsin Jamal

Justin R Henning

Rocky Barilla

Juan P Quesada

Constantinos P Zambirinis

Kerry Tang

Melvin Ego-Osuala

Raghavendra S Rao

StEphanie Greco

Michael Deutsch

Suchithra Narayan

H Leon Pachter

Christopher S Graffeo

Devrim Acehan

George Miller

Affiliations

Soon will be listed here.

Abstract

Dendritic cells (DC) are professional APCs that regulate innate and adaptive immunity. The role of fatty-acid synthesis in DC development and function is uncertain. We found that blockade of fatty-acid synthesis markedly decreases dendropoiesis in the liver and in primary and secondary lymphoid organs in mice. Human DC development from PBMC precursors was also diminished by blockade of fatty-acid synthesis. This was associated with higher rates of apoptosis in precursor cells and increased expression of cleaved caspase-3 and BCL-xL and downregulation of cyclin B1. Further, blockade of fatty-acid synthesis decreased DC expression of MHC class II, ICAM-1, B7-1, and B7-2 but increased their production of selected proinflammatory cytokines including IL-12 and MCP-1. Accordingly, inhibition of fatty-acid synthesis enhanced DC capacity to activate allogeneic as well as Ag-restricted CD4(+) and CD8(+) T cells and induce CTL responses. Further, blockade of fatty-acid synthesis increased DC expression of Notch ligands and enhanced their ability to activate NK cell immune phenotype and IFN-γ production. Because endoplasmic reticulum (ER) stress can augment the immunogenic function of APC, we postulated that this may account for the higher DC immunogenicity. We found that inhibition of fatty-acid synthesis resulted in elevated expression of numerous markers of ER stress in humans and mice and was associated with increased MAPK and Akt signaling. Further, lowering ER stress by 4-phenylbutyrate mitigated the enhanced immune stimulation associated with fatty-acid synthesis blockade. Our findings elucidate the role of fatty-acid synthesis in DC development and function and have implications to the design of DC vaccines for immunotherapy.

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