n-3 Fatty acids uniquely affect anti-microbial resistance and immune cell plasma membrane organization. Academic Article uri icon


  • It is now well established that dietary lipids are incorporated into macrophage and T-cell membrane microdomains, altering their structure and function. Within cell membranes, there are specific detergent-resistant domains in which key signal transduction proteins are localized. These regions are classified as "lipid rafts". Rafts are composed mostly of cholesterol and sphingolipids and therefore do not integrate well into the fluid phospholipid bilayers causing them to form microdomains. Upon cell activation, rafts compartmentalize signal-transducing molecules, thus providing an environment conducive to signal transduction. In this review, we discuss recent novel data describing the effects of n-3 PUFA on alterations in the activation and functions of macrophages and T-cells. We believe that the modifications in these two disparate immune cell types are linked by fundamentally similar changes in membrane lipid composition and transmembrane signaling functions. We conclude that the outcomes of n-3 PUFA-mediated immune cell alterations may be beneficial (e.g., anti-inflammatory) or detrimental (e.g., loss of microbial immunity) depending upon the cell type interrogated.

published proceedings

  • Chem Phys Lipids

altmetric score

  • 0.5

author list (cited authors)

  • McMurray, D. N., Bonilla, D. L., & Chapkin, R. S.

citation count

  • 26

complete list of authors

  • McMurray, David N||Bonilla, Diana L||Chapkin, Robert S

publication date

  • October 2011