Effects of dietary lipid manipulation upon graft vs host and host vs graft responses in the rat.

The popliteal lymph node (PLN) assay was used to establish whether dietary lipids with differing fatty acid compositions could affect cell-mediated immunity in the rat. Weanling rats were fed for 4 weeks on a lowfat (2.5% by weight; LF) diet or on diets containing 20% (by weight) hydrogenated coconut oil (HCO), olive oil (OO), safflower oil (SO), evening primrose oil (EPO), or menhaden (fish) oil (MO). Feeding the MO diet suppressed the graft vs host response compared with feeding the LF, HCO, SO, or EPO diets, while feeding the OO diet suppressed this response compared with feeding the LF or EPO diets. Feeding the MO diet suppressed the host vs graft response compared with feeding each of the other diets. Following the graft vs host reaction, PLN lymphocytes from animals fed the MO diet had significantly lower levels of expression of LFA-1 and CD2 compared with PLN lymphocytes from animals fed the LF diet; furthermore, they had lower levels of expression of T-cell receptor (TcR), CD4, CD8, LFA-1, and CD2 compared with lymphocytes from animals fed some, and in the case of CD2 each, of the other high-fat diets. Feeding the MO diet resulted in a lower proportion of cells expressing the interleukin-2 receptor, indicating an inhibition of lymphocyte activation, and a lower proportion of CD16+/CD3- cells, indicating a decrease in the proportion of NK cells within the PLN. Following the host vs graft reaction, PLN lymphocytes from animals fed the MO diet had significantly lower levels of expression of TcR and CD8 compared with lymphocytes from animals fed each of the other diets; furthermore, they had lower levels of expression of CD4, CD2, and LFA-1 compared with lymphocytes from animals fed the LF, HCO, OO, or SO diets. These observations indicate that the smaller PLN size of animals fed the MO diet results from an inhibition of activation and subsequent proliferation of cells within the node and perhaps also a suppression of movement of cells from the bloodstream to the PLN, due to decreased level of expression of adhesion molecules. These lowered levels of expression might be due to an inhibitory effect of the n-3 polyunsaturated fatty acids found in MO upon components of the signal transduction pathways involved in lymphocyte activation or upon expression of the genes for the surface molecules or both.