Modulation of innate immunological factors by STEALTH liposome-encapsulated tumor necrosis factor-alpha in a colon tumor xenograft model.

BACKGROUND

Previous studies have shown that tumor necrosis factor-alpha (TNF-alpha) encapsulated in sterically-stabilized PEGylated STEALTH liposomes (SL) can better and more safely augment the efficacy of other treatment modalities than free TNF-alpha. The aim of this study was to examine the effects of SL-TNF-alpha in the LS174T human colon tumor xenograft model and to correlate its administration with alterations in innate immune system parameters.

MATERIALS AND METHODS

Nude mice (n = 128) were injected subcutaneously with LSI 74T cells and treated intravenously with SL-TNF-alpha SL-placebo, or free recombinant human TNF-alpha; the animals were euthanized at 6, 18, 36 and 96 hours after injection.

RESULTS

Significant increases in leukocyte, granulocyte, monocyte and NK cell numbers were observed early (6 hours) in the blood from both SL-TNF-alpha and free TNF-alpha treated mice compared to the control group. In contrast, during the 18- to 36-hours interval, SL-TNF-alpha induced significantly higher (p<0.05) leukoctyte, T cell, and NK cell numbers, basal leukocyte proliferation, and CD25+ activation marker expression; the modulation occurred primarily in the spleen.

CONCLUSION

These data indicate that both SL-TNF-alpha and free TNF-alpha can induce dramatic up-regulation in leukocyte populations early after injection. However, the up-regulation produced by SL-TNF-alpha was more prolonged and pronounced than that of TNF-alpha and had better correlation with cell activation. These findings suggest that sustained leukocyte recruitment and/or activation may be an important factor in the greater than additive or synergistic antitumor effects observed when SL-TNF-alpha is used in combination with other cancer therapies.