Tissue distribution and cellular distribution of liposomes encapsulating muramyltripeptide phosphatidyl ethanolamide. Tissue and cellular distribution of LE-MTPPE

Imunomodulative effect of liposomized muramyltripeptide phosphatidylethanolamine (L-MTP-PE) on mice with alveolar echinococcosis and treated with albendazole

The effect of liposomized muramyltripeptide phosphatidylethanolamine (L-MTP-PE) administered separately or with anthelmintic albendazole (ABZ) on cellular immunity of mice with alveolar echinococcosis was studied. The proliferative activity of splenic T and B lymphocytes was the most stimulated after combined L-MTP-PE + ABZ therapy [from weeks 8 to 14 post-infection (p.i.)] that also induced a long-term development of protective Th1 response (the highest serum concentration of IFN-gamma from weeks 8 to 18 p.i.). On the contrary, Th2 response (cytokine IL-5) in infected mice treated with L-MTP-PE was inhibited since week 8 p.i., but a significant long-term decrease in IL-5 concentration was found after combined L-MTP-PE+ABZ therapy until the end of the experiment (until week 26 p.i.). L-MTP-PE stimulated the production of superoxide anion (O2-) by peritoneal macrophages from weeks 8 to 12 p.i., but the highest O2- production was accordingly recorded after therapy L-MTP-PE+ABZ from weeks 8 to 18 p.i. Stimulation of cellular immunity of mice with alveolar echinococcis with L-MTP-PE and an interaction with ABZ's anti-parasitic effect resulted in the greatest and long-term reduction of growth of Echinococcus multilocularis cysts in the host from week 10 p.i. until the end of the experiment.

Liposomal Cytokines in the Treatment of Infectious Diseases and Cancer

Despite of the demonstrated activity of cytokines in vitro, their use in the clinical setting is often disappointing. Cytokine-related toxicity seriously limits optimal use in vivo. In addition, rapid degradation and excretion, neutralization and binding to receptors, or metabolization of the molecule results in a short half-life in serum when injected intravenously. As the dose-response curve of cytokines is relatively steep, outcome greatly benefits from improved delivery and bioavailability. One way to improve the pharmacokinetics of cytokines after systemic application is encapsulation in liposomes. An advantage of liposomes is that the encapsulated drug is protected from (rapid) degradation and excretion, and it eliminates the binding to neutralizing antibodies or (soluble) receptors. Moreover, liposomes can be tailored in such a way that they exhibit favorable pharmacokinetics, i.e., increased serum half-life and improved targeting to tissues or cells of interest. In this chapter, the use of liposomal cytokines in the treatment of cancer and infectious disease is discussed.

Effect of MTP on TNF-alpha in perfused rat liver after bacteremia and ischemia/reperfusion

INTRODUCTION

Muramlytripeptide phosphatidylethanolamine (MTP) stimulates synthesis of cytokines by hepatic Kupffer cells. We have shown in a perfused rat liver model that secondary ischemia/reperfusion (I/R) downregulates tumor necrosis factor alpha (TNF-alpha) expression after Escherichia coli (EC) bacteremia. Here, we tested the hypothesis that pretreatment with MTP restores cytokine response after sequential bacteremia and I/R.

METHODS

Thirty-eight livers were studied in eight groups after intraportal injection of 10(9) live EC or normal saline (NS): (1) normoxic EC; (2) EC + I/R (ischemia began 30 min after EC followed by 2 h of reperfusion); (3) normoxic NS controls; and (4) NS + I/R. Four groups of rats received 300 micrograms of MTP i.v. 24 h prior to liver harvesting; (5) MTP + EC; (6) MTP + EC + I/R; (7) MTP + NS; and (8) MTP + NS + I/R. Bioactive and antigenic TNF-alpha, PGE2 and bacterial clearance were assessed.

RESULTS

MTP increased bioactive TNF-alpha response to EC (MTP + EC vs EC controls: 685 +/- 255 U/ml vs 250 +/- 180 U/ml, P < 0.02). I/R did not downregulate TNF-alpha in animals treated with MTP (MTP + NS vs MTP + NS +I/R, P = 0.83). Pretreatment with MTP restored TNF-alpha after I/R MTP + EC + I/R vs EC + I/R: 671 +/- 215 U/ml vs 27 +/- 14 U/ml, P < 0.001) to levels similar to those found in the MTP + EC group (MTP + EC + I/R vs MTP + EC: 671 +/- 215 U/ml vs 685 +/- 255 U/ml, P = 0.75). Finally, bacterial clearance was increased in groups which received MTP.

CONCLUSION

In vivo administration of MTP increases hepatic TNF-alpha response to intraportal EC bacteremia by a PGE2 independent mechanism. This response is maintained even after subsequent ischemia and reperfusion.

Involvement of T cells in enhanced resistance to Klebsiella pneumoniae septicemia in mice treated with liposome-encapsulated muramyl tripeptide phosphatidylethanolamine or gamma interferon

We have previously shown that prophylactic administration of the liposome-encapsulated immunomodulating agents muramyl tripeptide phosphatidylethanolamine (MTPPE) and gamma interferon (IFN-gamma) results in strongly increased survival of mice from a normally lethal septicemia with Klebsiella pneumoniae. It was anticipated that the treatment acts on macrophages and nonspecifically augments host resistance to various infections. In the present study, we provide evidence for a key role for T cells in host defense potentiation by the liposomal immunomodulators toward K. pneumoniae septicemia. It is shown that both CD4 and CD8 cells are important in immunomodulation, most likely due to production of IFN-gamma. Depletion of circulating IFN-gamma resulted in strong reduction of the antimicrobial host defense activation. Administration of interleukin-10 resulted in decreased antimicrobial host defense activation by liposomal immunomodulators. Moreover, administration of liposomal immunomodulators was shown to induce predominantly T-helper type 1 (Th1) cell populations in the spleen. These findings indicate that immunomodulation with liposomal MTPPE and IFN-gamma favors Th1 and NK cell activation.