Effect of liposomal interleukin-2 on ascites-forming rat hepatoma

Liposomal delivery of proteins and peptides

INTRODUCTION

A number of delivery issues exist for biotech molecules including peptides, proteins and gene-based medicines that now make up over 60% of the drug pipeline. The problems comprise pharmaceutical ad biopharmaceutical issues. One of the common approaches to overcome these issues is the use of a carrier and liposomes as carriers have been investigated extensively over the last decade.

AREAS COVERED

The review has been discussed in terms of formulation and preclinical development studies and in vivo studies encompassing different delivery routes including parenteral, oral, buccal, pulmonary, intranasal, ocular and transdermal involving liposomes as carriers. Important research findings have been tabulated under each side heading and an expert opinion has been summarised for each delivery route.

EXPERT OPINION

The conclusion and expert opinion - conclusion sections discuss in detail troubleshooting aspects related to the use of liposomes as carriers for delivery of biopharmaceutical moieties and scrutinises the aspects behind the absence of a protein/peptide-containing liposome in market.

The effect of low-dose interleukin-2-based immunotherapy on salivary function and composition in patients with metastatic renal cell carcinoma

One of the side-effects accompanying low-dose recombinant interleukin-2 (rIL-2)-based immunotherapy is salivary hypofunction. We evaluated the functional and compositional whole salivary profile at both resting and stimulated conditions in 10 renal cell carcinoma patients who received prolonged low-dose rIL-2-based immunotherapy. Following the termination of 4 weeks of the combined administration of rIL-2 and recombinant interferon-alpha (rIFN-alpha), we found significant reductions of salivary flow rates at resting condition, accompanied by significant multiple compositional alterations, including increases in calcium, magnesium and phosphate concentrations, and significant reductions in total protein concentration. In contrast, no flow rate reduction was noted under stimulated condition, and the only significant altered compositional component was the phosphate. We recommend salivary-supporting therapies and anticariogenic treatments for patients undergoing low-dose rIL-2-based immunotherapy.

Delivery of cytokines by liposomes: hematopoietic and immunomodulatory activity of interleukin-2 encapsulated in conventional liposomes and in long-circulating liposomes

Although liposomal delivery of interleukin-2 (IL-2) and other cytokines improves their pharmacokinetics and biologic activity in vivo, there are no comparative functional studies of various liposomal formulations as cytokine carriers. In the present investigation, recombinant human IL-2 was encapsulated in two formulations of large (mean diameter 0.75-1.5 microns) multilamellar vesicles (MLV, referred to as conventional liposomes) or in small (mean diameter, 60 nm), unilamellar, long-circulating liposomes (referred to as sterically stabilized liposomes, SSL). The biologic activity of the liposomal formulations and of free IL-2 was tested in parallel in vitro and in mice. The main observations were as follows: (a) All the liposomal IL-2 (Lip-IL-2) formulations were more efficient than soluble IL-2 in stimulating spleen cell proliferation and lymphokine-activated killer (LAK) cell activation in vitro, particularly at low cytokine doses (1-100 CU/mL). (b) After i.v. injection, the circulation time of MLV-IL-2 and SSL-IL-2 was 7 and 17 times greater, respectively, than that of soluble IL-2. (c) In comparison with IL-2, all Lip-IL-2 formulations caused a marked increase in the leukocyte levels in blood, spleen, and peritoneal exudate, especially in those of myeloid origin (neutrophils, eosinophils, immature granulocytes, and macrophages). (d) Although SSL-IL-2 exhibited the longest circulation time, MLV-IL-2 was more potent in elevating leukocyte levels and in triggering LAK cell activity in vivo. (e) The route of Lip-IL-2 administration greatly affected the immunomodulatory activity in the various compartments. (f) MLV-IL-2 proved to be a much more efficient immunoadjuvant than free IL-2 for influenza subunit vaccines as well as for tumor cell vaccines. These findings lend support to our previous studies in which we demonstrated the superior immunomodulatory activity of liposomal IL-2, and suggest that cytokine pharmacokinetics, biodistribution, and pharmacodynamics are markedly influence both by liposomal formulation and route of administration.

Development of a routine analysis method for liposome encapsulated recombinant interleukin-2

This paper describes the development of an isocratic reversed-phase high-performance liquid chromatographic method for the routine analysis of recombinant interleukin-2 (rIL-2) in liposome samples. The chromatographic system employed a C4 column maintained at 30 degrees C eluted with 52.5% (w/w) acetonitrile in water, containing 100 mM NaClO4 and 10 mM HClO4. To remove phospholipid interference the chromatographic method was combined with a lipid-extraction procedure. No significant loss of rIL-2 was noted upon inclusion of this extraction step. The protein eluted from the column with a capacity factor (k') of 5.8. The method was validated for robustness, linearity, precision and reproducibility. It was shown that the method was linear over a sample concentration range of 1-100 microg/ml. Upon assessment of the intra-day and inter-day precision, the relative standard deviations (RSD) were within the range of the methodical error (approximately 5%), except at the lower concentration of 10 microg/ml, where the intra-day RSD was relatively high (17.8%). The recovery of rIL-2 upon liposome preparation and subsequent analysis of the samples was in the range 94+/-9%. The results indicate that the method is suitable for routine quantitation of rIL-2 in liposomal samples.

Interaction of recombinant interleukin-2 with liposomal bilayers

Liposomes have been employed as a delivery system for recombinant interleukin-2 (rIL-2) in cancer immunotherapy. In this study the effects of the rIL-2-bilayer interaction on protein structure were investigated. It was shown that rIL-2 adsorbs to liposomal membranes when added to preformed liposomes. Polarized fluorescence decay studies showed that the single tryptophan in "native" rIL-2 has a relatively large motional freedom, although iodide quenching of this residue's fluorescence was relatively ineffective. However, adsorption of rIL-2 to liposomes alters this situation dramatically- fluorescence intensity increased 2-fold and the residue became more susceptible to iodide quenching. At the same time, the average fluorescence lifetime of the fluorophore is extended. Interestingly, circular dichroism studies showed that no major conformational changes occurred in rIL-2's secondary structure upon adsorption. These observations support the hypothesis that intramolecular quenching takes place in the native rIL-2 molecule, which is abrogated upon adsorption to the liposomal membrane, resulting in a higher fluorescence intensity. Fluorescence anisotropy decay experiments indicate that the protein forms self-aggregates under the low-ionic strength conditions used, confirming the earlier observations on the tendency of the protein to precipitate in salt-containing media.