Abstract
Due to the inability of classical chemotherapeutic agents to exclusively target tumor cells, these treatments are associated with severe toxicity profiles. Thus, long-circulating liposomes have been developed in the past to enhance accumulation in tumor tissue by passive targeting. Accordingly, commercially available liposomal formulations of sterically stabilized liposomal doxorubicin (Caelyx, Doxil, Lipodox) are associated with improved off-target profiles. However, these preparations are still not capable to selectively bind to target cells. Thus, in an attempt to further optimize existing treatment schemes immunoliposomes have been established to enable active targeting of tumor tissues. Recently, we have provided evidence for therapeutic efficacy of anti-IGF1R-targeted, surface modified doxorubicin loaded liposomes. Our approach involved a technique, which allows specific post-modifications of the liposomal surface by primed antibody-anchor conjugates thereby facilitating personalized approaches of commercially available liposomal drugs. In the current study, post-modification of sterically stabilized liposomal Dox was thoroughly investigated including the influence of different modification techniques (PIT, SPIT, SPIT60), lipid composition (SPC/Chol, HSPC/Chol), and buffers (HBS, SH). As earlier in vivo experiments did not take into account the presence of non-integrated ab-anchor conjugates this was included in the present study. Our experiments provide evidence that post-modification of commercially available liposomal preparations for active targeting is possible. Moreover, lyophilisation represents an applicable method to obtain a storable precursor of surface modifying antibody-anchor conjugates. Thus, these findings open up new approaches in patient individualized targeting of chemotherapeutic therapies.
Highlights
Over the last two decades liposomes have been developed as potent carrier systems for several drugs including cytostatic agents [1]
As IGF1 receptor (IGF1-R) dependent signaling has been shown to promote tumorigenesis and hypersecretion syndromes in neuroendocrine tumors of the gastroenteropancreatic system (GEP) [20,21,22], we investigated these IGF1-Rtargeting immunoliposomes in a preclinical xenograft model with promising therapeutic potential for the treatment of GEP-NETs
While 37°C values represent passive and active cellular processes, 4°C values only result from cellular attachment, as active metabolic processes do not occur at 4°C
Summary
Over the last two decades liposomes have been developed as potent carrier systems for several drugs including cytostatic agents [1]. Based on its strong expression in a wide range of human cancers and the important contribution of IGF1-R dependent effects on tumor biology [11, 12] different IGF-1-R targeting approaches have been developed with some promising results in preclinical and early clinical trials [12,13,14,15,16] As it remains uncertain whether inhibition of IGF1-R signaling alone is sufficient to mediate sustained therapeutic effects, the combination with free cytotoxic agents has been initiated to complement effects of the targeted therapies [14, 17, 18]
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