Due to the enhanced potency of DOX encapsulated into HA-modified

Due to the enhanced potency of DOX encapsulated into HA-modified liposomes, it was hypothesized that the drug reaches a critical compartment more efficiently, when compared with the free form. In

particular, the authors hypothesized that an uptake of the delivery system via a non-clathrin-coated endosome, as already reported in the case of hyaluronan catabolism, #selleck chemical Imatinib randurls[1|1|,|CHEM1|]# could occur [46]. This hypothesis was recently confirmed by our group after Inhibitors,research,lifescience,medical incubating HA-modified cationic selleck chem inhibitor liposomes with CD44-expressing A549 cells with different endocytosis inhibitors [20]. It was found that the transfection efficiency of HA-modified Inhibitors,research,lifescience,medical cationic liposomes was not affected by a clathrin-mediated endocytosis inhibitor, while it was significantly decreased by inhibitors of caveolae-mediated endocytosis, demonstrating that the latter is the main endocytosis pathway of HA-bearing lipoplexes. It is worthy of note that in the studies of Eliaz et al. [47] and Dufaÿ Wojcicki et al. [20] an LMW and an HMW-HA were used, respectively, although a similar endocytotic pathway can be reasonably Inhibitors,research,lifescience,medical hypothesized. Table 1 Examples of HA-decorated lipid-based nanocarriers for targeting of CD44. The targeting of cancer cells using

HMW-HA bound to liposomes was firstly demonstrated Inhibitors,research,lifescience,medical by Peer and Margalit [13, 14]. HMW-HA should offer advantages such as to bind the CD44 receptors with a higher affinity than hyaluronan fragments, to provide long-term circulation through its many hydroxyl residues, and to allow liposome lyophilization, due to the properties of HA to act as a cryoprotectant [48]. In particular, in an in vivo study, HA-modified liposomes resulted in long-circulating species, over a time frame at least equal to those reported for PEG-coated liposomes [13]. Mitomycin

C (MMC), a chemotherapeutic agent used in different form of tumors Inhibitors,research,lifescience,medical but also characterized by severe side effects, was encapsulated into HA-modified liposomes and tested in vitro and in two experimental models of lung metastases. The in vitro studies showed that loading Anacetrapib into the HA-modified liposomes generates a 100-fold increase in MMC potency in tumor cells that overexpress hyaluronan receptors, but not in cells with poor expression of these receptors. Moreover, when using HA-modified liposomes, MMC accumulated in the tumor 30-fold higher than when the drug was administered in free form and 4-fold higher than when delivered via unmodified liposomes. Interestingly, liver uptake was significantly reduced when the drug was delivered via the HA-modified liposomes that should contribute to reducing the subacute toxicity associated with MMC administered as free drug [13].

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