An in vivo mechanism for the reduced peripheral neurotoxicity of NK105: a paclitaxel-incorporating polymeric micellar nanoparticle formulation.

In our previous rodent studies, the paclitaxel (PTX)-incorporating polymeric micellar nanoparticle formulation NK105 had showed significantly stronger antitumor effects and reduced peripheral neurotoxicity than PTX dissolved in Cremophor® EL and ethanol (PTX/CRE). Thus, to elucidate the mechanisms underlying reduced peripheral neurotoxicity due to NK105, we performed pharmacokinetic analyses of NK105 and PTX/CRE in rats. Among neural tissues, the highest PTX concentrations were found in the dorsal root ganglion (DRG). Moreover, exposure of DRG to PTX (Cmax_PTX and AUC0-inf._PTX) in the NK105 group was almost half that in the PTX/CRE group, whereas exposure of sciatic and sural nerves was greater in the NK105 group than in the PTX/CRE group. In histopathological analyses, damage to DRG and both peripheral nerves was less in the NK105 group than in the PTX/CRE group. The consistency of these pharmacokinetic and histopathological data suggests that high levels of PTX in the DRG play an important role in the induction of peripheral neurotoxicity, and reduced distribution of PTX to the DRG of NK105-treated rats limits the ensuing peripheral neurotoxicity. In further analyses of PTX distribution to the DRG, Evans blue (Eb) was injected with BODIPY®-labeled NK105 into rats, and Eb fluorescence was observed only in the DRG. Following injection, most Eb dye bound to albumin particles of ~8 nm and had penetrated the DRG. In contrast, BODIPY®-NK105 particles of ~90 nm were not found in the DRG, suggesting differential penetration based on particle size. Because PTX also circulates as PTX-albumin particles of ~8 nm following injection of PTX/CRE, reduced peripheral neurotoxicity of NK105 may reflect exclusion from the DRG due to particle size, leading to reduced PTX levels in rat DRG (275).

Comparative study of peripheral neurotoxicity after injection of two different paclitaxel formulations in rats.

Paclitaxel Inj. [NK] (test; paclitaxel, CAS 33069-62-4) is a generic version of the drug from the originator (reference). Both drugs contain the same active ingredient and showed identical pharmacokinetics in patients in the previous study; however, these two drugs may have different safety profiles because they contain different inactive ingredients. Thus, in this study, peripheral neurotoxicity, one of the dose-limiting toxicities of the reference, was compared between the test and the reference in rats electrophysiologically and histopathologically. In a nerve conduction study, the amplitude of the caudal sensory nerve action potential decreased significantly after either the test or the reference administration, compared with the amplitude after saline administration, but no significant differences were observed between the two drugs. Histopathologically, apparent degeneration of the myelinated fibers in the sciatic and the sural nerves was seen after either the test or the reference injection, compared with after saline injection, but no apparent differences were observed between the two formulations. These results suggest that no significant difference in peripheral neurotoxicity exists between the test and the reference in rats.