Naohisa Katayama scite author profile

To evaluate the effect of coupling of recombinant human serum albumin (rHSA) onto the surface of poly(ethylene glycol)-modified liposome (PEG liposome) on the in-vivo disposition characteristics of liposomal doxorubicin (DXR), the pharmacokinetics and tissue distribution of DXR were evaluated after intravenous administration of rHSA-modified PEG (rHSA/PEG) liposomal DXR into tumor-bearing rats.rHSA/PEG liposome prepared using a hetero-bifunctional cross-linker, N-succinimidyl 3-(2-pyridyldithio) propionate (SPDP), efficiently encapsulated DXR (over 95%). rHSA/PEG liposomal DXR showed longer blood-circulating property than PEG liposomal DXR and the hepatic and splenic clearances of rHSA/PEG liposomal DXR were significantly smaller than those of PEG liposomal DXR. It was also demonstrated that the disposition of DXR to the heart, one of the organs for DXR-related side-effects, was significantly smaller than free DXR. Furthermore, the tumor accumulation of rHSA/PEG liposomal DXR was significantly larger than that of PEG liposomal DXR. The "therapeutic index", a criterion for therapeutic outcome, for rHSA/PEG liposomal DXR was significantly higher than PEG liposomal DXR. These results clearly indicate that rHSA-conjugation onto the surface of PEG liposome would be a useful approach to increase the effectiveness and safety of PEG liposomal DXR.

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Cellular uptake mechanisms and responses to NO transferred from mono- and poly-S-nitrosated human serum albumin

Ishima

Yoshida

Kragh‐Hansen

et al. 2011

Free Radical Research

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Endogenous S-nitrosated human serum albumin (E-Mono-SNO-HSA) is a large molecular weight nitric oxide (NO) carrier in human plasma, which has shown many beneficial effects in different animal models. To construct more efficient SNO-HSA preparations, SNO-HSA with many conjugated SNO groups has been prepared using chemical modification (CM-Poly-SNO-HSA). We have compared the properties of such a preparation to those of E-Mono-SNO-HSA. Cellular uptake of NO from E-Mono-SNO-HSA partly takes place via low molecular weight thiol, and it results in cytoprotective effects by induction of heme oxygenase-1. By contrast, transfer of NO from CM-Poly-SNO-HSA into the cells is faster and more pronounced. The influx mainly takes place by cell-surface protein disulfide isomerase. The considerable NO inflow results in apoptotic cell death by ROS induction and caspase-3 activation. Thus, increasing the number of SNO groups on HSA does not simply intensify the cellular responses to the product but can also result in very different effects.

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Naohisa Katayama

Design and Evaluation ofS-Nitrosylated Human Serum Albumin as a Novel Anticancer Drug

Nitrosylated human serum albumin (SNO-HSA) induces apoptosis in tumor cells

Albumin-conjugated PEG liposome enhances tumor distribution of liposomal doxorubicin in rats

Cellular uptake mechanisms and responses to NO transferred from mono- and poly-S-nitrosated human serum albumin

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