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The Therapeutic Effect of Human Serum Albumin Dimer-Doxorubicin Complex against Human Pancreatic Tumors

Ryo Kinoshita, Yu Ishima, Victor Tuan Giam Chuang, Hiroshi Watanabe, Taro Shimizu, Hidenori Ando, Keiichiro Okuhira, Masaki Otagiri, Tatsuhiro Ishida, Toru Maruyama

2021Pharmaceutics13 citationsDOIOpen Access PDF

Abstract

), has attracted significant interest in drug delivery research. Recently, we demonstrated that HSA dimer (HSA-d) possesses a higher tumor distribution than HSA monomer (HSA-m). Therefore, HSA-d is more suitable as a drug carrier for antitumor therapy and can improve nab technology. This study investigated the efficacy of HSA-d-doxorubicin (HSA-d-DOX) as next-generation nab technology for tumor treatment. DOX conjugated to HSA-d via a tunable pH-sensitive linker for the controlled release of DOX. Lyophilization did not affect the particle size of HSA-d-DOX or the release of DOX. HSA-d-DOX showed significantly higher cytotoxicity than HSA-m-DOX in vitro. In the SUIzo Tumor-2 (SUIT2) human pancreatic tumor subcutaneous inoculation model, HSA-d-DOX could significantly inhibit tumor growth without causing serious side effects, as compared to the HSA binding DOX prodrug, which utilized endogenous HSA as a nano-drug delivery system (DDS) carrier. These results indicate that HSA-d could function as a natural solubilizer of insoluble drugs and an active targeting carrier in intractable tumors with low vascular permeability, such as pancreatic tumors. In conclusion, HSA-d can be an effective drug carrier for the antitumor drug delivery system against human pancreatic tumors.

Topics & Concepts

Human serum albuminDoxorubicinDrug deliveryPaclitaxelChemistryDrug carrierPharmacologyPancreatic cancerCytotoxicityProdrugDrugDistribution (mathematics)In vitroMedicineChemotherapyBiochemistryCancerInternal medicineMathematical analysisOrganic chemistryMathematicsNanoparticle-Based Drug DeliveryNanoplatforms for cancer theranosticsLanthanide and Transition Metal Complexes
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