Abstract
BackgroundTumor-targeted nanoparticles hold great promise as new tools for therapy of liquid cancers. Furthermore, the therapeutic efficacy of nanoparticles can be improved by enhancing the cancer cellular internalization.MethodsIn this study, we developed a humanized bispecific antibody (BsAbs: CD20 Ab-mPEG scFv) which retains the clinical anti-CD20 whole antibody (Ofatumumab) and is fused with an anti-mPEG single chain antibody (scFv) that can target the systemic liquid tumor cells. This combination achieves the therapeutic function and simultaneously “grabs” Lipo-Dox® (PEGylated liposomal doxorubicin, PLD) to enhance the cellular internalization and anticancer activity of PLD.ResultsWe successfully constructed the CD20 Ab-mPEG scFv and proved that CD20 Ab-mPEG scFv can target CD20-expressing Raji cells and simultaneously grab PEGylated liposomal DiD increasing the internalization ability up to 60% in 24 h. We further showed that the combination of CD20 Ab-mPEG scFv and PLD successfully led to a ninefold increase in tumor cytotoxicity (LC50: 0.38 nM) compared to the CD20 Ab-DNS scFv and PLD (lC50: 3.45 nM) in vitro. Importantly, a combination of CD20 Ab-mPEG scFv and PLD had greater anti-liquid tumor efficacy (P = 0.0005) in Raji-bearing mice than CD20 Ab-DNS scFv and PLD.ConclusionOur results indicate that this “double-attack” strategy using CD20 Ab-mPEG scFv and PLD can retain the tumor targeting (first attack) and confer PLD tumor-selectivity (second attack) to enhance PLD internalization and improve therapeutic efficacy in liquid tumors.
Highlights
Tumor-targeted nanoparticles hold great promise as new tools for therapy of liquid cancers
Characterization of Cluster of differentiation 20 (CD20) Ab‐methyl polyethylene glycol (mPEG) Single chain fragment variable (scFv) We investigated the bi-specific function of CD20 Ab-mPEG scFv, which was constructed by linking a single-chain variable fragment of a humanized antimPEG Ab via a flexible peptide (GGGSGGG) to the C-terminus of Ofatumumab
CD20 Ab-DNS scFv can only target to the CD20expressing Raji cells to trigger the antibody-dependent cellular cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC)
Summary
Tumor-targeted nanoparticles hold great promise as new tools for therapy of liquid cancers. Further‐ more, the therapeutic efficacy of nanoparticles can be improved by enhancing the cancer cellular internalization. The use of doxorubicin hydrochloride combined with Rituximab is an effective therapy for relapsed and refractory leukemia [4]. Nanoparticles may accumulate and be retained in solid tumors through the enhanced permeation and retention (EPR) effect [7, 8]. The EPR effect is present in tumors of more than ~ 100 mm in volume and hampers the use of nanoparticles for targeting small or unvascularized metastases [9]. To retain the anti-tumor effects of the therapeutic antibody, development of a strategy to enhance PLD tumor selectivity against liquid tumors is important
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