Radio-immunoconjugated, Dox-loaded, surface-modified superparamagnetic iron oxide nanoparticles (SPIONs) as a bioprobe for breast cancer tumor theranostics

In this research, we develop dual modality molecular imaging and also radio-immunotherapy (RIT) bioprobes, in the form of modified superparamagnetic iron oxide nanoparticles (SPIONs) conjugated to radiolabeled antibodies, for PET and MRI of HER2 expressing cancers as well as a PH sensitive drug carrier by embedded an anticancer agent for cancer therapeutic applications. The bioprobes were developed by conjugating Cu-64 labeled trastuzumab (herceptin) and rituximab (Anti CD-20) antibodies to modified SPIONs. The SPIONs were modified with carboxymethyl chitosan and functionalized with acrylic acid (AA). Also, with the purpose of identifying more effective bifunctional chelator (BFC), we compared the properties of novel BFC, p-NO2-Bn-PCTA with the commonly used DOTA-NHS for radio-immunoconjugate preparations. Moreover, a chemotherapy drug, doxorubicin, was then loaded onto engineered nanoparticles for targeted intracellular drug delivery and selective cancer cell killing. Resulting radio-immunoconjugated-SPIONs were evaluated for molecular imaging and effective targeting of the HER2+ receptors in SKBR3 cell lines and breast tumor bearing Balb/C mice. Therefore, our bio-compatible SPIONs could serve as a promising multifunctional theranostics nanoplatform in dual modality imaging guided RIT of HER2 overexpressing cancer applicable to drug delivery and controlled drug release for trigger both intrinsic and extrinsic pathways of apoptosis.