Cytokine-induced killer cells-assisted tumor-targeting delivery of Her-2 monoclonal antibody-conjugated gold nanostars with NIR photosensitizer for enhanced therapy of cancer.

Maximizing the accumulation of anticancer medicine in the tumor is the priority to achieve minimal invasive cancer therapy, which raises high demands on tumor-targeting ability of drug delivery systems. Herein, we adopted an emerging "cell-drug" strategy via the nanoplatform construction to achieve high aggregation and intratumoral distribution. We fabricated gold nanostars (GNSs) with HER-2 monoclonal antibody (trastuzumab) and near-infrared region (NIR) photosensitizer indocyanine green (ICG) to obtain GNS@ICG-Ab, which combined the photothermal therapy with photodynamic therapy (PTT/PDT) that rely on enhanced photothermal conversion efficiency of GNS and 1O2 generator ICG under the exposure of a NIR laser. Tumor-tropism CIK cells loaded with GNS@ICG-Ab were able to migrate into tumors and make a difference in efficient accumulation and uniform distribution of the GNS@ICG-Ab-CIK nanoplatform inside tumors based on fluorescence, photoacoustic (PA), and computed tomography (CT) imaging observations. Encouraged by the improvements in tumor targeting and retention presented by real-time imaging, we employed the novel nanoplatform to synergistically inhibit the progression of tumors in SK-BR-3 tumor-bearing mice via PTT/PDT and immunotherapy-implemented by CIK cells for activating the immune response, and with the specific linkage between trastuzumab and SK-BR-3 tumor cells, our platform could exert a precise strike of PDT/PTT. Taken together, the integrating tri-modal imaging with tri-modal therapy endows CIK-GNS@ICG-Ab with promising potential in cancer theranostics and lays a solid foundation for the development of immune cell application in nanomedicine delivery.