Lianglin Zhang scite author profile

The synthesis, in vitro, and in vivo behavior of tumor‐homing magnetic nanoworms (NW) are described. The particles consist of a chainlike aggregation of iron oxide (IO) cores in a dextran coating. When conjugated with a tumor‐targeting peptide, they interact more effectively with a tumor‐based target in vitro relative to spherical nanoparticles. Untargeted NW display similar in vivo circulation times and enhanced passive accumulation in mouse xenograft tumors relative to untargeted spherical IO nanoparticles.

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Biomimetic amplification of nanoparticle homing to tumors

Simberg

Duza

Park

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

435

399

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Nanoparticle-based diagnostics and therapeutics hold great promise because multiple functions can be built into the particles. One such function is an ability to home to specific sites in the body. We describe here biomimetic particles that not only home to tumors, but also amplify their own homing. The system is based on a peptide that recognizes clotted plasma proteins and selectively homes to tumors, where it binds to vessel walls and tumor stroma. Iron oxide nanoparticles and liposomes coated with this tumorhoming peptide accumulate in tumor vessels, where they induce additional local clotting, thereby producing new binding sites for more particles. The system mimics platelets, which also circulate freely but accumulate at a diseased site and amplify their own accumulation at that site. The self-amplifying homing is a novel function for nanoparticles. The clotting-based amplification greatly enhances tumor imaging, and the addition of a drug carrier function to the particles is envisioned.clotting ͉ liver ͉ peptide ͉ tumor targeting ͉ iron oxide

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Mitochondrial/Cell-Surface Protein p32/gC1qR as a Molecular Target in Tumor Cells and Tumor Stroma

Fogal

Zhang²,

Krajewski³

et al. 2008

309

359

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A tumor homing peptide, LyP-1, selectively binds to tumorassociated lymphatic vessels and tumor cells in certain tumors and exhibits an antitumor effect. Here, we show that the protein known as p32 or gC1q receptor is the receptor for LyP-1. Various human tumor cell lines were positive for p32 expression in culture, and the expression was increased in xenograft tumors grown from the positive cell lines. Fluorescence-activated cell sorting analyses with anti-p32 antibodies showed that p32-positive cell lines expressed p32 at the cell surface. These cells bound and internalized LyP-1 peptide in proportion to the cell-surface expression level, which correlated with malignancy rather than total p32 expression in the cells. Like the LyP-1 peptide, p32 antibodies highlighted hypoxic areas in tumors, where they bound to both tumor cells and cells that expressed macrophage/myeloid cell markers and often seemed to be incorporated into the walls of tumor lymphatics. Significant p32 expression was common in human cancers and the p32 levels were often greatly elevated compared with the corresponding normal tissue. These results establish p32, particularly its cell-surface-expressed form, as a new marker of tumor cells and tumor-associated macrophages/myeloid cells in hypoxic/metabolically deprived areas of tumors. Its unique localization in tumors and its relative tumor specificity may make p32 a useful target in tumor diagnosis and therapy. [Cancer Res 2008;68(17):7210-8]

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Lianglin Zhang

Magnetic Iron Oxide Nanoworms for Tumor Targeting and Imaging

Biomimetic amplification of nanoparticle homing to tumors

Mitochondrial/Cell-Surface Protein p32/gC1qR as a Molecular Target in Tumor Cells and Tumor Stroma

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