Erik W. Orava scite author profile

Many evolving treatments for cancer patients are based on the targeted delivery of therapeutic cargoes to and into cancer cells. The advent of monoclonal antibodies and the use of peptide hormones, growth factors and cytokines have historically provided a spectrum of ligands needed to selectively target tumor-associated antigens on cancer cells. However, issues linked to the size, cost and immunogenicity of protein-based ligands have led to the search for alternate ligand families. The advent of short synthetic oligonucleotide ligands known as aptamers now provides a simple strategy to select for membrane-impermeant aptamers tailored to precisely target internalized surface markers present on cancer cells. Here we described how 25-base long, synthetic single-stranded DNA aptamers were derived to bind to known internalized tumor markers such as CD33, CEA, MUC1 and Tn antigens and are imported through these surface portals into cancer cells. The key consequence of using internalized aptamers is their ability to accumulate inside the cells, thus routing their therapeutic cargoes to intracellular sites relevant to their action. Internalized aptamers are discussed in the context of how such ligands have been used to create a range of guided therapeutic agents ranging from drug-based conjugates up to targeted nanoparticles.

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A Short DNA Aptamer That Recognizes TNFα and Blocks Its Activity in Vitro

Orava

Jarvik

Shek

et al. 2012

ACS Chem. Biol.

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Tumor necrosis factor-alpha (TNFα) is a pivotal component of the cytokine network linked to inflammatory diseases. Protein-based, TNFα inhibitors have proven to be clinically valuable. Here, we report the identification of short, single-stranded DNA aptamers that bind specifically to human TNFα. One such 25-base long aptamer, termed VR11, was shown to inhibit TNFα signaling as measured using NF-κB luciferase reporter assays. This aptamer bound specifically to TNFα with a dissociation constant of 7.0 ± 2.1 nM as measured by surface plasmon resonance (SPR) and showed no binding to TNFβ. Aptamer VR11 was also able to prevent TNFα-induced apoptosis as well as reduce nitric oxide (NO) production in cultured cells for up to 24 h. As well, VR11, which contains a GC rich region, did not raise an immune response when injected intraperitoneally into C57BL/6 mice when compared to a CpG oligodeoxynucleotide (ODN) control, a known TLR9 ligand. These studies suggest that VR11 may represent a simpler, synthetic scaffold than antibodies or protein domains upon which to derive nonimmunogenic oligonucleotide-based inhibitors of TNFα.

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Blocking the attachment of cancer cells in vivo with DNA aptamers displaying anti‐adhesive properties against the carcinoembryonic antigen

et al. 2013

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The formation of metastatic foci occurs through a series of cellular events, initiated by the attachment and aggregation of cancer cells leading to the establishment of micrometastases. We report the derivation of synthetic DNA aptamers bearing anti‐adhesive properties directed at cancer cells expressing the carcinoembryonic antigen (CEA). Two DNA aptamers targeting the homotypic and heterotypic IgV‐like binding domain of CEA were shown to block the cell adhesion properties of CEA, while not recognizing other IgV‐like domains of CEACAM family members that share strong sequence and structural homologies. More importantly, the pre‐treatment of CEA‐expressing tumour cells with these aptamers prior to their intraperitoneal implantation resulted in the prevention of peritoneal tumour foci formation. Taken together, these results highlight the effectiveness of targeting the cell adhesion properties of cancer cells with aptamers in preventing tumour implantation.

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Erik W. Orava

Delivering cargoes into cancer cells using DNA aptamers targeting internalized surface portals

A Short DNA Aptamer That Recognizes TNFα and Blocks Its Activity in Vitro

Blocking the attachment of cancer cells in vivo with DNA aptamers displaying anti‐adhesive properties against the carcinoembryonic antigen

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