JOURNAL ARTICLE
REVIEW
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Challenging cancer targets for aptamer delivery.

Biochimie 2018 Februrary
The extraordinary boost in the understanding of the genetic and epigenetic mechanisms underlying the development and progression of different types of cancer, is offering an unprecedented hope for the development of precise therapeutics able to interfere or replace the expression of target genes. In the last decade, the design of stable, safe and effective RNA-based therapeutics has been significantly improved increasing the number of molecules now in preclinical or in clinical trials for cancer gene therapy. However, with few exclusions as liver and hematological malignancies which are easy accessible to drugs, the development of effective systemic approaches for the delivery of RNA therapeutics to target cells is still unmet. To be effective, targeting carriers must be able to overcome both functional and physical barriers to safely carry and accumulate the therapeutic through the organism selectively to the tumor site, penetrate the target cancer mass, promote the uptake and localization in the appropriate intracellular compartment ultimately leading to the effective modulation of gene expression. Nucleic acid aptamers are folded single stranded oligonucleotides that bind at high affinity and high specificity their targets (proteins, lipids, small molecules etc), coupling the advantages of binding specificity proper of antibodies to the chemical nature of nucleic acids, sometimes also termed "nucleic acid antibodies". In several cases, aptamers targeting cell surface receptors are recycled into the cell together with the bound receptor enabling to drive conjugated therapeutics to cancer cells in a receptor-dependent manner. Therefore, besides other in vivo delivery strategies, the use of aptamers as precise and effective targeting moieties for anticancer RNA-based therapeutics has rapidly emerged and has been successfully addressed by several laboratories. In this Review, we will focus on the most recent and challenging progresses in the field that highlights the precision and flexibility of aptamer-based chimeras paving the way to the development of safe and effective carriers for cancer gene therapeutics.

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