RNA Aptamer-Based Functional Ligands of the Neurotrophin Receptor, TrkB

Huang, Yang; Hernandez, Frank J.; Gu, Bin; Stockdale, Katie R.; Nanapaneni, Kishore; Scheetz, Todd E.; Behlke, Mark A.; Peek, Andrew S.; Bair, Thomas B.; Giangrande, Paloma H.; McNamara, James O

doi:10.1124/mol.112.078220

Cited by 42 publications

(39 citation statements)

References 36 publications

(42 reference statements)

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“…Further work in seizure models used an aptamer that binds to the extracellular domain of neurotrophin receptor (TrkB) [156]. TrkB is a receptor involved in cell signaling and plays a role in regulation of neuronal function and plasticity.…”

Section: Aptamers For Other Receptorsmentioning

confidence: 99%

Aptamers as Promising Molecular Recognition Elements for Diagnostics and Therapeutics in the Central Nervous System

McConnell

Holahan

DeRosa

2014

Nucleic Acid Therapeutics

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Oligonucleotide aptamers are short, synthetic, single-stranded DNA or RNA able to recognize and bind to a multitude of targets ranging from small molecules to cells. Aptamers have emerged as valuable tools for fundamental research, clinical diagnosis, and therapy. Due to their small size, strong target affinity, lack of immunogenicity, and ease of chemical modification, aptamers are an attractive alternative to other molecular recognition elements, such as antibodies. Although it is a challenging environment, the central nervous system and related molecular targets present an exciting potential area for aptamer research. Aptamers hold promise for targeted drug delivery, diagnostics, and therapeutics. Here we review recent advances in aptamer research for neurotransmitter and neurotoxin targets, demyelinating disease and spinal cord injury, cerebrovascular disorders, pathologies related to protein aggregation (Alzheimer's, Parkinson's, and prions), brain cancer (glioblastomas and gliomas), and regulation of receptor function. Challenges and limitations posed by the blood brain barrier are described. Future perspectives for the application of aptamers to the central nervous system are also discussed.

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Section: Aptamers For Other Receptorsmentioning

confidence: 99%

Aptamers as Promising Molecular Recognition Elements for Diagnostics and Therapeutics in the Central Nervous System

McConnell

Holahan

DeRosa

2014

Nucleic Acid Therapeutics

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“…They demonstrated that, when applied to HER2-expressing breast cancer cells, the HER2 aptamer-Bcl-2 siRNA conjugates selectively internalize into HER2(+)-cells and silence Bcl-2 gene expression. Moreover, Bcl-2 silencing sensitizes these cells to chemotherapy (cisplatin), suggesting a potential new therapeutic approach for treating breast cancers with HER2(+)-status [42]. These studies indicated that technology might promote the widespread use of RNA-based reagents for targeted therapeutic applications.…”

Section: New Methods Derived From Cell-selexmentioning

confidence: 99%

Development of Cell-SELEX Technology and Its Application in Cancer Diagnosis and Therapy

Chen

Jiang

et al. 2016

IJMS

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SELEX (systematic evolution of ligands by exponential enrichment) is a process involving the progressive isolation of high selective ssDNA/RNA from a combinatorial single-stranded oligonucleotide library through repeated rounds of binding, partitioning and amplification. SELEX-derived single-stranded DNA/RNA molecules, called aptamers, are selected against a wide range of targets, including purified proteins, live cells, tissues, microorganisms, small molecules and so on. With the development of SELEX technology over the last two decades, various modified SELEX processes have been arisen. A majority of aptamers are selected against purified proteins through traditional SELEX. Unfortunately, more and more evidence showed aptamers selected against purified membrane proteins failed to recognize their targets in live cells. Cell-SELEX could develop aptamers against a particular target cell line to discriminate this cell line from others. Therefore, cell-SELEX has been widely used to select aptamers for the application of both diagnosis and therapy of various diseases, especially for cancer. In this review, the advantages and limitations of cell-SELEX and SELEX against purified protein will be compared. Various modified cell-SELEX techniques will be summarized, and application of cell-SELEX in cancer diagnosis and therapy will be discussed.

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“…Aptamers inhibit target enzymes by binding to the catalytic center or inducing conformation changes in a protein’s structure [93, 74]. However, when an aptamer is similar to an activating ligand, it can induce enzyme activation [94, 95]. …”

Section: Current Status Of Aptamers In Diagnostics and Theraphymentioning

confidence: 99%

Aptamers: Problems, Solutions and Prospects

2013

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Aptamers are short single-stranded oligonucleotides that are capable of binding various molecules with high affinity and specificity. When the technology of aptamer selection was developed almost a quarter of a century ago, a suggestion was immediately put forward that it might be a revolutionary start into solving many problems associated with diagnostics and the therapy of diseases. However, multiple attempts to use aptamers in practice, although sometimes successful, have been generally much less efficient than had been expected initially. This review is mostly devoted not to the successful use of aptamers but to the problems impeding the widespread application of aptamers in diagnostics and therapy, as well as to approaches that could considerably expand the range of aptamer application.

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RNA Aptamer-Based Functional Ligands of the Neurotrophin Receptor, TrkB

Cited by 42 publications

References 36 publications

Aptamers as Promising Molecular Recognition Elements for Diagnostics and Therapeutics in the Central Nervous System

Aptamers as Promising Molecular Recognition Elements for Diagnostics and Therapeutics in the Central Nervous System

Development of Cell-SELEX Technology and Its Application in Cancer Diagnosis and Therapy

Aptamers: Problems, Solutions and Prospects

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