Koichi Abe scite author profile

α-Synuclein (α-syn) oligomers are considered major molecules responsible for the onset of Parkinson's disease and dementia with Lewy bodies. α-Syn oligomers thus serve as an important target for the development of drugs and diagnostic tests for neurodegenerative diseases. In this paper we report on the identification of DNA aptamers that bind to soluble α-syn oligomers. A competitive screening method based on aptamer blotting was used for the selection of α-syn oligomer-specific aptamers. This approach resulted in the identification of eight aptamers that specifically bind to α-syn oligomers among α-syn monomers, oligomers, and fibrils. Interestingly, the aptamers also bound to amyloid β oligomers, which are strongly associated with the development of Alzheimer's disease. The results of this study support the hypothesis that amyloid oligomers share a common structure. Oligomer-binding aptamers may serve as powerful analytical tools for the design and development of drugs and diagnostic tests for neurodegenerative diseases.

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Methods for Improving Aptamer Binding Affinity

Hasegawa

et al. 2016

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Aptamers are single stranded oligonucleotides that bind a wide range of biological targets. Although aptamers can be isolated from pools of random sequence oligonucleotides using affinity-based selection, aptamers with high affinities are not always obtained. Therefore, further refinement of aptamers is required to achieve desired binding affinities. The optimization of primary sequences and stabilization of aptamer conformations are the main approaches to refining the binding properties of aptamers. In particular, sequence optimization using combined in silico sequence recombinations and in vitro functional evaluations is effective for the improvement of binding affinities, however, the binding affinities of aptamers are limited by the low hydrophobicity of nucleic acids. Accordingly, introduction of hydrophobic moieties into aptamers expands the diversity of interactions between aptamers and targets. Moreover, construction of multivalent aptamers by connecting aptamers that recognize distinct epitopes is an attractive approach to substantial increases in binding affinity. In addition, binding affinities can be tuned by optimizing the scaffolds of multivalent constructs. In this review, we summarize the various techniques for improving the binding affinities of aptamers.

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Diagnosis and treatment of bone metastasis: comprehensive guideline of the Japanese Society of Medical Oncology, Japanese Orthopedic Association, Japanese Urological Association, and Japanese Society for Radiation Oncology

et al. 2016

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Diagnosis and treatment of bone metastasis requires various types of measures, specialists and caregivers. To provide better diagnosis and treatment, a multidisciplinary team approach is required. The members of this multidisciplinary team include doctors of primary cancers, radiologists, pathologists, orthopaedists, radiotherapists, clinical oncologists, palliative caregivers, rehabilitation doctors, dentists, nurses, pharmacists, physical therapists, occupational therapists, medical social workers, etc. Medical evidence was extracted from published articles describing meta-analyses or randomised controlled trials concerning patients with bone metastases mainly from 2003 to 2013, and a guideline was developed according to the Medical Information Network Distribution Service Handbook for Clinical Practice Guideline Development 2014. Multidisciplinary team meetings are helpful in diagnosis and treatment. Clinical benefits such as physical or psychological palliation obtained using the multidisciplinary team approaches are apparent. We established a guideline describing each specialty field, to improve understanding of the different fields among the specialists, who can further provide appropriate treatment, and to improve patients’ outcomes.

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Selection of DNA aptamer against prostate specific antigen using a genetic algorithm and application to sensing

Savory

Abe

Sode

et al. 2010

Biosensors and Bioelectronics

154

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Affinity Improvement of a VEGF Aptamer by in Silico Maturation for a Sensitive VEGF-Detection System

et al. 2012

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Systematic evolution of ligands by exponential enrichment (SELEX) is an efficient method to identify aptamers; however, it sometimes fails to identify aptamers that bind to their target with high affinity. Thus, post-SELEX optimization of aptamers is required to improve aptamer binding affinity. We developed in silico maturation based on a genetic algorithm (1) as an efficient mutagenesis method to improve aptamer binding affinity. In silico maturation was performed to improve a VEGF-binding DNA aptamer (VEap121). The VEap121 aptamer is considered to fold into a G-quadruplex structure and this structure may be important for VEGF recognition. Using in silico maturation, VEap121 was mutated with the exception of the guanine tracts that are considered to form the G-quartet. As a result, four aptamers were obtained that showed higher affinity compared with VEap121. The dissociation constant (K(d)) of the most improved aptamer (3R02) was 300 pM. The affinity of 3R02 was 16-fold higher than that of VEap121. Moreover, a bivalent aptamer was constructed by connecting two identical 3R02s through a 10-mer thymine linker for further improvement of affinity. The bivalent aptamer (3R02 Bivalent) bound to VEGF with a K(d) value of 30 pM. Finally, by constructing a VEGF-detection system using a VEGF antibody as the capture molecule and monovalent 3R02 as the detection molecule, a more sensitive assay was developed compared with the system using VEap121. These results indicate that in silico maturation could be an efficient method to improve aptamer affinity for construction of sensitive detection systems.

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Koichi Abe

Selection of DNA Aptamers That Recognize α-Synuclein Oligomers Using a Competitive Screening Method

Methods for Improving Aptamer Binding Affinity

Diagnosis and treatment of bone metastasis: comprehensive guideline of the Japanese Society of Medical Oncology, Japanese Orthopedic Association, Japanese Urological Association, and Japanese Society for Radiation Oncology

Selection of DNA aptamer against prostate specific antigen using a genetic algorithm and application to sensing

Affinity Improvement of a VEGF Aptamer by in Silico Maturation for a Sensitive VEGF-Detection System

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