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Your search keyword '"Hidetomo Yokoo"' showing total 18 results
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18 results on '"Hidetomo Yokoo"'

1. Poly(ethylene Glycol) (PEG)–OligoRNA Hybridization to mRNA Enables Fine‐Tuned Polyplex PEGylation for Spleen‐Targeted mRNA Delivery

Author

Miki Suzuki, Yuki Mochida, Mao Hori, Akimasa Hayashi, Kazuko Toh, Theofilus A. Tockary, Xueying Liu, Victor Marx, Hidetomo Yokoo, Kanjiro Miyata, Makoto Oba, and Satoshi Uchida

Subjects
intravital imagings, mRNA deliveries, mRNA engineerings, polyplexes, tissue targetings, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Organ‐selective targeting of mRNA polyplexes has been rarely explored despite the substantial potential of polymer‐based systems in mRNA delivery. In this study, spleen‐selective delivery of polyplexes is achieved by employing mRNA engineering to coat them with poly(ethylene glycol) (PEG). In this approach, mRNA is hybridized with PEGylated complementary RNA oligonucleotides (PEG–OligoRNAs), followed by the addition of linear poly(ethyleneimine). In this method, it is ensured that nearly all added PEG strands bind to the polyplexes, thereby enabling precise control of PEG amounts on the surface. Following systemic injection into mice, non‐PEGylated polyplexes yield robust protein expression in the lung and spleen. Intriguingly, adding a small number of PEG–OligoRNAs drastically reduces protein expression efficiency in the lung while preserving it in the spleen, realizing spleen targeting of mRNA polyplexes. Furthermore, PEGylated polyplexes demonstrate their potential utility in mRNA vaccination. In mechanistic analyses, non‐PEGylated polyplexes immediately agglomerate in the blood and deposit in the lung. Coating polyplexes with a small amount of short PEG effectively prevents these processes. Notably, even slight changes in PEG amounts and lengths dramatically impact the physicochemical properties and biological functionalities of the polyplexes, emphasizing the benefits of an mRNA engineering‐based approach for fine‐tuning polyplex PEG coating.

Published
2024
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3. Cell-Penetrating Peptides: Emerging Tools for mRNA Delivery

Author

Hidetomo Yokoo, Makoto Oba, and Satoshi Uchida

Subjects
mRNA, cell-penetrating peptides, drug delivery systems, Pharmacy and materia medica, RS1-441
Abstract

Messenger RNAs (mRNAs) were previously shown to have great potential for preventive vaccination against infectious diseases and therapeutic applications in the treatment of cancers and genetic diseases. Delivery systems for mRNAs, including lipid- and polymer-based carriers, are being developed for improving mRNA bioavailability. Among these systems, cell-penetrating peptides (CPPs) of 4–40 amino acids have emerged as powerful tools for mRNA delivery, which were originally developed to deliver membrane-impermeable drugs, peptides, proteins, and nucleic acids to cells and tissues. Various functionalities can be integrated into CPPs by tuning the composition and sequence of natural and non-natural amino acids for mRNA delivery. With the employment of CPPs, improved endosomal escape efficiencies, selective targeting of dendritic cells (DCs), modulation of endosomal pathways for efficient antigen presentation by DCs, and effective mRNA delivery to the lungs by dry powder inhalation have been reported; additionally, they have been found to prolong protein expression by intracellular stabilization of mRNA. This review highlights the distinctive features of CPP-based mRNA delivery systems.

Published
2021
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5. An Amphipathic Structure of a Dipropylglycine-Containing Helical Peptide with Sufficient Length Enables Safe and Effective Intracellular siRNA Delivery

Author

Makoto Oba, Mika Shibuya, Yuto Yamaberi, Hidetomo Yokoo, Satoshi Uchida, Atsushi Ueda, and Masakazu Tanaka

Subjects
Drug Discovery, helical structure, small interfering RNA (siRNA) delivery, unnatural amino acid, General Chemistry, General Medicine, amphipathic structure, cell-penetrating peptide
Abstract

Amphipathic peptides composed of cationic amino acids and hydrophobic amino acids have cell-penetrating ability and are often used as a delivery tool for membrane-impermeable compounds. Small interfering RNA (siRNAs) are one of the delivery targets for such cell-penetrating peptides (CPPs). Cationic CPPs can associate with anionic siRNAs by electrostatic interactions resulting in the formation of nano-sized complexes, which can deliver siRNAs intracellularly. CPPs containing unnatural amino acids offer promising tools to siRNA delivery. However, the detailed structure–activity relationship in siRNA delivery has been rarely studied. In the current study, we designed peptides containing dipropylglycine (Dpg) and explored the cellular uptake and cytotoxicity of peptide/siRNA complexes. The amphipathic structure of the peptides played a key role in complexation with siRNAs and intracellular siRNA delivery. In the amphipathic peptides, cellular uptake of siRNA increased with increasing peptide length, but cytotoxicity was reduced. A peptide containing four Dpg exhibited an effective gene-silencing effect with small amounts of peptides without cytotoxicity in medium containing serum. These findings will be helpful for the design of novel CPPs for siRNA delivery., Chemical & pharmaceutical bulletin, 71(3), pp. 250-256; 2023

Published
2023

9. Structure–activity relationship study of PROTACs against hematopoietic prostaglandin D2 synthase

Author

Yuki Murakami, Hinata Osawa, Takashi Kurohara, Yuta Yanase, Takahito Ito, Hidetomo Yokoo, Norihito Shibata, Mikihiko Naito, Kosuke Aritake, and Yosuke Demizu

Subjects
Pharmacology, Organic Chemistry, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Biochemistry
Abstract

SAR studies of PROTACs that target H-PGDS, focusing on the E3 ligase ligand and the H-PGDS ligand, are described.

Published
2022
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10. Advanced solid-state NMR analysis of two crystal forms of ranitidine hydrochloride: Detection of

Author

Hidetomo, Yokoo, Seiji, Tanaka, Eiichi, Yamamoto, Genichiro, Tsuji, Yosuke, Demizu, and Nahoko, Uchiyama

Abstract

Understanding the characteristics of crystal polymorphism of active pharmaceutical ingredients and analyzing them with high sensitivity is important for quality of drug products, appropriate characterization strategies, and appropriate screening and selection processes. However, there are few methods to measure intra- and intermolecular correlations in crystals other than X-ray crystallography, for which it is sometimes difficult to obtain suitable single crystals. Recently, solid-state NMR has been recognized as a straightforward method for measuring molecular correlations. In this study, we selected ranitidine hydrochloride, which is known to exist in two forms, 1 and 2, as the model drug and investigated each form using solid-state NMR. In conducting the analysis, rotating the sample tube, which had a 1-mm inner diameter, increased the solid-state NMR resolution at 70 kHz. The

Published
2022

12. Recent Advances in PROTAC Technology Toward New Therapeutic Modalities

Author

Hidetomo Yokoo, Miyako Naganuma, Makoto Oba, and Yosuke Demizu

Subjects
Proteasome Endopeptidase Complex, Technology, Drug Discovery, Proteolysis, Proteins, Molecular Medicine, Bioengineering, General Chemistry, General Medicine, Ligands, Molecular Biology, Biochemistry
Abstract

Proteolysis targeting chimeras (PROTACs) have emerged as a powerful technology for the degradation of disease-related proteins by the hijacking of the endogenous ubiquitin-proteasome system. A multitude of bifunctional PROTACs have been developed using small-molecule ligands; one ligand binds to the target protein of interest and one ligand binds to an E3 ligase. The characteristics of those PROTACs vary, including their reversible or irreversible covalent binding to the target protein, their binding to orthosteric and allosteric sites, their agonist or antagonist activity, and their use of multiple ligands. In addition, oligopeptides and nucleotides have recently been used as alternative targeting ligands. The properties of PROTACs, such as selectivity, delivery and sensitivity to drug resistance, can be improved through the use of a variety of targeting ligand modalities. This minireview introduces the mechanisms and behavior of small-molecule based PROTACs as well as targeted proteolysis techniques using peptides and nucleic acids as targeting ligands.

Published
2022
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13. Development of Rapid and Facile Solid‐Phase Synthesis of PROTACs via a Variety of Binding Styles

Author

Hanqiao Xu, Takashi Kurohara, Reina Takano, Hidetomo Yokoo, Norihito Shibata, Nobumichi Ohoka, Takao Inoue, Mikihiko Naito, and Yosuke Demizu

Subjects
Cross-Linking Reagents, Proteolysis, General Chemistry, Ligands, Solid-Phase Synthesis Techniques
Abstract

Optimizing linker design is important for ensuring efficient degradation activity of proteolysis-targeting chimeras (PROTACs). Therefore, developing a straightforward synthetic approach that combines the protein-of-interest ligand (POI ligand) and the ligand for E3 ubiquitin ligase (E3 ligand) in various binding styles through a linker is essential for rapid PROTAC syntheses. Herein, a solid-phase approach for convenient PROTAC synthesis is presented. We designed azide intermediates with different linker lengths to which the E3 ligand, pomalidomide, is attached and performed facile PROTACs synthesis by forming triazole, amide, and urea bonds from the intermediates.

Published
2022
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14. Molecular Design, Synthesis, and Evaluation of SNIPER (ER) that Induces Targeted Protein Degradation of ERα

Author

Nobumichi, Ohoka, Hidetomo, Yokoo, Keiichiro, Okuhira, Yosuke, Demizu, and Mikihiko, Naito

Subjects
Mice, Proteasome Endopeptidase Complex, Ubiquitin, Cell Line, Tumor, Proteolysis, Estrogen Receptor alpha, Ubiquitination, Animals, Humans, Breast Neoplasms, Female
Abstract

Manipulation of protein stability using small molecules has a great potential for both basic research and clinical therapy. Based on our protein knockdown technology, we developed chimeric degrader molecules SNIPER(ER)s that target the estrogen receptor alpha (ERα) for degradation via the ubiquitin-proteasome system. This chapter describes the design and synthesis of SNIPER(ER) compounds and methods for the evaluation of their activity in cellular systems and in a tumor xenograft model.

Published
2022

17. Development of delivery carriers for plasmid DNA by conjugation of a helical template to oligoarginine

Author

Hidetomo, Yokoo, Takashi, Misawa, Takuma, Kato, Masakazu, Tanaka, Yosuke, Demizu, and Makoto, Oba

Subjects
Organic Chemistry, Clinical Biochemistry, Pharmaceutical Science, Cell-Penetrating Peptides, DNA, Arginine, Biochemistry, Leucine, Nucleic Acids, Drug Discovery, Molecular Medicine, Peptides, Molecular Biology, Plasmids
Abstract

Arginine (Arg)-rich peptides can penetrate the cell membrane and deliver nucleic acid-based therapeutics into cells. In this study, a helical template designed with a repeating sequence composed of two l-leucines (l-Leu) and a 2-aminoisobutyric acid (Aib) (l-Leu-l-Leu-Aib) was conjugated to nona-arginine on either the C- or N- terminus, designated as Block 1 and Block 2. Each terminal modification induced helical structure formation and improved the physicochemical properties of peptide/plasmid DNA (pDNA) complexes, resulting in efficient intracellular pDNA delivery. The introduction of a helical template may be effective for the endosomal escape of pDNA and pDNA release from complexes in cells. These results emphasized the potency of a helical template for the development of novel cell-penetrating peptides for pDNA delivery.

Published
2022
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