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Your search keyword '"Yosuke Hisamatsu"' showing total 10 results
Start Over Author "Yosuke Hisamatsu" Publisher american chemical society
10 results on '"Yosuke Hisamatsu"'

1. Potent Antimalarial Activity of Two Arenes Linked with Triamine Designed To Have Multiple Interactions with Heme

Author

Naoki Umezawa, Haruto Ishikawa, Kosuke Yabunaka, Yuko Kobayashi, Tsunehiko Higuchi, Nobuki Kato, Hirokazu Yagi, Tadashi Satoh, Yusuke Wataya, Yoshimi Tomita, Yosuke Sakata, Yosuke Hisamatsu, Koichi Kato, Hye Sook Kim, and Hirohisa Omiya

Subjects
0301 basic medicine, biology, Stereochemistry, Hemozoin, Organic Chemistry, Plasmodium falciparum, biology.organism_classification, Biochemistry, In vitro, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, Molecular recognition, chemistry, Artesunate, Drug Discovery, parasitic diseases, Heme, Malarial parasites, Hemin
Abstract

[Image: see text] Based on the idea that compounds designed to exhibit high affinity for heme would block hemozoin formation, a critical heme-detoxification process for malarial parasites, we synthesized a series of compounds with two π-conjugated moieties at terminal amino groups of triamine. These compounds exhibited moderate to high antimalarial activities in vitro toward both chloroquine-sensitive and chloroquine-resistant Plasmodium falciparum. In a P. berghei-infected mouse model, 3a and 12a showed potent antimalarial activities compared to artesunate, as well as a prolonged duration of antimalarial effect. We found a good correlation between protective activity against hemin degradation and antimalarial activity. Compounds 8b and 3a strongly inhibited hemozoin formation catalyzed by heme detoxification protein.

Published
2018

7. Design and Synthesis of Heteroleptic Cyclometalated Iridium(III) Complexes Containing Quinoline-Type Ligands that Exhibit Dual Phosphorescence.

Author

Kumar, Sarvendra, Yosuke Hisamatsu, Yusuke Tamaki, Osamu Ishitani, and Shin Aoki

Subjects
*COMPLEX compounds synthesis, *METAL complexes, *HETEROLEPTIC compounds, *IRIDIUM compounds, *QUINOLINE, *LIGANDS (Chemistry), *PHOSPHORESCENCE
Abstract

The design and synthesis of some cyclometalated iridium(III) complexes containing quinoline-type ligands as ancillary ligands are reported. The emission spectra of Ir(III) complexes containing a quinolinolate (6, 8, 10) moiety exhibit a single emission peak at ca. 590 nm, resulting in a red colored emission. However, Ir(III) complexes containing 8-sulfonamidoquinoline ligands (11, 13-21) exhibit two different emission peaks (dual emission) at ca. 500 nm and ca. 600 nm upon excitation at 366 nm, resulting in a red-colored emission for 11 and a pale yellow-colored emission for 14-18 at 298 K. Especially, a white emission was observed for 19 at 298 and 77 K in dimethyl sulfoxide. The mechanistic studies based on time-dependent density functional theory calculations and time-resolved emission spectroscopy suggest that this dual emission originates from two independent emission states. [ABSTRACT FROM AUTHOR]

Published
2016
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8. Photochemical Properties of Red-Emitting Tris(cyclometalated) Iridium(III) Complexes Having Basic and Nitro Groups and Application to pH Sensing and Photoinduced Cell Death.

Author

Aya Kando, Yosuke Hisamatsu, Hiroki Ohwada, Taiki Itoh, Shinsuke Moromizato, Masahiro Kohno, and Shin Aoki

Subjects
*IRIDIUM compounds, *PHOTOCHEMISTRY, *GROUP 15 elements, *CELL death, *HYDROGEN-ion concentration
Abstract

Cyclometalated iridium(III) complexes, because of their photophysical properties, have the potential for use as luminescent probes for cellular imaging. We previously reported on a pH-activatable iridium complex that contains three N,N-diethylamino groups, namely, fac-Ir(deatpy)3 5, which was synthesized via a regioselective aromatic substitution reaction at the 5'-position with tolylpyridine groups of fac-Ir(tpy)3 2. It was found that 5 shows a considerable enhancement in emission intensity in the pH range from neutral to slightly acidic (pH 6.5-7.4) in aqueous solution and selectively stains lysosome in HeLa-S3 cells, due to the protonation of the diethylamino groups. In addition, 5 functions as a pH-dependent singlet oxygen (¹O2) generator and induces necrosis-like cell death. However, observing the green emission of 5 is often hampered by autofluorescence emanating from nearby tissues. To overcome this problem, we designed and synthesized a series of new pH-activatable Ir(III) complexes that contain diethylamino, guanidyl, and iminoimidazolidinyl groups on the mpiq ligand of Ir(mpiq)3 7 and the tfpiq ligand of Ir(tfpiq)3 8, which exhibit a red emission, namely, Ir(deampiq)3 13, Ir(gmpiq)3 14, Ir(imzmpiq)3 15, and Ir(imztfpiq)3 16. The emission intensity of these Ir complexes is enhanced substantially by protonation of their basic groups, and they induce the necrosis-like cell death of HeLa-S3 cells by photoirradiation at 465 nm. A strong orange-red emission of Ir(mpiq-NO2)3 9 and Ir(tfpiq-NO2)3 10 is also reported. [ABSTRACT FROM AUTHOR]

Published
2015
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10. A New Quadruple Hydrogen-Bonding Module with a DDAA Array: Formation of a Stable Homodimer without Competition from Undesired Hydrogen-Bonded Dimers.

Author

Yosuke Hisamatsu, Naohiro Shirai, Shin-ichi Ikeda, and Kazunori Odashima

Subjects
*HYDROGEN bonding, *DIMERS, *PYRIMIDINES, *CHEMICAL structure, *HETEROCYCLIC compounds
Abstract

A new DDAA hydrogen-bonding module (UImp-2), based on a ureidoimidazo[1,2-a]pyrimidine structure, forms a highly stable homodimer (Kdim> 1.1 × 105M−1in CDCl3) without competition from undesired hydrogen-bonded dimers. [ABSTRACT FROM AUTHOR]

Published
2009
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