Your search keyword '"TANI, Akiyoshi"' showing total 5 results

1. Identification of cytidine-5-triphosphate synthase1-selective inhibitory peptide from random peptide library displayed on T7 phage.

Author

Sakamoto, Kotaro, Ishibashi, Yoshihiro, Adachi, Ryutaro, Matsumoto, Shin-ichi, Oki, Hideyuki, Kamada, Yusuke, Sogabe, Satoshi, Zama, Yumi, Sakamoto, Jun-ichi, and Tani, Akiyoshi

Subjects

*CYTIDINE triphosphate synthetase, *BACTERIOPHAGES, *PEPTIDES, *LYMPHOCYTES, *AMINO acids

Abstract

Cytidine triphosphate synthase 1 (CTPS1) is an enzyme expressed in activated lymphocytes that catalyzes the conversion of uridine triphosphate (UTP) to cytidine triphosphate (CTP) with ATP-dependent amination, using either L-glutamine or ammonia as the nitrogen source. Since CTP plays an important role in DNA/RNA synthesis, phospholipid synthesis, and protein sialyation, CTPS1-inhibition is expected to control lymphocyte proliferation and size expansion in inflammatory diseases. In contrast, CTPS2, an isozyme of CTPS1 possessing 74% amino acid sequence homology, is expressed in normal lymphocytes. Thus, CTPS1-selective inhibition is important to avoid undesirable side effects. Here, we report the discovery of CTpep-3: Ac-FRLGLLKAFRRLF-OH from random peptide libraries displayed on T7 phage, which exhibited CTPS1-selective binding with a K D value of 210 nM in SPR analysis and CTPS1-selective inhibition with an IC 50 value of 110 nM in the enzyme assay. Furthermore, two fundamentally different approaches, enzyme inhibition assay and HDX-MS, provided the same conclusion that CTpep-3 acts by binding to the amidoligase (ALase) domain on CTPS1. To our knowledge, CTpep-3 is the first CTPS1-selective inhibitor. [ABSTRACT FROM AUTHOR]

Published

2017

2. Design of potent dipeptidyl peptidase IV (DPP-4) inhibitors by employing a strategy to form a salt bridge with Lys554.

Author

Maezaki, Hironobu, Tawada, Michiko, Yamashita, Tohru, Banno, Yoshihiro, Miyamoto, Yasufumi, Yamamoto, Yoshio, Ikedo, Koji, Kosaka, Takuo, Tsubotani, Shigetoshi, Tani, Akiyoshi, Asakawa, Tomoko, Suzuki, Nobuhiro, and Oi, Satoru

Subjects

*CD26 antigen, *QUINOLINE, *HYDROPHOBIC interactions, *AMINO acids, *BINDING sites

Abstract

We report a design strategy to obtain potent DPP-4 inhibitors by incorporating salt bridge formation with Lys554 in the S1′ pocket. By applying the strategy to the previously identified templates, quinoline 4 and pyridines 16a , 16b , and 17 have been identified as subnanomolar or nanomolar inhibitors of human DPP-4. Docking studies suggested that a hydrophobic interaction with Tyr547 as well as the salt bridge interaction is important for the extremely high potency. The design strategy would be useful to explore a novel design for DPP-4 inhibitors having a distinct structure with a unique binding mode. [ABSTRACT FROM AUTHOR]

Published

2017

3. K-Ras(G12D)-selective inhibitory peptides generated by random peptide T7 phage display technology.

Author

Sakamoto, Kotaro, Kamada, Yusuke, Sameshima, Tomoya, Yaguchi, Masahiro, Niida, Ayumu, Sasaki, Shigekazu, Miwa, Masanori, Ohkubo, Shoichi, Sakamoto, Jun-ichi, Kamaura, Masahiro, Cho, Nobuo, and Tani, Akiyoshi

Subjects

*PEPTIDES, *AMINO acids, *GENETIC mutation, *SARCOMA, *LABORATORY rats

Abstract

Amino-acid mutations of Gly 12 ( e.g. G12D, G12V, G12C) of V-Ki-ras2 Kirsten rat sarcoma viral oncogene homolog (K-Ras), the most promising drug target in cancer therapy, are major growth drivers in various cancers. Although over 30 years have passed since the discovery of these mutations in most cancer patients, effective mutated K-Ras inhibitors have not been marketed. Here, we report novel and selective inhibitory peptides to K-Ras(G12D). We screened random peptide libraries displayed on T7 phage against purified recombinant K-Ras(G12D), with thorough subtraction of phages bound to wild-type K-Ras, and obtained KRpep-2 (Ac-RRCPLYISYDPVCRR-NH 2 ) as a consensus sequence. KRpep-2 showed more than 10-fold binding- and inhibition-selectivity to K-Ras(G12D), both in SPR analysis and GDP/GTP exchange enzyme assay. K D and IC 50 values were 51 and 8.9 nM, respectively. After subsequent sequence optimization, we successfully generated KRpep-2d (Ac-RRRRCPLYISYDPVCRRRR-NH 2 ) that inhibited enzyme activity of K-Ras(G12D) with IC 50 = 1.6 nM and significantly suppressed ERK-phosphorylation, downstream of K-Ras(G12D), along with A427 cancer cell proliferation at 30 μM peptide concentration. To our knowledge, this is the first report of a K-Ras(G12D)-selective inhibitor, contributing to the development and study of K-Ras(G12D)-targeting drugs. [ABSTRACT FROM AUTHOR]

Published

2017

4. Design, synthesis, and structure–activity relationships of spirolactones bearing 2-ureidobenzothiophene as acetyl-CoA carboxylases inhibitors

Author

Yamashita, Tohru, Kamata, Makoto, Endo, Satoshi, Yamamoto, Mitsuo, Kakegawa, Keiko, Watanabe, Hiroyuki, Miwa, Katsuhiko, Yamano, Toru, Funata, Masaaki, Sakamoto, Jyun-ichi, Tani, Akiyoshi, Mol, Clifford D., Zou, Hua, Dougan, Douglas R., Sang, BiChing, Snell, Gyorgy, and Fukatsu, Kohji

Subjects

*COENZYMES, *DRUG design, *MOLECULAR structure, *THERMOCHROMISM, *CARBOXYLIC acids, *AMINO acids, *PHARMACEUTICAL chemistry, *ORGANIC synthesis

Abstract

Abstract: The co-crystal structure of the human acetyl-coenzyme A 2 (ACC2) carboxyl transferase domain and the reported compound CP-640186 (1b) suggested that two carbonyl groups are essential for potent ACC2 inhibition. By focusing on enhancing the interactions between the two carbonyl groups and the amino acid residues Gly2162 and Glu2230, we used ligand- and structure-based drug design to discover spirolactones bearing a 2-ureidobenzothiophene moiety [Copyright &y& Elsevier]

Published

2011

5. Design and synthesis of 3-pyridylacetamide derivatives as dipeptidyl peptidase IV (DPP-4) inhibitors targeting a bidentate interaction with Arg125

Author

Miyamoto, Yasufumi, Banno, Yoshihiro, Yamashita, Tohru, Fujimoto, Tatsuhiko, Oi, Satoru, Moritoh, Yusuke, Asakawa, Tomoko, Kataoka, Osamu, Takeuchi, Koji, Suzuki, Nobuhiro, Ikedo, Koji, Kosaka, Takuo, Tsubotani, Shigetoshi, Tani, Akiyoshi, Funami, Miyuki, Amano, Michiko, Yamamoto, Yoshio, Aertgeerts, Kathleen, Yano, Jason, and Maezaki, Hironobu

Subjects

*BIOSYNTHESIS, *DRUG design, *ACETAMIDE, *CD26 antigen, *ENZYME inhibitors, *TARGETED drug delivery, *NIACIN, *AMINO acids, *HYDROGEN bonding

Abstract

Abstract: We have previously discovered nicotinic acid derivative 1 as a structurally novel dipeptidyl peptidase IV (DPP-4) inhibitor. In this study, we obtained the X-ray co-crystal structure between nicotinic acid derivative 1 and DPP-4. From these X-ray co-crystallography results, to achieve more potent inhibitory activity, we targeted Arg125 as a potential amino acid residue because it was located near the pyridine core, and some known DPP-4 inhibitors were reported to interact with this residue. We hypothesized that the guanidino group of Arg125 could interact with two hydrogen-bond acceptors in a bidentate manner. Therefore, we designed a series of 3-pyridylacetamide derivatives possessing an additional hydrogen-bond acceptor that could have the desired bidentate interaction with Arg125. We discovered the dihydrochloride of 1-{[5-(aminomethyl)-2-methyl-4-(4-methylphenyl)-6-(2-methylpropyl)pyridin-3-yl]acetyl}-l-prolinamide (13j) to be a potent and selective DPP-4 inhibitor that could interact with the guanidino group of Arg125 in a unique bidentate manner. [ABSTRACT FROM AUTHOR]

Published

2011