Your search keyword '"Momoko Okuda"' showing total 3 results

1. 1172 SAIL66, a next generation of T cell engager targeting CLDN6, potentiates efficacy

Author

Hiroyuki Aburatani, Mika Kamata-Sakurai, Shinya Ishii, Takayuki Kamikawa, Naoki Kimura, Masaru Muraoka, Kenji Taniguchi, Ryo Uchikawa, Moe Yoshimoto, Momoko Okuda-Miura, Sho Akai, Tatsushi Kodama, Hirofumi Sakumoto, Shigeto Kawai, Mei Shimada, Takehisa Kitazawa, and Tomoyuki Igawa

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

2. Comprehensive engineering of a therapeutic neutralizing antibody targeting SARS-CoV-2 spike protein to neutralize escape variants

Author

Taichi Kuramochi, Siok Wan Gan, Adrian W.S. Ho, Bei Wang, Nagisa Kageji, Takeru Nambu, Sayaka Iida, Momoko Okuda-Miura, Wei Shan Chia, Chiew Ying Yeo, Dan Chen, Wen-Hsin Lee, Eve Zi Xian Ngoh, Siti Nazihah Mohd Salleh, Cheng-I Wang, Tomoyuki Igawa, and Hideaki Shimada

Subjects

Therapeutic antibody, antibody engineering, SARS-CoV-2, escape variants, Therapeutics. Pharmacology, RM1-950, Immunologic diseases. Allergy, RC581-607

Abstract

The emergence of escape variants of SARS-CoV-2 carrying mutations in the spike protein poses a challenge for therapeutic antibodies. Here, we show that through the comprehensive engineering of the variable region of the neutralizing monoclonal antibody 5A6, the engineered antibody, 5A6CCS1, is able to neutralize SARS-CoV-2 variants that escaped neutralization by the original 5A6 antibody. In addition to the improved affinity against variants, 5A6CCS1 was also optimized to achieve high solubility and low viscosity, enabling a high concentration formulation for subcutaneous injection. In cynomolgus monkeys, 5A6CCS1 showed a long plasma half-life and good subcutaneous bioavailability through engineering of the variable and constant region. These data demonstrate that 5A6CCS1 is a promising antibody for development against SARS-CoV-2 and highlight the importance of antibody engineering as a potential method to counteract escape variants.

Published

2022

3. Novel myostatin-specific antibody enhances muscle strength in muscle disease models

Author

Hiroyasu Muramatsu, Taichi Kuramochi, Hitoshi Katada, Atsunori Ueyama, Yoshinao Ruike, Ken Ohmine, Meiri Shida-Kawazoe, Rie Miyano-Nishizawa, Yuichiro Shimizu, Momoko Okuda, Yuji Hori, Madoka Hayashi, Kenta Haraya, Nobuhiro Ban, Tatsuya Nonaka, Masaki Honda, Hidetomo Kitamura, Kunihiro Hattori, Takehisa Kitazawa, Tomoyuki Igawa, Yoshiki Kawabe, and Junichi Nezu

Subjects

Medicine, Science

Abstract

Abstract Myostatin, a member of the transforming growth factor-β superfamily, is an attractive target for muscle disease therapy because of its role as a negative regulator of muscle growth and strength. Here, we describe a novel antibody therapeutic approach that maximizes the potential of myostatin-targeted therapy. We generated an antibody, GYM329, that specifically binds the latent form of myostatin and inhibits its activation. Additionally, via “sweeping antibody technology”, GYM329 reduces or “sweeps” myostatin in the muscle and plasma. Compared with conventional anti-myostatin agents, GYM329 and its surrogate antibody exhibit superior muscle strength-improvement effects in three different mouse disease models. We also demonstrate that the superior efficacy of GYM329 is due to its myostatin specificity and sweeping capability. Furthermore, we show that a GYM329 surrogate increases muscle mass in normal cynomolgus monkeys without any obvious toxicity. Our findings indicate the potential of GYM329 to improve muscle strength in patients with muscular disorders.

Published

2021