PO.CL07.02 · 临床研究

BGB-58067, a brain-penetrative MTA-cooperative PRMT5 inhibitor, demonstrates promising anti-tumor activity and favorable selectivity in tumors with MTAP-deletion

海报缩略图:BGB-58067, a brain-penetrative MTA-cooperative PRMT5 inhibitor, demonstrates promising anti-tumor activity and favorable selectivity in tumors with MTAP-deletion
编号 3901 展板 7 时间 4/20 02:00–05:00 区域 Section 47 主讲 Sanjia Xu, PhD
分会场 Molecular Targeted Therapy
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作者与单位

Amy Jiang1, Jinyan Chen1, Xiaoxin Liu1, Hongyu Chen1, Huijun Kang1, Jie Li1, Haiying Li1, Bo Zhang1, Chenge Zhao1, Hao Zhu1, Xin Zhou1, Sanjia Xu1, Yibin Xu2, Xing Zhou1, Shifan Ma1, Ming Fang1, Min Xu1, Lan Hua1, Chuanxiu Yang1, Yue Wu1, Beibei Jiang1, Xi Wu1, Fan Wang1, Ye Liu1, Zhitao Wan1, Jing Li1, Jiyuan Zhang2, Zhiwei Wang1, Zhirong Shen1, Yu Shen1, Lai Wang1, Xiaomin Song1

1BeOne Medicines, Beijing, China,2BeOne Medicines, Shanghai, China

摘要 Abstract

PRMT5 was identified as a synthetic lethal target for cancers harboring homozygous deletion of the MTAP gene. MTA was found to accumulate in tumor cells with MTAP-deletion, which inhibited PRMT5 enzymatic activity and increased susceptibility to additional PRMT5 depletion. The homozygous MTAP-deletion was observed in 15% of all tumor types. MTA-cooperative PRMT5 inhibitors have been developed as potential antitumor therapies in tumor types with MTAP-deletion as they selectively bind and stabilize the catalytically inactive PRMT5/MTA complex to inhibit PRMT5 enzymatic activity. BGB-58067 is a highly potent and selective MTA-cooperative PRMT5 inhibitor with good brain penetration potential. BGB-58067 is highly selective for PRMT5 over other methyltransferase family members. It shows strong killing potency and good selectivity (>50-fold) in the cancer cell lines panel with MTAP-deletion over cell lines with MTAP-WT. BGB-58067 very weakly hits on normal hematological cells and demonstrates preferable selectivity (>30-fold) than competitors. BGB-58067 induces robust anti-tumor activity in multiple cell line-derived xenograft models. BGB-58067 demonstrates desirable pharmacokinetics properties and low DDI risk. It exhibits excellent unbound brain-to-plasma partition coefficient to support robust intracranial anti-tumor activity. BGB-58067 shows favorable nonclinical safety profile in the GLP studies, as well as good selectivity in an in vitro SafetyScreen87-off target profiling study. In conclusion, BGB-58067 demonstrates robust potency and selectivity, providing a favorable safety margin for patients, with high potential for the treatment of brain tumors and brain metastases.
利益披露 Disclosure
A. Jiang, BeOne Medicines Employment. J. Chen, BeOne Medicines Employment. X. Liu, BeOne Medicines Employment. H. Chen, BeOne Medicines Employment. H. Kang, BeOne Medicines Employment. J. Li, BeOne Medicines Employment. H. Li, BeOne Medicines Employment. B. Zhang, BeOne Medicines Employment. C. Zhao, BeOne Medicines Employment. H. Zhu, BeOne Medicines Employment. X. Zhou, BeOne Medicines Employment. S. Xu, BeOne Medicines Employment. Y. Xu, None. X. Zhou, BeOne Medicines Employment. S. Ma, BeOne Medicines Employment. M. Fang, BeOne Medicines Employment. M. Xu, BeOne Medicines Employment. L. Hua, BeOne Medicines Employment. C. Yang, BeOne Medicines Employment. Y. Wu, BeOne Medicines Employment. B. Jiang, BeOne Medicines Employment. X. Wu, BeOne Medicines Employment. F. Wang, BeOne Medicines Employment. Y. Liu, BeOne Medicines Employment. Z. Wan, BeOne Medicines Employment. J. Li, BeOne Medicines Employment. J. Zhang, None. Z. Wang, BeOne Medicines Employment. Z. Shen, None. Y. Shen, BeOne Medicines Employment. L. Wang, BeOne Medicines Employment. X. Song, BeOne Medicines Employment.

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