Weikang Tao

Discovery of EBI-907: A highly potent and orally active B-Raf(V600E) inhibitor for the treatment of melanoma and associated cancers.

A novel series of pyrazolo[3,4-c]isoquinoline derivatives was discovered as B-Raf(V600E) inhibitors through scaffold hopping based on a literature lead PLX4720. Further SAR exploration and optimization led to the discovery of potent B-Raf(V600E) inhibitors with good oral bioavailability in rats and dogs. One of the compounds EBI-907 (13g) demonstrated excellent in vivo efficacy in B-Raf(V600E) dependent Colo-205 tumor xenograft models in mouse and is under preclinical studies for the treatment of melanoma and B-Raf(V600E) associated cancers.

Discovery and development of pyrotinib: A novel irreversible EGFR/HER2 dual tyrosine kinase inhibitor with favorable safety profiles for the treatment of breast cancer

Abstract The discovery and development of a novel irreversible EGFR/HER2 dual tyrosine kinase inhibitor SHR1258 (pyrotinib) for the treatment of HER2‐postive breast cancer is presented. The structure‐activity relationship of lead series and their pharmacokinetic properties were evaluated to identify the potential candidates for further in vivo efficacy studies and preclinical safety assessments. Metabolic pathway and drug‐drug interaction were also investigated in preclinical settings. In particular, major metabolites in human and animal species were assessed with regard to potential toxicity or off‐target side effects. Overall, the potent and selective EGFR/HER2 dual inhibitor, pyrotinib, displayed robust anti‐tumor effects on HER2‐overexpressing xenograft models and sufficiently safety windows in animals as well as favorable pharmacokinetic properties in human, which substantially ensures current clinical development. Finally, recent advances of pyrotinib in clinical studies are highlighted with very encouraging outcomes in patients with HER2‐postive advanced breast cancer. Graphical abstract Figure. No Caption available.

Discovery of EBI-2511: A Highly Potent and Orally Active EZH2 Inhibitor for the Treatment of Non-Hodgkin’s Lymphoma

A novel series of benzofuran derived EZH2 inhibitors were discovered through a scaffold hopping approach based on the clinical compound of EPZ-6438. Further rational structure-activity relationship exploration and optimization led to the discovery of more potent EZH2 inhibitors with oral bioavailability in mice and rats. A lead compound EBI-2511 (compound 34) demonstrated excellent in vivo efficacy in Pfeiffer tumor Xenograft models in mouse and is under preclinical development for the treatment of cancers associated with EZH2 mutations.

Discovery of EBI-1051: A novel and orally efficacious MEK inhibitor with benzofuran scaffold

A novel series of benzodihydrofuran derivatives was developed as potent MEK inhibitors through scaffold hopping based on known clinical compounds. Further SAR exploration and optimization led to another benzofuran series with good oral bioavailability in rats. One of the compounds EBI-1051 (28d) demonstrated excellent in vivo efficacy in colo-205 tumor xenograft models in mouse and is suitable for pre-clinical development studies for the treatment of melanoma and MEK associated cancers. Compared to AZD6244, EBI-1051 showed superior potency in some cancer cell lines such as colon-205, A549 and MDA-MB-231.

Abstract 2599: Discovery and pharmacological characterization of the second generation of Btk inhibitors with improved target selectivity and enhanced in vivo efficacy

Bruton9s tyrosine kinase (Btk) is an essential component of the B-cell receptor (BCR) signaling pathways regulating survival, activation, proliferation, and differentiation of B lymphocytes. The first Btk inhibitor, Ibrutinib, has demonstrated a significant clinical efficacy in a variety of B-cell malignancies. Through structure-guided approach, we have discovered two series of novel and potent Btk inhibitors, represented by EBI-1266 and EBI-1367, respectively. Both of these compounds showed high potency in inhibiting Btk kinase activity and growth of a number of aggressive lymphoma cell lines driven by aberrant BCR signaling, with IC50 value within low nanomolar range. Mechanistic studies examining BCR signaling pathway in related B cell lymphoma cell lines revealed that both EBI-1266 and EBI-1367 potently inhibited Btk phosphorylation and downstream Erk phosphorylation, similar to Ibrutinib. Furthermore, each compound showed unique and significant superiority over Ibrutinib: EBI-1266 had a cleaner selectivity profile against a panel of kinases with a cysteine residue in the conserved catalytic domain, and EBI-1367 exhibited >10-fold higher in vivo exposure in multiple preclinical species. In a tumor xenograft mouse model where tumor growth is dependent on Btk activity, both EBI-1266 and EBI-1367 showed significant oral anti-tumor activities, with EBI-1367 being more efficacious than Ibrutinib, consistent with a higher exposure of EBI-1367 in both blood and tumor tissues. No evidence of overt toxicities was observed in rodents with prolonged oral administration for two weeks with doses at least 3-fold above a highly efficacious dose. In summary, the pharmacological profiles of EBI-1266 and EBI-1367 indicate that these compounds have a great potential to become the next generation of Btk inhibitors, offering advantages in pharmaceutical development, enhanced in vivo efficacy and reduced toxicities. We are currently performing IND-enabling studies aiming to initiate phase I clinical trials for these Btk inhibitors. Citation Format: Jiayin Zhang, Dong Liu, Ru Shen, Yinfa Yan, Liuqing Yang, Minsheng Zhang, Jun Feng, Beibei Fu, Jerry Hu, Biao Lu, Hong Wan, Lei Zhang, Weikang Tao, Lianshan Zhang, Jingsong Cao. Discovery and pharmacological characterization of the second generation of Btk inhibitors with improved target selectivity and enhanced in vivo efficacy. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 2599. doi:10.1158/1538-7445.AM2015-2599

Discovery of a novel IL-15 based protein with improved developability and efficacy for cancer immunotherapy

Interleukin-15 (IL-15) can promote both innate and adaptive immune reactions by stimulating CD8+/CD4+ T cells and natural killer cells (NK) while showing no effect in activating T-regulatory (Treg) cells or inducing activation-associated death among effector T cells and NK cells. Thus, IL-15 is considered as one of the most promising molecules for antitumor immune therapy. To improve the drug-like properties of natural IL-15, we create an IL-15-based molecule, named P22339, with the following characteristics: 1) building a complex of IL-15 and the Sushi domain of IL-15 receptorxa0α chain to enhance the agonist activity of IL-15 via transpresentation; 2) through a rational structure-based design, creating a disulfide bond linking the IL-15/Sushi domain complex with an IgG1 Fc to augment its half-life. P22339 demonstrates excellent developability, pharmacokinetic and pharmacodynamic properties as well as antitumor efficacy in both in vitro assessments and in vivo studies. It significantly suppresses tumor growth and metastasis in rodent models, and activates T effector cells and NK cells in cynomolgus monkey. Overall, these data suggest that P22339 has a great potential for cancer immunotherapy.

WITHDRAWN: Discovery of SHR1977: A highly potent and selective ROMK inhibitor.

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