Poster Session A   |   11:45am Expo - Hall A & C   |   Poster ID #281

A proteolysis-targeting chimera molecule selectively degrades ENL and inhibits malignant gene expression and tumor growth

Program:
Academic Research
Category:
Drug Discovery, Design, and Delivery
FDA Status:
Not Applicable
CPRIT Grant:
Cancer Site(s):
Leukemias
Authors:
Xin Li
Baylor College of Medicine
Yuan Yao
Baylor College of Medicine
Fangrui Wu
Baylor College of Medicine
Yongcheng Song
Baylor College of Medicine

Introduction

Chromosome translocations involving mixed lineage leukemia 1 (MLL1) cause acute leukemia in most infants and 5–10% children/adults with dismal clinical outcomes. Most frequent MLL1-fusion partners AF4/AFF4, AF9/ENL and ELL, together with CDK9/cyclin-T1, constitute super elongation complexes (SEC), which promote aberrant gene transcription, oncogenesis and maintenance of MLL1-rearranged (MLL1-r) leukemia. Notably, ENL, but not its paralog AF9, is essential for MLL1-r leukemia (and several other cancers) and therefore a drug target. Moreover, recurrent ENL mutations are found in Wilms tumor, the most common pediatric kidney cancer, and play critical roles in oncogenesis.

Methods

Proteolysis-Targeting Chimera (PROTAC) molecules were designed and synthesized to degrade ENL. Biological activities of these compounds were characterized in cell and mouse models of MLL1-r leukemia and other cancers.

Results

Compound 1 efficiently degraded ENL with DC50 of 37 nM and almost depleted it at ~ 500 nM in blood and solid tumor cells. AF9 (as well as other proteins in SEC) was not significantly decreased. Compound 1-mediated ENL reduction significantly suppressed malignant gene signatures, selectively inhibited cell proliferation of MLL1-r leukemia and Myc-driven cancer cells with EC50s as low as 320 nM, and induced cell differentiation and apoptosis. It exhibited significant antitumor activity in a mouse model of MLL1-r leukemia. Compound 1 can also degrade a mutant ENL in Wilms tumor and suppress its mediated gene transcription.

Conclusion

Compound 1 is a novel chemical probe for cellular and in vivo studies of ENL (including its oncogenic mutants) and a lead compound for further anticancer drug development.