Drug-perturbation-based stratification of blood cancer.

Sascha Dietrich,Alexander Jethwa,Sonja Ghidelli-Disse,Jennifer Hüllein,Lesley Ann Sutton,Mikołaj Słabicki,Davide Rossi,Christof Von Kalle,Britta Velten,Thorsten Zenz,Emma Andersson,Richard Rosenquist,Simon Anders,Katja Zirlik,Joe Lewis,Shihui Wang,Manfred Hensel,Marcus Bantscheff,Christoph Plass,Emma Young,Thomas Oellerich,Jan Dürig,Lena Wagner,Anthony D Ho,Junyan Lu,Christopher C Oakes,Andriy Mokhir,Marina Lukas,Kerstin Putzker,Martin Sill,Bian Wu,Vladislav Kim,Wolfgang Huber,Leopold Sellner,Małgorzata Oleś,Ingo Ringshausen,Sina Oppermann,Christoph Lutz,Tatjana Walther,Marco Herling,Anna Jauch,Axel Benner,Satu Mustjoki,Marc Zapatka,Kwang Seok Lee,Andrzej K Oleś,Sophie Rabe,Florence Nguyen‐Khac ,Michelle Da Silva Libério ,Andreas Möck ,Xi-Yang Liu

doi:10.1172/jci93801

Abstract

As new generations of targeted therapies emerge and tumor genome sequencing discovers increasingly comprehensive mutation repertoires, the functional relationships of mutations to tumor phenotypes remain largely unknown. Here, we measured ex vivo sensitivity of 246 blood cancers to 63 drugs alongside genome, transcriptome, and DNA methylome analysis to understand determinants of drug response. We assembled a primary blood cancer cell encyclopedia data set that revealed disease-specific sensitivities for each cancer. Within chronic lymphocytic leukemia (CLL), responses to 62% of drugs were associated with 2 or more mutations, and linked the B cell receptor (BCR) pathway to trisomy 12, an important driver of CLL. Based on drug responses, the disease could be organized into phenotypic subgroups characterized by exploitable dependencies on BCR, mTOR, or MEK signaling and associated with mutations, gene expression, and DNA methylation. Fourteen percent of CLLs were driven by mTOR signaling in a non–BCR-dependent manner. Multivariate modeling revealed immunoglobulin heavy chain variable gene (IGHV) mutation status and trisomy 12 as the most important modulators of response to kinase inhibitors in CLL. Ex vivo drug responses were associated with outcome. This study overcomes the perception that most mutations do not influence drug response of cancer, and points to an updated approach to understanding tumor biology, with implications for biomarker discovery and cancer care.

Highlights

The clinical response to anticancer agents is heterogeneous, which is a major barrier to effective cancer care
We began the data analysis by clustering the drugs based on the similarity of their response profiles across chronic lymphocytic leukemia (CLL) samples (Figure 3)
The responses to inhibitors targeting the B cell receptor (BCR) components Bruton’s tyrosine kinase (BTK), phosphatidylinositol 3-kinase (PI3K), and spleen tyrosine kinase (SYK) were highly correlated across the 184 CLL samples and showed a distinctive profile, which was shared with inhibitors of kinases downstream of the BCR, including AKT, LYN, and SRC

Summary

Introduction

The clinical response to anticancer agents is heterogeneous, which is a major barrier to effective cancer care. The disease could be organized into phenotypic subgroups characterized by exploitable dependencies on BCR, mTOR, or MEK signaling and associated with mutations, gene expression, and DNA methylation.

Results

Conclusion