The HSP90-Myc-CDK9 Network Drives Therapeutic Resistance in Mantle Cell Lymphoma

Authors

Fangfang Yan
Vivian Jiang
Alexa Jordan
Yuxuan Che
Yang Liu
Qingsong Cai
Yu Xue
Yijing Li
Joseph McIntosh
Zhihong Chen
Jovanny Vargas
Lei Nie
Yixin Yao
Heng-Huan Lee
Wei Wang
JohnNelson R Bigcal
Maria Badillo
Jitendra Meena
Christopher Flowers
Jia Zhou
Zhongming Zhao
Lukas M Simon
Michael Wang

Publication Date

2-7-2024

Journal

Experimental Hematology & Oncology

Abstract

Brexucabtagene autoleucel CAR-T therapy is highly efficacious in overcoming resistance to Bruton's tyrosine kinase inhibitors (BTKi) in mantle cell lymphoma. However, many patients relapse post CAR-T therapy with dismal outcomes. To dissect the underlying mechanisms of sequential resistance to BTKi and CAR-T therapy, we performed single-cell RNA sequencing analysis for 66 samples from 25 patients treated with BTKi and/or CAR-T therapy and conducted in-depth bioinformatics™ analysis. Our analysis revealed that MYC activity progressively increased with sequential resistance. HSP90AB1 (Heat shock protein 90 alpha family class B member 1), a MYC target, was identified as early driver of CAR-T resistance. CDK9 (Cyclin-dependent kinase 9), another MYC target, was significantly upregulated in Dual-R samples. Both HSP90AB1 and CDK9 expression were correlated with MYC activity levels. Pharmaceutical co-targeting of HSP90 and CDK9 synergistically diminished MYC activity, leading to potent anti-MCL activity. Collectively, our study revealed that HSP90-MYC-CDK9 network is the primary driving force of therapeutic resistance.

Keywords

Mantle cell lymphoma, Resistance, CAR-T therapy, Single-cell RNA sequencing

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Associated Data

PMID: 38326887