PO.CL01.05 · 临床研究

Single-cell multi-omics reveals co-mutation of TP53 and epigenetic gene driving myeloid transformation in B-ALL following CAR-T therapy

海报缩略图:Single-cell multi-omics reveals co-mutation of TP53 and epigenetic gene driving myeloid transformation in B-ALL following CAR-T therapy
编号 5248 展板 14 时间 4/21 09:00–12:00 区域 Section 42 主讲 Shuang Zhao, MD
分会场 Biomarkers Predictive of Therapeutic Benefit 5
查看完整资料 下载 PDF 登录后可访问当前开放资料 AACR 官方页面 ↗

作者与单位

Shuang Zhao1, Yanjing Tang2, Meng Su2, Bowen Cui1, Rongrong Fan1, Han Wang1, Liu Yang2, Lixia Ding2, Ronghua Wang1, Huiying Sun1, Ying Zhong1, Qiaoqiao Shi1, Yuxuan Guo1, Lili Song2, Xinyu Wan2, Tianyi Wang2, Jing Yang2, Benshang Li2, Yu Liu1

1Pediatric Translational Medicine Institute, Shanghai Children’s Medical Center, School of Medicine, Shanghai Jiao Tong University, shanghai, China,2National Health Committee Key Laboratory of Pediatric Hematology & Oncology, Shanghai Children’s Medical Center, School of Medicine, Shanghai Jiao Tong University, shanghai, China

摘要 Abstract

Lineage switch is a rare phenomenon, occurring in less than 1% of leukemia cases. However, with the advent of CD19-targeted immunotherapies such as CAR-T and blinatumomab, it has emerged as a significant complication. Identifying patients at high risk for lineage switch prior to immunotherapy is critical, yet predictive biomarkers remain unclear. In a cohort of 65 B-ALL patients who relapsed after CAR-T therapy, we identified one case of myeloid lineage switch with unknown mechanism. Transcriptomic sequencing across three timepoints: pre-CAR-T, first CAR-T relapse, and second CAR-T relapse (myeloid switch) confirmed a consistent driver gene profile ( ETV6 :: RUNX1 fusion, NF1 , WNK1 and CIC mutations), ruling out a secondary malignancy. To elucidate the mechanism, we performed single-cell DNA-protein sequencing (Mission Bio Tapestri platform) and single-cell RNA sequencing (10x Genomics platform). At first CAR-T relapse, we identified five distinct clones. After CAR-T therapy, three clones were undetectable, whereas two clones persisted and underwent rapid expansion, concomitant with myeloid lineage switch. Notably, both of these clones harboring mutations in TP53 and epigenetic regulator STAG2 . We further discovered a distinct population of lineage-infidelity cells (CD117+CD71+ CD34+CD38+CD56+CD19dim) that co-express myeloid and B-lineage markers, representing a heightened plasticity that may facilitate CAR-T evasion. Projection of our scRNA-seq data onto a normal developmental atlas showed pre-CAR-T sample from the lineage-switch case encompassed a broad spectrum, whereas control case of CD19-negative relapse due to CD19 mutation were confined to the pro-B/pre-B stages. Based on these findings, we hypothesized that co-mutation of TP53 and epigenetic regulators predisposes cells to lineage switch. To validate this finding, we performed a longitudinal flow cytometry analysis. Patients were stratified into two groups: a co-mutation group (n=4) harboring TP53 and epigenetic gene mutations, and a control group (n=2) lacking these mutations. The co-mutation group exhibited significant downregulation of the B-lineage marker CD19 and concurrent upregulation of the myeloid marker following CAR-T treatment. In contrast, the control group showed no notable changes. In conclusion, our data suggests that co-mutations in TP53 and epigenetic genes enhance plasticity in B-ALL. Under the selective pressure of CD19 CAR-T therapy, subclones harboring these mutations are preferentially expanded, leading to lineage switch. We propose monitoring myeloid marker expressing subclones in B-ALL patients carrying co-mutations in TP53 and epigenetic genes during immunotherapy is important to improve their prognosis.
利益披露 Disclosure
S. Zhao, None.. Y. Tang, None.. M. Su, None.. B. Cui, None.. R. Fan, None.. H. Wang, None.. L. Yang, None.. L. Ding, None.. R. Wang, None.. H. Sun, None.. Y. Zhong, None.. Q. Shi, None.. Y. Guo, None.. L. Song, None.. X. Wan, None.. T. Wang, None.. J. Yang, None.. B. Li, None.. Y. Liu, None.

在会议检索中打开