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内皮细胞-白血病相互作用重塑药物反应,揭示 T-ALL 的脆弱性。

Endothelial cell-leukemia interactions remodel drug responses, uncovering T-ALL vulnerabilities.

机构信息

Department of Pathology and Laboratory Medicine, Weill Cornell Medicine, New York, NY.

Department of Translational and Precision Medicine, Sapienza University of Rome, Rome, Italy.

出版信息

Blood. 2023 Feb 2;141(5):503-518. doi: 10.1182/blood.2022015414.

DOI:10.1182/blood.2022015414
PMID:35981563
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10082359/
Abstract

T-cell acute lymphoblastic leukemia (T-ALL) is an aggressive and often incurable disease. To uncover therapeutic vulnerabilities, we first developed T-ALL patient-derived tumor xenografts (PDXs) and exposed PDX cells to a library of 433 clinical-stage compounds in vitro. We identified 39 broadly active drugs with antileukemia activity. Because endothelial cells (ECs) can alter drug responses in T-ALL, we developed an EC/T-ALL coculture system. We found that ECs provide protumorigenic signals and mitigate drug responses in T-ALL PDXs. Whereas ECs broadly rescued several compounds in most models, for some drugs the rescue was restricted to individual PDXs, suggesting unique crosstalk interactions and/or intrinsic tumor features. Mechanistically, cocultured T-ALL cells and ECs underwent bidirectional transcriptomic changes at the single-cell level, highlighting distinct "education signatures." These changes were linked to bidirectional regulation of multiple pathways in T-ALL cells as well as in ECs. Remarkably, in vitro EC-educated T-ALL cells transcriptionally mirrored ex vivo splenic T-ALL at single-cell resolution. Last, 5 effective drugs from the 2 drug screenings were tested in vivo and shown to effectively delay tumor growth and dissemination thus prolonging overall survival. In sum, we developed a T-ALL/EC platform that elucidated leukemia-microenvironment interactions and identified effective compounds and therapeutic vulnerabilities.

摘要

T 细胞急性淋巴细胞白血病(T-ALL)是一种侵袭性的、通常无法治愈的疾病。为了揭示治疗弱点,我们首先开发了 T-ALL 患者来源的肿瘤异种移植物(PDX),并将 PDX 细胞暴露于 433 种临床阶段化合物的文库中进行体外研究。我们确定了 39 种具有抗白血病活性的广泛活性药物。由于内皮细胞(EC)可以改变 T-ALL 中的药物反应,我们开发了一种 EC/T-ALL 共培养系统。我们发现 EC 提供了促肿瘤信号,并减轻了 T-ALL PDX 中的药物反应。虽然 EC 广泛挽救了大多数模型中的几种化合物,但对于某些药物,挽救仅限于个别 PDX,这表明存在独特的串扰相互作用和/或内在肿瘤特征。从机制上讲,共培养的 T-ALL 细胞和 EC 在单细胞水平上发生了双向转录组变化,突出了不同的“教育特征”。这些变化与 T-ALL 细胞和 EC 中多个途径的双向调节有关。值得注意的是,体外经 EC 教育的 T-ALL 细胞在转录水平上以单细胞分辨率反映了体外脾 T-ALL。最后,对来自 2 种药物筛选的 5 种有效药物进行了体内测试,结果表明它们能有效延缓肿瘤生长和扩散,从而延长总生存期。总之,我们开发了一种 T-ALL/EC 平台,阐明了白血病-微环境相互作用,并确定了有效化合物和治疗弱点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/762a/10082359/5c6930f66558/BLOOD_BLD-2022-015414-fx1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/762a/10082359/5c6930f66558/BLOOD_BLD-2022-015414-fx1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/762a/10082359/5c6930f66558/BLOOD_BLD-2022-015414-fx1.jpg

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