血管破坏和抗血管生成治疗导致白血病消退。

Leukemia regression by vascular disruption and antiangiogenic therapy.

机构信息

Department of Medicine, University of Florida, Gainesville, USA.

出版信息

Blood. 2010 Sep 2;116(9):1539-47. doi: 10.1182/blood-2009-06-230474. Epub 2010 May 14.

DOI:10.1182/blood-2009-06-230474

PMID:20472832

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2938842/

Abstract

Acute myelogenous leukemias (AMLs) and endothelial cells depend on each other for survival and proliferation. Monotherapy antivascular strategies such as targeting vascular endothelial growth factor (VEGF) has limited efficacy in treating AML. Thus, in search of a multitarget antivascular treatment strategy for AML, we tested a novel vascular disrupting agent, OXi4503, alone and in combination with the anti-VEGF antibody, bevacizumab. Using xenotransplant animal models, OXi4503 treatment of human AML chloromas led to vascular disruption in leukemia cores that displayed increased leukemia cell apoptosis. However, viable rims of leukemia cells remained and were richly vascular with increased VEGF-A expression. To target this peripheral reactive angiogenesis, bevacizumab was combined with OXi4503 and abrogated viable vascular rims, thereby leading to enhanced leukemia regression. In a systemic model of primary human AML, OXi4503 regressed leukemia engraftment alone and in combination with bevacizumab. Differences in blood vessel density alone could not account for the observed regression, suggesting that OXi4503 also exhibited direct cytotoxic effects on leukemia cells. In vitro analyses confirmed this targeted effect, which was mediated by the production of reactive oxygen species and resulted in apoptosis. Together, these data show that OXi4503 alone is capable of regressing AML by a multitargeted mechanism and that the addition of bevacizumab mitigates reactive angiogenesis.

摘要

急性髓系白血病（AML）和内皮细胞相互依存，共同生存和增殖。针对血管内皮生长因子（VEGF）的单一血管生成抑制剂治疗策略在治疗 AML 方面疗效有限。因此，为了寻找一种针对 AML 的多靶点抗血管生成治疗策略，我们测试了一种新型的血管破坏剂 OXi4503，单独使用和与抗 VEGF 抗体 bevacizumab 联合使用。在异种移植动物模型中，OXi4503 治疗人 AML 绿色瘤导致白血病核心中的血管破坏，显示出增加的白血病细胞凋亡。然而，仍然存在存活的白血病细胞边缘，并且富含血管，VEGF-A 表达增加。为了靶向这种周围反应性血管生成，bevacizumab 与 OXi4503 联合使用，消除了存活的血管边缘，从而导致白血病消退增强。在原发性人 AML 的全身性模型中，OXi4503 单独和联合 bevacizumab 均可消退白血病植入。单独的血管密度差异不能解释观察到的消退，这表明 OXi4503 也对白血病细胞表现出直接细胞毒性作用。体外分析证实了这种靶向作用，这是由活性氧的产生介导的，并导致细胞凋亡。总之，这些数据表明，OXi4503 单独通过多靶点机制能够使 AML 消退，并且添加 bevacizumab 可以减轻反应性血管生成。

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