AXL抑制剂bemcentinib克服了微环境介导的急性髓性白血病患者对吡格列酮的耐药性。

Jaja Zhu, Hippolyte Guérineau, Anne-Margaux Lefebvre-Fortané, Laetitia Largeaud, Juliette Lambert, Philippe Rousselot, Maèva Boudouin, Julien Calvo, Stéphane Prost, Sylvain Clauser, Valérie Bardet
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引用次数: 0

摘要

急性髓性白血病(AML)的预后仍然很差,尤其是那些不符合标准化疗条件或患有难治性疾病的老年患者。在此,我们研究了过氧化物酶体增殖激活受体(PPAR)-γ 激动剂吡格列酮改善急性髓性白血病治疗的潜力。我们的研究表明,吡格列酮对 AML 细胞系 KG-1a、MOLM-14 和 OCI-AML3 以及 AML 患者的原代培养物具有抗增殖和抗克隆作用。然而,将急性髓细胞与模拟骨髓微环境的基质细胞共同培养可抵消这种效应,这表明存在一种由基质介导的对吡格列酮的抗性机制。我们的研究表明,吡格列酮治疗可在mRNA和蛋白质水平上调AML细胞中的受体AXL,使AXL被其配体Gas6磷酸化,而Gas6是由基质分泌的。加入外源 Gas6 或基质细胞条件培养基也会取消吡格列酮的抗增殖作用,在这两种情况下都能观察到 AXL 磷酸化的增加。在有基质细胞存在的情况下,与 AXL 抑制剂贝仑替尼(bemcentinib)共孵育可将 AXL 磷酸化降至基线水平,从而恢复吡格列酮的抗白血病活性。我们还证实这种抗性机制是 PPAR-γ 依赖性的,因为 PPAR-γ 失效的基质细胞无法抑制吡格列酮的抗白血病作用。总之,我们认为,吡格列酮治疗具有抗白血病作用,但同时会引发基质介导的涉及 Gas6/AXL 轴的抵抗机制。我们证明,在原代培养物和急性髓性白血病细胞系中,吡格列酮与 AXL 抑制剂的组合能克服这一机制,并发挥强大的抗白血病活性,这需要通过小鼠异种移植临床前模型在体内进行进一步评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The AXL inhibitor bemcentinib overcomes microenvironment-mediated resistance to pioglitazone in acute myeloid leukemia.

Prognosis of acute myeloid leukemia (AML) remains poor especially in older patients who are ineligible for standard chemotherapy or have refractory disease. Here, we study the potential of Peroxisome Proliferator-Activated Receptor (PPAR)-γ agonist pioglitazone to improve the treatment of AML. We show that pioglitazone exerts an anti-proliferative and anti-clonogenic effect on AML cell lines KG-1a, MOLM-14 and OCI-AML3 and on primary cultures from AML patients. However, co-culture of AML cells with stromal cells mimicking the bone marrow microenvironment counteracts this effect, suggesting the existence of a stroma-mediated resistance mechanism to pioglitazone. We show that pioglitazone treatment upregulates the receptor AXL in AML cells at the mRNA and protein level, allowing AXL to be phosphorylated by its ligand Gas6, which is secreted by the stroma. Addition of exogenous Gas6 or stromal cell conditioned medium also abolishes the anti-proliferative effect of pioglitazone, with an increase in AXL phosphorylation observed in both conditions. Co-incubation with the AXL inhibitor bemcentinib restored the anti-leukemic activity of pioglitazone in the presence of stromal cells by reducing AXL phosphorylation to its baseline level. We also confirm that this resistance mechanism is PPAR-γ-dependent as stromal cells invalidated for PPAR-γ are unable to inhibit the antileukemic effect of pioglitazone. Altogether, we suggest that pioglitazone treatment exerts an anti-leukemic effect but concomitantly triggers a stroma-mediated resistance mechanism involving the Gas6/AXL axis. We demonstrate that a combination of pioglitazone with an AXL inhibitor overcomes this mechanism in primary cultures and AML cell lines and exerts potent anti-leukemic activity requiring further evaluation in vivo through murine xenograft pre-clinical models.

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