针对FLT3突变急性髓性白血病化疗的最佳分子和功能反应而设计的脂质聚合物/siRNA复合物

IF 9.4 1区 医学 Q1 ENGINEERING, BIOMEDICAL
Aysha S. Ansari , Cezary Kucharski , Remant KC , Daniel Nisakar , Ramea Rahim , Xiaoyan Jiang , Joseph Brandwein , Hasan Uludağ
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引用次数: 0

摘要

在新诊断出的急性髓细胞性白血病患者中,约有 25% 的患者体内的 fms 样酪氨酸激酶 3(FLT3)基因存在内部串联重复(ITD)。尽管多靶点和FLT3特异性酪氨酸激酶抑制剂(TKIs)已被用于临床治疗,但耐药性、缓解期短和复发率高仍是亟待解决的难题。由短干扰 RNA(siRNA)介导的 RNA 干扰(RNAi)因其基因序列驱动的作用机制,提供了一种机制独特的治疗平台,具有个性化治疗的潜力。本研究探讨了在 FLT3-ITD 阳性 AML 细胞系和原代细胞中使用非病毒方法递送 FLT3 siRNA(siFLT3),以及将这种疗法与目前临床上使用的药物相结合的可行性。用 FLT3 siRNA 纳米复合物处理急性髓细胞性白血病细胞系可显著降低细胞增殖率并诱导细胞凋亡。对相对 mRNA 转录水平的定量分析显示,FLT3 基因发生了下调,同时 FLT3 蛋白水平也出现了类似的下降。此外,在一小部分原发性急性髓细胞性白血病样本中,通过显著减少集落数量观察到了对白血病干细胞的影响。健康人的外周血单核细胞在接受脂质聚合物/siFLT3复合物处理后没有出现分子反应,这表明复合物对恶性细胞具有被动选择性。将脂质聚合物/siFLT3复合物与daunorubucin和FLT3靶向TKI吉特替尼结合使用,可显著增强抗白血病活性。这些研究结果表明,将RNAi与脂质聚合物复合物用于急性髓细胞性白血病分子治疗具有广阔的前景。该研究前瞻性地支持将RNAi疗法添加到目前的治疗模式中,以针对急性髓细胞性白血病中普遍存在的异质性。意义说明:我们的研究表明,利用非病毒 RNAi 技术可以根除白血病细胞中的临床验证靶点 FLT3 基因。我们验证了这些脂质聚合物是向白血病细胞递送核酸的有效载体。脂质聚合物的效力优于 "黄金标准 "递送剂--脂质纳米颗粒(LNPs),后者在临床相关剂量下对白血病细胞无效。研究人员进行了机理研究,以探究有效生物材料配方的结构-功能关系。在细胞模型(包括白血病患者衍生细胞)中对 siRNA 治疗的细胞和分子反应进行了表征。研究还证明了 siRNA 疗法与临床化疗的结合使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lipopolymer/siRNA complexes engineered for optimal molecular and functional response with chemotherapy in FLT3-mutated acute myeloid leukemia
Approximately 25% of newly diagnosed AML patients display an internal tandem duplication (ITD) in the fms-like tyrosine kinase 3 (FLT3) gene. Although both multi-targeted and FLT3 specific tyrosine kinase inhibitors (TKIs) are being utilized for clinical therapy, drug resistance, short remission periods, and high relapse rates are challenges that still need to be tackled. RNA interference (RNAi), mediated by short interfering RNA (siRNA), presents a mechanistically distinct therapeutic platform with the potential of personalization due to its gene sequence-driven mechanism of action. This study explored the use of a non-viral approach for delivery of FLT3 siRNA (siFLT3) in FLT3-ITD positive AML cell lines and primary cells as well as the feasibility of combining this treatment with drugs currently used in the clinic. Treatment of AML cell lines with FLT3 siRNA nanocomplexes resulted in prominent reduction in cell proliferation rates and induction of apoptosis. Quantitative analysis of relative mRNA transcript levels revealed downregulation of the FLT3 gene, which was accompanied by a similar decline in FLT3 protein levels. Moreover, an impact on leukemic stem cells was observed in a small pool of primary AML samples through significantly reduced colony numbers. An absence of a molecular response post-treatment with lipopolymer/siFLT3 complexes in peripheral blood mononuclear cells, obtained from healthy individuals, denoted a passive selectivity of the complexes towards malignant cells. The effect of combining lipopolymer/siFLT3 complexes with daunorubucin and FLT3 targeting TKI gilteritinib led to a significant augmentation of anti-leukemic activity. These findings demonstrate the promising potential of RNAi implemented with lipopolymer complexes for AML molecular therapy. The study prospectively supports the addition of RNAi therapy to current treatment modalities available to target the heterogeneity prevalent in AML.

Statement of significance

We show that a clinically validated target, the FLT3 gene, can be eradicated in leukemia cells using non-viral RNAi. We validated these lipopolymers as effective vehicles to deliver nucleic acids to leukemic cells. The potency of the lipopolymers was superior to that of the ‘gold-standard’ delivery agent, lipid nanoparticles (LNPs), which are not effective in leukemia cells at clinically relevant doses. Mechanistic studies were undertaken to probe structure-function relationships for effective biomaterial formulations. Cellular and molecular responses to siRNA treatment have been characterized in cell models, including leukemia patient-derived cells. The use of the siRNA therapy with clinically used chemotherapy was demonstrated.
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来源期刊
Acta Biomaterialia
Acta Biomaterialia 工程技术-材料科学:生物材料
CiteScore
16.80
自引率
3.10%
发文量
776
审稿时长
30 days
期刊介绍: Acta Biomaterialia is a monthly peer-reviewed scientific journal published by Elsevier. The journal was established in January 2005. The editor-in-chief is W.R. Wagner (University of Pittsburgh). The journal covers research in biomaterials science, including the interrelationship of biomaterial structure and function from macroscale to nanoscale. Topical coverage includes biomedical and biocompatible materials.
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