Lipopolymer/siRNA Nanoparticles Targeting the Signal Transducer and Activator of Transcription 5A Disrupts Proliferation of Acute Lymphoblastic Leukemia

IF 4.9 Q1 CHEMISTRY, MEDICINAL ACS Pharmacology and Translational Science Pub Date : 2024-08-15 DOI:10.1021/acsptsci.4c0033610.1021/acsptsci.4c00336

Mohammad Nasrullah, Remant KC, Kyle Nickel, Kylie Parent, Cezary Kucharski, Daniel Nisakar Meenakshi Sundaram, Amarnath Praphakar Rajendran, Xiaoyan Jiang, Joseph Brandwein and Hasan Uludağ*,

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Abstract

The therapeutic potential of small interfering RNAs (siRNAs) in gene-targeted treatments is substantial, but their suboptimal delivery impedes widespread clinical applications. Critical among these is the inability of siRNAs to traverse the cell membranes due to their anionic nature and high molecular weight. This limitation is particularly pronounced in lymphocytes, which pose additional barriers due to their smaller size and scant cytoplasm. Addressing this, we introduce an innovative lipid-conjugated polyethylenimine lipopolymer platform, engineered for delivery of therapeutic siRNAs into lymphocytes. This system utilizes the cationic nature of the polyethylenimine for forming stable complexes with anionic siRNAs, while the lipid component facilitates cellular entry of siRNA. The resulting lipopolymer/siRNA complexes are termed lipopolymer nanoparticles (LPNPs). We comprehensively profiled the efficacy of this platform in human peripheral blood mononuclear cells (PBMCs) as well as in vitro and in vivo models of acute lymphoblastic leukemia (ALL), emphasizing the inhibition of the oncogenic signal transducer and activator of transcription 5A (STAT5A) gene. The lipopolymers demonstrated high efficiency in delivering siRNA to ALL cell lines (RS4;11 and SUP-B15) and primary patient cells, effectively silencing the STAT5A gene. The resultant gene silencing induced apoptosis and significantly reduced colony formation in vitro. Furthermore, in vivo studies showed a significant decrease in tumor volumes without causing substantial toxicity. The lipopolymers did not induce the secretion of proinflammatory cytokines (IL-6, TNF-α, and INF-γ) in PBMCs from healthy volunteers, underscoring their immune safety profile. Our observations indicate that LPNP-based siRNA delivery systems offer a promising therapeutic approach for ALL in terms of both safety and therapeutic efficacy.

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靶向信号转导和转录激活因子5A的脂质聚合物/siRNA纳米粒子可抑制急性淋巴细胞白血病的增殖

小干扰 RNA（siRNA）在基因靶向治疗中具有巨大的治疗潜力，但其不理想的传递方式阻碍了其广泛的临床应用。其中最重要的原因是 siRNA 的阴离子性质和高分子量使其无法穿过细胞膜。这种限制在淋巴细胞中尤为明显，因为淋巴细胞体积较小，细胞质稀少，这就造成了额外的障碍。针对这一问题，我们推出了一种创新的脂质共轭聚乙烯亚胺脂质聚合物平台，专门用于向淋巴细胞输送治疗用 siRNA。该系统利用聚乙烯亚胺的阳离子特性与阴离子 siRNA 形成稳定的复合物，而脂质成分则有助于 siRNA 进入细胞。由此产生的脂质聚合物/siRNA 复合物被称为脂质聚合物纳米颗粒（LPNPs）。我们全面分析了这一平台在人类外周血单核细胞（PBMC）以及急性淋巴细胞白血病（ALL）体外和体内模型中的疗效，重点研究了对致癌信号转导和激活转录5A（STAT5A）基因的抑制作用。脂质聚合物能高效地将 siRNA 运送到 ALL 细胞系（RS4;11 和 SUP-B15）和原代患者细胞中，有效地沉默 STAT5A 基因。由此产生的基因沉默诱导了细胞凋亡，并显著减少了体外集落的形成。此外，体内研究显示，肿瘤体积明显缩小，但不会产生严重毒性。脂质聚合物不会诱导健康志愿者的 PBMCs 分泌促炎细胞因子（IL-6、TNF-α 和 INF-γ），这突显了其免疫安全性。我们的观察结果表明，基于 LPNP 的 siRNA 递送系统在安全性和疗效方面都为治疗 ALL 提供了一种很有前景的方法。

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来源期刊

ACS Pharmacology and Translational Science Medicine-Pharmacology (medical)

CiteScore

10.00

自引率

3.30%

发文量

133

期刊介绍： ACS Pharmacology & Translational Science publishes high quality, innovative, and impactful research across the broad spectrum of biological sciences, covering basic and molecular sciences through to translational preclinical studies. Clinical studies that address novel mechanisms of action, and methodological papers that provide innovation, and advance translation, will also be considered. We give priority to studies that fully integrate basic pharmacological and/or biochemical findings into physiological processes that have translational potential in a broad range of biomedical disciplines. Therefore, studies that employ a complementary blend of in vitro and in vivo systems are of particular interest to the journal. Nonetheless, all innovative and impactful research that has an articulated translational relevance will be considered. ACS Pharmacology & Translational Science does not publish research on biological extracts that have unknown concentration or unknown chemical composition. Authors are encouraged to use the pre-submission inquiry mechanism to ensure relevance and appropriateness of research.