Abstract 311: Ponatinib loaded leukocyte-based nanoparticles for osteosarcoma treatment in sarcosphere tumor model

Federica Giordano, S. Lenna, Riccardo Rampado, A. Ewing, G. Baudo, Matteo Massaro, Assaf Zinger, E. Rosa, J. Yustein, F. Taraballi
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引用次数: 1

Abstract

Osteosarcoma (OS) is the most common pediatric bone tumor with a worldwide incidence of 3.4 cases per million people annually. Unfortunately, current treatments are still not sufficient to eradicate OS, due to its ability to resist the upfront standard chemotherapy. Therefore, it is essential to identify and effectively deliver novel therapeutic regimens. Multi-tyrosine kinase inhibitors have been explored as new therapeutics for different sarcomas. Among many, Ponatinib (Pon) demonstrated very potent anti-tumor activity, however, it received a black box warning from the FDA due to significant cardiovascular side effects. Recently, our lab developed novel biomimetic nanoparticles (NPs) called Leukosomes (Leuko) capable of encapsulating and effectively releasing Pon. These NPs are synthesized from activated leukocytes, maintaining leukocytes9 tropism towards inflamed endothelium. Leveraging on this technology, we aim to validate the therapeutic potential of Leuko in 3D OS tumor model (sarcospheres) and their ability to target primary murine OS model while concomitantly reducing the detrimental side effects. Given its biological relevance and ability to better recapitulate the tumor structure, a 3D tumor model was chosen to reproduce key properties, such as diffusion limitations and the cellular network of solid tumors that have significant impacts on cancer drug efficacy.In the sarcospheres model, we observed efficient penetration and internalization of NPs in both, murine (RF379, 577) and human PDX derived (PDX94, pPDX202) OS cell lines, where Leuko exhibited a 20% increase in targeting vs the control Liposome (Lipo). This difference was not detected in the control 2D model. Moreover, our data demonstrated a 2-fold increase in the Leuko cytotoxic effect in 3D compared to 2D systems. Murine OS cell viability was 20% lower in sarcospheres after treatment with the IC50 for Pon. In addition, NPs induced complete inhibition of murine sarcosphere formation in the extreme limiting dilution assay (ELDA). These findings were also confirmed using the PDX derived OS cell lines. Subsequently, an in vivo intratibial syngeneic orthotopic mouse model was utilized to determine the targeting and biodistribution of the NPs. Leuko showed an increased targeting and penetration in the tumor 1 and 3h post NPs injection as anticipated by the 3D in vitro studies. By exploiting the inflammatory conditions within the tumor, which increases the Leuko accumulation, these preliminary results advocate the translational potential of this innovative formulation as a new targeted drug delivery approach for OS. This promising platform could improve the clinical therapeutic approaches and lead to improved outcomes and reduced side effects for OS patients. Citation Format: Federica Giordano, Stefania Lenna, Riccardo Rampado, April Ewing, Gherardo Baudo, Matteo Massaro, Assaf Zinger, Enrica De Rosa, Jason T Yustein, Francesca Taraballi. Ponatinib loaded leukocyte-based nanoparticles for osteosarcoma treatment in sarcosphere tumor model [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 311.
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摘要311:波纳替尼负载的白细胞纳米颗粒用于骨肉瘤肌球肿瘤模型的治疗
骨肉瘤(Osteosarcoma, OS)是最常见的儿童骨肿瘤,全世界每年的发病率为每百万人3.4例。不幸的是,目前的治疗仍然不足以根除OS,因为它能够抵抗前期的标准化疗。因此,确定并有效地提供新的治疗方案至关重要。多种酪氨酸激酶抑制剂已被探索作为不同肉瘤的新疗法。在许多药物中,Ponatinib (Pon)显示出非常有效的抗肿瘤活性,然而,由于显着的心血管副作用,它收到了FDA的黑框警告。最近,我们的实验室开发了一种新型仿生纳米粒子(NPs),称为白细胞(Leuko),能够封装并有效释放Pon。这些NPs由活化的白细胞合成,维持白细胞对炎症内皮的趋向性。利用这一技术,我们的目标是验证白血病在3D OS肿瘤模型(肌球)中的治疗潜力,以及它们靶向原发性小鼠OS模型的能力,同时减少有害的副作用。考虑到其生物学相关性和更好地概括肿瘤结构的能力,我们选择了3D肿瘤模型来再现对癌症药物疗效有重大影响的实体肿瘤的扩散限制和细胞网络等关键特性。在肌球模型中,我们观察到NPs在小鼠(RF379, 577)和人PDX衍生的(PDX94, pPDX202) OS细胞系中的有效渗透和内化,其中白细胞的靶向性比对照脂质体(Lipo)增加了20%。在对照2D模型中没有检测到这种差异。此外,我们的数据表明,与2D系统相比,3D系统的白细胞毒性效应增加了2倍。用IC50治疗Pon后,小鼠肌球中OS细胞活力降低20%。此外,在极限稀释试验(ELDA)中,NPs诱导小鼠肌球形成完全抑制。这些发现也在PDX衍生的OS细胞系中得到证实。随后,利用体内胫骨内同源原位小鼠模型来确定NPs的靶向性和生物分布。白细胞在NPs注射1和3小时后显示出增加的靶向性和穿透性,正如3D体外研究所预测的那样。通过利用肿瘤内的炎症条件,增加白细胞的积累,这些初步结果倡导这种创新配方作为一种新的靶向给药方法的转化潜力。这个有希望的平台可以改善临床治疗方法,改善OS患者的预后并减少副作用。引文格式:Federica Giordano, Stefania Lenna, Riccardo Rampado, April Ewing, Gherardo Baudo, Matteo Massaro, Assaf Zinger, Enrica De Rosa, Jason T Yustein, Francesca Taraballi。波纳替尼负载的白细胞纳米颗粒用于骨肉瘤肌球肿瘤模型的治疗[摘要]。见:美国癌症研究协会2021年年会论文集;2021年4月10日至15日和5月17日至21日。费城(PA): AACR;癌症杂志,2021;81(13 -增刊):摘要第311期。
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