Antitumor Cytokine DR5-B-Conjugated Polymeric Poly(N-vinylpyrrolidone) Nanoparticles with Enhanced Cytotoxicity in Human Colon Carcinoma 3D Cell Spheroids

Materials Proceedings Pub Date : 2021-11-01 DOI:10.3390/iocps2021-11281

A. V. Yagolovich, A. Kuskov, P. Kulikov, L. Kurbanova, A. Gileva, E. Markvicheva

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Abstract

Self-assembled nanoparticles based on amphiphilic poly(N-vinylpyrrolidone) (Amph-PVP) were proposed earlier as a new drug delivery system. In the current work, we study the antitumor activity of Amph-PVP-based self-assembled polymeric micelles covalently conjugated with the antitumor receptor-specific TRAIL variant DR5-B (P-DR5-B). The Amph-PVP polymer was synthesized by the earlier developed one-step technique (Kulikov et al., Polym. Sci. Ser. D, 2017). To stabilize Amph-PVP associates, the hydrophobic core was loaded with the model substance prothionamide. For the covalent conjugation with DR5-B, the hydrophilic ends of polymeric chains were modified with maleimide, and a DR5-B N-terminal amino acid residue valine was mutated to cysteine (DR5-B/V114C). DR5-B/V114C was conjugated to the surface of polymeric micelles by the selective covalent interaction of N-terminal cysteine residue with maleimide on Amph-PVP. The cytotoxicity of DR5-B-conjugated Amph-PVP polymeric nanoparticles was investigated in 3D multicellular tumor spheroids (MCTS) of human colon carcinoma HCT116 and HT29 cells, generated by the RGD-induced self-assembly technique (Akasov et al., Int. J. Pharm., 2016). In DR5-B-sensitive HCT116 MCTS, the P-DR5-B activity slightly increased compared to that of DR5-B. However, in DR5-B-resistant HT29 MCTS, P-DR5-B significantly surpassed DR5-B in the antitumor activity. Thus, the conjugation of DR5-B with the Amph-PVP nanoparticles enhanced its tumor-cell killing capacity. In the current study, we obtain a new nano-scaled delivery system based on Amph-PVP self-aggregates coated with covalently conjugated antitumor DR5-specific cytokine DR5-B. P-DR5-B overcomes DR5-B-resistance of the human colon carcinoma MCTS in vitro. This makes Amph-PVP polymeric nanoparticles a prospective and versatile nano-scaled delivery system for the targeted proteins.

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抗肿瘤细胞因子dr5 - b共轭聚合物聚(n -乙烯基吡咯烷酮)纳米颗粒对人结肠癌三维细胞球体的细胞毒性增强

基于两亲性聚(n -乙烯基吡咯烷酮)(Amph-PVP)的自组装纳米颗粒较早被提出作为一种新的药物递送系统。在目前的工作中，我们研究了基于amph - vpp的自组装聚合物胶束与抗肿瘤受体特异性TRAIL变体DR5-B (P-DR5-B)共价偶联的抗肿瘤活性。Amph-PVP聚合物是通过早期开发的一步技术合成的(Kulikov等人，Polym;科学。爵士。D, 2017)。为了稳定Amph-PVP缔合物，疏水核心装载了模型物质丙硫酰胺。为了与DR5-B共价结合，用马来酰亚胺修饰聚合物链的亲水性末端，并将DR5-B n端氨基酸残基缬氨酸突变为半胱氨酸(DR5-B/V114C)。DR5-B/V114C通过n端半胱氨酸残基与马来酰亚胺在Amph-PVP上的选择性共价相互作用偶联到聚合物胶束表面。通过rgd诱导的自组装技术，研究了dr5 - b偶联的Amph-PVP聚合纳米颗粒在人结肠癌HCT116和HT29细胞的3D多细胞肿瘤球体(MCTS)中的细胞毒性(Akasov et al.， Int.)。j .制药。, 2016)。在DR5-B敏感的HCT116 MCTS中，P-DR5-B活性比DR5-B略有增加。然而，在耐DR5-B的HT29 MCTS中，P-DR5-B的抗肿瘤活性明显超过DR5-B。因此，DR5-B与Amph-PVP纳米颗粒的结合增强了其对肿瘤细胞的杀伤能力。在本研究中，我们获得了一种新的纳米级递送系统，该系统基于Amph-PVP自聚集体，并包被共价偶联的抗肿瘤dr5特异性细胞因子DR5-B。P-DR5-B在体外克服了人结肠癌MCTS的dr5 - b耐药。这使得Amph-PVP聚合物纳米颗粒成为一种有前景的、多功能的靶向蛋白质纳米级递送系统。

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Materials Proceedings

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