第四代质子泵抑制剂树枝状聚合物作为癌症靶向载体的制剂开发及体内外评估

Formulation development and in vitro-in vivo assessment of the fourth-generation PPI dendrimer as a cancer-targeting vector.

作者信息

Kesharwani Prashant, Tekade Rakesh K, Jain Narendra K

机构信息

Pharmaceutics Research Laboratory, Department of Pharmaceutical Sciences, Dr Hari Singh Gour University, Sagar 470003, Madhya Pradesh, India.

出版信息

Nanomedicine (Lond). 2014 Oct;9(15):2291-308. doi: 10.2217/nnm.13.210. Epub 2014 Mar 5.

DOI:10.2217/nnm.13.210

PMID:24593000

Abstract

AIM

In spite of numerous biopharmaceutical applications of fifth-generation poly(propyleneimine) (PPI) dendrimers, inherent toxicity due to the presence of many peripheral cationic groups is the major issue that limits their applicability. Maximum biocompatibility with minimal toxicity is the key rationale for an ideal drug-delivery system. Keeping this principle in mind, the present investigation aimed to explore the tumor-targeting potential of folate-engineered fourth-generation PPI dendrimers loaded with an anticancer drug, melphalan.

MATERIALS & METHODS: Fourth-generation PPI as well as folate-conjugated fourth-generation PPI dendrimers were synthesized, characterized and loaded with melphalan.

RESULTS

Hemolytic toxicity, cytotoxicity, cellular uptake and fluorescence uptake studies reveal that the developed folate-conjugated derivative has significantly lower toxicity, as well as demonstrates folate receptor specificity.

DISCUSSION & CONCLUSION: The developed nanoconjugates appear to be proficient in carrying as well as site-specific delivery of melphalan, with an improved therapeutic margin and improved safety.

摘要

目的

尽管第五代聚（丙烯亚胺）（PPI）树枝状大分子有众多生物制药应用，但由于存在许多外围阳离子基团而产生的固有毒性是限制其适用性的主要问题。具有最小毒性的最大生物相容性是理想药物递送系统的关键原理。牢记这一原则，本研究旨在探索负载抗癌药物美法仑的叶酸工程化第四代PPI树枝状大分子的肿瘤靶向潜力。

材料与方法

合成、表征了第四代PPI以及叶酸共轭的第四代PPI树枝状大分子，并负载了美法仑。

结果

溶血毒性、细胞毒性、细胞摄取和荧光摄取研究表明，所开发的叶酸共轭衍生物具有显著更低的毒性，并表现出叶酸受体特异性。

讨论与结论

所开发的纳米共轭物似乎能够有效地携带并实现美法仑的位点特异性递送，具有更高的治疗指数和更高的安全性。

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第四代质子泵抑制剂树枝状聚合物作为癌症靶向载体的制剂开发及体内外评估

Formulation development and in vitro-in vivo assessment of the fourth-generation PPI dendrimer as a cancer-targeting vector.

作者信息

机构信息

出版信息

AIM

RESULTS

目的

材料与方法

结果

讨论与结论

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