特定官能团的流动性受限会降低抗癌药物在健康细胞中的活性。

Restricted mobility of specific functional groups reduces anti-cancer drug activity in healthy cells.

作者信息

Martins Murillo L, Ignazzi Rosanna, Eckert Juergen, Watts Benjamin, Kaneno Ramon, Zambuzzi Willian F, Daemen Luke, Saeki Margarida J, Bordallo Heloisa N

机构信息

Niels Bohr Institute, University of Copenhagen, DK-2100 Copenhagen, Denmark.

Instituto de Biociências - Universidade Estadual Paulista - CP 510, 18618-970 Botucatu-SP, Brazil.

出版信息

Sci Rep. 2016 Mar 2;6:22478. doi: 10.1038/srep22478.

DOI:10.1038/srep22478

PMID:26932808

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4773877/

Abstract

The most common cancer treatments currently available are radio- and chemo-therapy. These therapies have, however, drawbacks, such as, the reduction in quality of life and the low efficiency of radiotherapy in cases of multiple metastases. To lessen these effects, we have encapsulated an anti-cancer drug into a biocompatible matrix. In-vitro assays indicate that this bio-nanocomposite is able to interact and cause morphological changes in cancer cells. Meanwhile, no alterations were observed in monocytes and fibroblasts, indicating that this system might carry the drug in living organisms with reduced clearance rate and toxicity. X-rays and neutrons were used to investigate the carrier structure, as well as to assess the drug mobility within the bio-nanocomposite. From these unique data we show that partial mobility restriction of active groups of the drug molecule suggests why this carrier design is potentially safer to healthy cells.

摘要

目前可用的最常见癌症治疗方法是放射疗法和化学疗法。然而，这些疗法存在缺点，例如生活质量下降以及在多发转移病例中放射治疗效率低下。为了减轻这些影响，我们将一种抗癌药物封装在生物相容性基质中。体外试验表明，这种生物纳米复合材料能够与癌细胞相互作用并引起其形态变化。同时，在单核细胞和成纤维细胞中未观察到变化，这表明该系统可能在活生物体中携带药物，清除率和毒性降低。使用X射线和中子来研究载体结构，以及评估药物在生物纳米复合材料中的迁移率。从这些独特的数据中我们表明，药物分子活性基团的部分迁移限制表明了为什么这种载体设计对健康细胞可能更安全。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c79/4773877/a290ed22a255/srep22478-f1.jpg

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特定官能团的流动性受限会降低抗癌药物在健康细胞中的活性。

Restricted mobility of specific functional groups reduces anti-cancer drug activity in healthy cells.

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