Multifunctional magneto-plasmonic lipogel based on peptide hydrogel for application in combined cancer therapy.

IF 1.8 4区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Valéria Gomes, Sérgio R S Veloso, André Carvalho, Loic Hilliou, Paulo J G Coutinho, Cacilda Moura, José A Martins, Elisabete M S Castanheira, Paula M T Ferreira
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Abstract

Supramolecular hydrogels, particularly low-molecular-weight peptide hydrogels, are promising drug delivery systems due to their ability to change the solubility, targeting, metabolism and toxicity of drugs. Magneto-plasmonic liposomes, in addition to being remotely controllable with the application of an external magnetic field, also increase the efficiency of encapsulated drug release through thermal stimulation, for example, with magnetic and optical hyperthermia. Thus, the combination of those two materials-giving magneto-plasmonic lipogels-brings together several functionalities, among which are hyperthermia and spatiotemporally controlled drug delivery. In this work, a novel dehydrodipeptide hydrogelator was synthesised, and the respective hydrogel was functionalized with magneto-plasmonic liposomes. After individually characterising the components with regard to their rheological, spectroscopic and magnetic properties, the magneto-plasmonic lipogel was equally characterised and evaluated concerning its ability to deliver drugs in a controlled fashion. To this end, the response of the 5(6)-carboxyfluorescein-loaded magneto-plasmonic lipogel to near-infrared light was assessed. The results showed that the system is a proper carrier of hydrophilic drugs and allows to envisage photo-responsive drug delivery. These facts, together with the magnetic guidance and hyperthermia capabilities of the developed composite gel, may pave the way to a new era in the treatment of cancer and other diseases.

Abstract Image

基于多肽水凝胶的多功能磁-等离子脂凝胶在癌症综合治疗中的应用。
超分子水凝胶,特别是低分子量肽水凝胶,由于能够改变药物的溶解度、靶向性、新陈代谢和毒性,因此是一种前景广阔的给药系统。磁塑脂质体除了可以通过施加外部磁场进行远程控制外,还可以通过热刺激(如磁热和光热)提高封装药物的释放效率。因此,这两种材料的结合--磁致质子脂凝胶--将多种功能结合在一起,其中包括热疗和时空控制给药。在这项工作中,合成了一种新型脱氢二肽水凝胶,并用磁质子脂质体对相应的水凝胶进行了功能化。在对各成分的流变学、光谱学和磁学特性进行单独表征后,对磁质子脂凝胶进行了同样的表征,并评估了它以受控方式递送药物的能力。为此,我们评估了负载 5(6)- 羧基荧光素的磁致共振脂凝胶对近红外光的反应。结果表明,该系统是亲水性药物的理想载体,可以实现光反应给药。这些事实,加上所开发的复合凝胶的磁导向和热疗功能,可能会为治疗癌症和其他疾病的新时代铺平道路。
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来源期刊
Journal of Peptide Science
Journal of Peptide Science 生物-分析化学
CiteScore
3.40
自引率
4.80%
发文量
83
审稿时长
1.7 months
期刊介绍: The official Journal of the European Peptide Society EPS The Journal of Peptide Science is a cooperative venture of John Wiley & Sons, Ltd and the European Peptide Society, undertaken for the advancement of international peptide science by the publication of original research results and reviews. The Journal of Peptide Science publishes three types of articles: Research Articles, Rapid Communications and Reviews. The scope of the Journal embraces the whole range of peptide chemistry and biology: the isolation, characterisation, synthesis properties (chemical, physical, conformational, pharmacological, endocrine and immunological) and applications of natural peptides; studies of their analogues, including peptidomimetics; peptide antibiotics and other peptide-derived complex natural products; peptide and peptide-related drug design and development; peptide materials and nanomaterials science; combinatorial peptide research; the chemical synthesis of proteins; and methodological advances in all these areas. The spectrum of interests is well illustrated by the published proceedings of the regular international Symposia of the European, American, Japanese, Australian, Chinese and Indian Peptide Societies.
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