Changhai Wang, Ziyi Dong, Qing Zhang, Mingxue Guo, Wenjun Hu, Shuang Dong, Tangthianchaichana Jakkree, Yang Lu, Shouying Du
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The effect of haemolysis and tumour inhibition were investigated by in vitro haemolysis assay and cytotoxicity assay. The cell uptake under different pH conditions was investigated by flow cytometry, and the effect of pH on tumour cell selectivity was evaluated. In order to evaluate the in vivo targeting and antitumour effect of Der-loaded-pHSL, the in vivo distribution experiment and the pharmacodynamic experiment were performed using the nude mouse tumour model.</p>\n </section>\n \n <section>\n \n <h3> Results</h3>\n \n <p>The preparation method of the Der-loaded-pHSL is simple, and the liposome has good nanoparticle characteristics. When Dermaseptin-PP was prepared as liposome, haemolysis was significantly decreased, and tumour cell inhibition was significantly enhanced. Compared with ordinary liposomes, this change was more significant in Der-loaded-pHSL. The uptake of pH-sensitive liposomes was higher in the simulated acidic tumour microenvironment, and the uptake showed a specific acid dependence. In vivo experiments showed that Der-loaded-pHSL had a significant tumour-targeting effect and could significantly enhance the antitumour effect of Dermaseptin-PP.</p>\n </section>\n \n <section>\n \n <h3> Conclusion</h3>\n \n <p>Der-loaded-pHSL designed in this study is a liposome with a quick, simple, effective preparation method, which can significantly reduce the haemolytic toxicity of Dermaseptin-PP and enhance its antitumour effect by increasing the tumour accumulation and cell intake. It provides a new idea for applying Dermaseptin-PP and other anticancer peptides with α-helical structure.</p>\n </section>\n </div>","PeriodicalId":13393,"journal":{"name":"IET nanobiotechnology","volume":"17 4","pages":"352-359"},"PeriodicalIF":3.8000,"publicationDate":"2023-04-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://ftp.ncbi.nlm.nih.gov/pub/pmc/oa_pdf/52/fd/NBT2-17-352.PMC10288360.pdf","citationCount":"0","resultStr":"{\"title\":\"Stimulus-responsive nano lipidosome for enhancing the anti-tumour effect of a novel peptide Dermaseptin-PP\",\"authors\":\"Changhai Wang, Ziyi Dong, Qing Zhang, Mingxue Guo, Wenjun Hu, Shuang Dong, Tangthianchaichana Jakkree, Yang Lu, Shouying Du\",\"doi\":\"10.1049/nbt2.12128\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div>\\n \\n \\n <section>\\n \\n <h3> Objective</h3>\\n \\n <p>Dermaseptin-PP is a newly discovered anticancer peptide with a unique antitumour mechanism and remarkable effect. 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Stimulus-responsive nano lipidosome for enhancing the anti-tumour effect of a novel peptide Dermaseptin-PP
Objective
Dermaseptin-PP is a newly discovered anticancer peptide with a unique antitumour mechanism and remarkable effect. However, this α-helix anticancer peptide risks haemolysis when used at high doses, which limits its further application. This study aims to prepare a pH-responsive liposome, Der-loaded-pHSL, using nanotechnology to avoid the haemolysis risk of Dermaseptin-PP and increase its accumulation in tumour sites to enhance efficacy and reduce toxicity.
Methods
The characterisation of Der-loaded-pHSL was carried out employing preparation. The effect of haemolysis and tumour inhibition were investigated by in vitro haemolysis assay and cytotoxicity assay. The cell uptake under different pH conditions was investigated by flow cytometry, and the effect of pH on tumour cell selectivity was evaluated. In order to evaluate the in vivo targeting and antitumour effect of Der-loaded-pHSL, the in vivo distribution experiment and the pharmacodynamic experiment were performed using the nude mouse tumour model.
Results
The preparation method of the Der-loaded-pHSL is simple, and the liposome has good nanoparticle characteristics. When Dermaseptin-PP was prepared as liposome, haemolysis was significantly decreased, and tumour cell inhibition was significantly enhanced. Compared with ordinary liposomes, this change was more significant in Der-loaded-pHSL. The uptake of pH-sensitive liposomes was higher in the simulated acidic tumour microenvironment, and the uptake showed a specific acid dependence. In vivo experiments showed that Der-loaded-pHSL had a significant tumour-targeting effect and could significantly enhance the antitumour effect of Dermaseptin-PP.
Conclusion
Der-loaded-pHSL designed in this study is a liposome with a quick, simple, effective preparation method, which can significantly reduce the haemolytic toxicity of Dermaseptin-PP and enhance its antitumour effect by increasing the tumour accumulation and cell intake. It provides a new idea for applying Dermaseptin-PP and other anticancer peptides with α-helical structure.
期刊介绍:
Electrical and electronic engineers have a long and illustrious history of contributing new theories and technologies to the biomedical sciences. This includes the cable theory for understanding the transmission of electrical signals in nerve axons and muscle fibres; dielectric techniques that advanced the understanding of cell membrane structures and membrane ion channels; electron and atomic force microscopy for investigating cells at the molecular level.
Other engineering disciplines, along with contributions from the biological, chemical, materials and physical sciences, continue to provide groundbreaking contributions to this subject at the molecular and submolecular level. Our subject now extends from single molecule measurements using scanning probe techniques, through to interactions between cells and microstructures, micro- and nano-fluidics, and aspects of lab-on-chip technologies. The primary aim of IET Nanobiotechnology is to provide a vital resource for academic and industrial researchers operating in this exciting cross-disciplinary activity. We can only achieve this by publishing cutting edge research papers and expert review articles from the international engineering and scientific community. To attract such contributions we will exercise a commitment to our authors by ensuring that their manuscripts receive rapid constructive peer opinions and feedback across interdisciplinary boundaries.
IET Nanobiotechnology covers all aspects of research and emerging technologies including, but not limited to:
Fundamental theories and concepts applied to biomedical-related devices and methods at the micro- and nano-scale (including methods that employ electrokinetic, electrohydrodynamic, and optical trapping techniques)
Micromachining and microfabrication tools and techniques applied to the top-down approach to nanobiotechnology
Nanomachining and nanofabrication tools and techniques directed towards biomedical and biotechnological applications (e.g. applications of atomic force microscopy, scanning probe microscopy and related tools)
Colloid chemistry applied to nanobiotechnology (e.g. cosmetics, suntan lotions, bio-active nanoparticles)
Biosynthesis (also known as green synthesis) of nanoparticles; to be considered for publication, research papers in this area must be directed principally towards biomedical research and especially if they encompass in vivo models or proofs of concept. We welcome papers that are application-orientated or offer new concepts of substantial biomedical importance
Techniques for probing cell physiology, cell adhesion sites and cell-cell communication
Molecular self-assembly, including concepts of supramolecular chemistry, molecular recognition, and DNA nanotechnology
Societal issues such as health and the environment
Special issues. Call for papers:
Smart Nanobiosensors for Next-generation Biomedical Applications - https://digital-library.theiet.org/files/IET_NBT_CFP_SNNBA.pdf
Selected extended papers from the International conference of the 19th Asian BioCeramic Symposium - https://digital-library.theiet.org/files/IET_NBT_CFP_ABS.pdf
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