Marcelina Abal-Sanisidro, Olaia Nieto-García, Cristina Cotelo Costoya, Maria de la Fuente
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引用次数: 0
摘要
蛋白质是众所周知的生物大分子,可以调节许多细胞信号机制。例如,蛋白质具有高特异性和高活性,非常适合用作治疗剂。然而,由于蛋白质存在折叠、不稳定和生物利用度低等问题,因此很难通过全身或其他途径给药。为了克服这些缺点,药物输送系统和纳米技术应运而生,它们能以持续的方式输送生物分子,同时提高剂量的可用性,在不影响蛋白质生物活性的情况下保护货物,并加强细胞内输送。在这项研究中,我们提出了优化鞘磷脂纳米系统(SNs)的方法,利用不同的化学关联策略来递送各种蛋白质(10-500 kDa,pI)。我们还通过各种分析方法进一步确定了 SN 的特征。我们还进行了体外实验,以验证所开发制剂的潜力。我们的最终目标是获得证据,证明 SNs 在开发蛋白质疗法方面的潜在用途。
Versatile and efficient protein association through chemically modified Sphingomyelin Nanosystems (SNs) for enhanced delivery
Proteins are biological macromolecules well known to regulate many cellular signaling mechanisms. For instance, they are very appealing for their application as therapeutic agents, presenting high specificity and activity. Nonetheless, they suffer from unfolding, instability and low bioavailability making their administration through systemic and other routes very tough. To overcome these drawbacks, drug delivery systems and nanotechnology have arisen to deliver biomolecules in a sustained manner while, at the same time, increasing dose availability, protecting the cargo without compromising proteins' bioactivity, and enhancing intracellular delivery. In this work, we proposed the optimization of sphingomyelin nanosystems (SNs) for the delivery of a wide collection of proteins (ranging from 10‐500 kDa and pI) using diverse chemical association strategies. We have further characterized SNs by varied analytical methodologies. We have also carried out in vitro experiments to validate the potential of the developed formulations. As the final goal, we aim to obtain evidence of the potential use of SNs for the development of protein therapeutics.
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