Mesoporous Silica Microparticle-Protein Complexes: Effects of Protein Size and Solvent Properties on Diffusion and Loading Efficiency.

IF 2.7 4区 医学 Q2 MEDICAL LABORATORY TECHNOLOGY
British Journal of Biomedical Science Pub Date : 2024-10-09 eCollection Date: 2024-01-01 DOI:10.3389/bjbs.2024.13595
Mohamad Anas Al Tahan, Kyprianos Michaelides, Smith Somasekharan Nair, Shouq AlShatti, Craig Russell, Ali Al-Khattawi
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引用次数: 0

Abstract

Oral administration of protein-based therapeutics is highly desirable due to lower cost, enhanced patient compliance, and convenience. However, the harsh pH environment of the gastrointestinal tract poses significant challenges. Silica-based carriers have emerged as potential candidates for the delivery of protein molecules, owing to their tuneable surface area and pore volume. We explored the use of a commercial mesoporous silica carrier, SYLOID, for the delivery of octreotide and bovine serum albumin (BSA) using a solvent evaporation method in three different solvents. The loading of proteins into SYLOID was driven by diffusion, as described by the Stokes-Einstein equation. Various parameters were investigated, such as protein size, diffusion, and solubility. Additionally, 3D fluorescence confocal imaging was employed to identify fluorescence intensity and protein diffusion within the carrier. Our results indicated that the loading process was influenced by the molecular size of the protein as octreotide exhibited a higher recovery rate (71%) compared to BSA (32%). The methanol-based loading of octreotide showed uniform diffusion into the silica carrier, whereas water and ethanol loading resulted in the drug being concentrated on the surface, as shown by confocal imaging, and further confirmed by scanning electron microscopy (SEM). Pore volume assessment supported these findings, showing that octreotide loaded with methanol had a low pore volume (1.2 cc/g). On the other hand, BSA loading was affected by its solubility in the three solvents, its tendency to aggregate, and its low solubility in ethanol and methanol, which resulted in dispersed particle sizes of 223 and 231 μm, respectively. This reduced diffusion into the carrier, as confirmed by fluorescence intensity and diffusivity values. This study underscores the importance of protein size, solvent properties, and diffusion characteristics when using porous carriers for protein delivery. Understanding these factors allows for the development of more effective oral protein-based therapeutics by enhancing loading efficiency. This, in turn, will lead to advances in targeted drug delivery and improved patient outcomes.

介孔二氧化硅微颗粒-蛋白质复合物:蛋白质大小和溶剂性质对扩散和负载效率的影响
由于成本较低、患者依从性更强、使用更方便,口服蛋白类治疗药物非常受欢迎。然而,胃肠道苛刻的 pH 值环境带来了巨大挑战。二氧化硅基载体因其可调节的表面积和孔隙体积,已成为输送蛋白质分子的潜在候选材料。我们探索了在三种不同溶剂中使用溶剂蒸发法将商用介孔二氧化硅载体 SYLOID 用于递送奥曲肽和牛血清白蛋白(BSA)。根据斯托克斯-爱因斯坦方程的描述,蛋白质在 SYLOID 中的负载是由扩散驱动的。研究了各种参数,如蛋白质大小、扩散和溶解度。此外,还采用了三维荧光共聚焦成像技术来确定载体内的荧光强度和蛋白质扩散情况。我们的研究结果表明,装载过程受蛋白质分子大小的影响,因为与 BSA(32%)相比,奥曲肽的回收率更高(71%)。共聚焦成像显示,以甲醇为载体的奥曲肽在硅载体中均匀扩散,而水和乙醇载体则导致药物集中在表面,扫描电子显微镜(SEM)进一步证实了这一点。孔隙体积评估证实了这些发现,显示负载甲醇的奥曲肽孔隙体积较小(1.2 cc/g)。另一方面,BSA 的负载量受其在三种溶剂中的溶解度、聚集倾向以及在乙醇和甲醇中的低溶解度的影响,导致分散粒径分别为 223 微米和 231 微米。荧光强度和扩散值证实,这减少了向载体的扩散。这项研究强调了使用多孔载体输送蛋白质时蛋白质大小、溶剂性质和扩散特性的重要性。了解了这些因素,就能通过提高负载效率,开发出更有效的口服蛋白治疗药物。这反过来又会促进靶向给药的发展,改善患者的治疗效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
British Journal of Biomedical Science
British Journal of Biomedical Science 医学-医学实验技术
CiteScore
4.40
自引率
15.80%
发文量
29
审稿时长
>12 weeks
期刊介绍: The British Journal of Biomedical Science is committed to publishing high quality original research that represents a clear advance in the practice of biomedical science, and reviews that summarise recent advances in the field of biomedical science. The overall aim of the Journal is to provide a platform for the dissemination of new and innovative information on the diagnosis and management of disease that is valuable to the practicing laboratory scientist.
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