透明质酸/壳聚糖多层膜对肿瘤细胞捕获的表面特性控制

Giulia Grassa Lima, J. R. Rocha Neto, H. F. Carvalho, M. Beppu
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引用次数: 3

摘要

前列腺癌(PCa)是一种生长缓慢的肿瘤,如果在早期阶段被诊断出来,治愈的机会很大。在肿瘤发展初期,现有的诊断方法无法达到预期的准确性,因此有必要开发或改进现有的前列腺癌检测方法和预后标志物。在这种情况下,透明质酸(HA)和壳聚糖(CHI)组成的膜显示了前列腺肿瘤细胞(PC3系)的显著捕获潜力,探索了HA作为CD44受体配体和细胞膜粘附的直接介质。在这里,我们提出了一种基于膜组装条件来控制HA/CHI膜的结构和细胞粘附性能的策略。在控制pH值(3.0和5.0)和双层膜数量(3.5、10.5和20.5)的条件下,通过逐层沉积(LbL)法制备薄膜。利用轮廓法、紫外-可见(UV-VIS)、原子力显微镜(AFM)和接触角测量对这些薄膜进行了表征。pH为3.0时制备的多层HA/CHI膜具有最佳的表面润湿性和游离羧基的可用性。反过来,在pH 5.0时,覆盖层更薄,表面更光滑。无论pH值如何,3.5双分子层制备的膜都表现出更大的肿瘤细胞捕获,而10.5和20.5双分子层制备的膜则表现出明显的肿胀过程,损害了其细胞粘附潜力。这项研究表明,表面化学和形态是开发用于多种细胞粘附应用的生物材料的关键因素,如快速诊断、细胞信号传导和生物传感机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Control of Surface Properties of Hyaluronan/Chitosan Multilayered Coatings for Tumor Cell Capture
Prostate cancer (PCa) is a slow-growing neoplasm that has, when diagnosed in its early stages, great chances of cure. During initial tumor development, current diagnostic methods fail to have the desired accuracy, thus, it is necessary to develop or improve current detection methods and prognostic markers for PCa. In this scenario, films composed of hyaluronic acid (HA) and chitosan (CHI) have demonstrated significant capture potential of prostate tumor cells (PC3 line), exploring HA as a CD44 receptor ligand and direct mediator in cell-film adhesion. Here, we present a strategy to control structural and cell adhesion properties of HA/CHI films based on film assembly conditions. Films were built via Layer-by-layer (LbL) deposition, where the pH conditions (3.0 and 5.0) and number of bilayers (3.5, 10.5, and 20.5) were controlled. The characterization of these films was carried out using profilometry, ultraviolet-visible (UV-VIS), atomic force microscopy (AFM) and contact angle measurements. Multilayer HA/CHI films produced at pH 3.0 gave optimum surface wettability and availability of free carboxyl groups. In turn, at pH 5.0, the coverings were thinner and presented a smoother surface. Films prepared with 3.5 bilayers showed greater tumor cell capture regardless of the pH condition, while films containing 10.5 and 20.5 bilayers presented a significant swelling process, which compromised their cell adhesion potential. This study shows that surface chemistry and morphology are critical factors for the development of biomaterials designed for several cell adhesion applications, such as rapid diagnostic, cell signaling, and biosensing mechanisms.
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