Polydopamine modification of polydimethylsiloxane for multifunctional biomaterials: Immobilization and stability of albumin and fetuin-A on modified surfaces.

IF 1.6 4区 医学 Q4 BIOPHYSICS
Biointerphases Pub Date : 2023-11-01 DOI:10.1116/6.0003078
Jie Li, Leah N Barlow, Miguel Martinez Santos, Kyla N Sask
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引用次数: 0

Abstract

The surface of polydimethylsiloxane (PDMS) can be modified to immobilize proteins; however, most existing approaches are limited to complex reactions and achieving multifunctional modifications is challenging. This work applies a simple technique to modify PDMS using polydopamine (PDA) and investigates immobilization of multiple proteins. The surfaces were characterized in detail and stability was assessed, demonstrating that in a buffer solution, PDA modification was maintained without an effect on surface properties. Bovine serum albumin (BSA) and bovine fetuin-A (Fet-A) were used as model biomolecules for simultaneous or sequential immobilization and to understand their use for surface backfilling and functionalization. Based on 125I radiolabeling, amounts of BSA and Fet-A on PDA were determined to be close to double that were obtained on control PDMS surfaces. Following elution with sodium dodecyl sulfate, around 67% of BSA and 63% of Fet-A were retained on the surface. The amount of immobilized protein was influenced by the process (simultaneous or sequential) and surface affinity of the proteins. With simultaneous modification, a balanced level of both proteins could be achieved, whereas with the sequential process, the initially immobilized protein was more strongly attached. After incubation with plasma and fetal bovine serum, the PDA-modified surfaces maintained over 90% of the proteins immobilized. This demonstrates that the biological environments also play an important role in the binding and stability of conjugated proteins. This combination of PDA and surface immobilization methods provides fundamental knowledge for tailoring multifunctional PDMS-based biomaterials with applications in cell-material interactions, biosensing, and medical devices.

聚多巴胺改性聚二甲基硅氧烷用于多功能生物材料:白蛋白和胎盘素-A 在改性表面上的固定和稳定性。
聚二甲基硅氧烷(PDMS)的表面可以通过改性来固定蛋白质;然而,现有的大多数方法仅限于复杂的反应,实现多功能改性具有挑战性。本研究采用一种简单的技术,使用多巴胺(PDA)对 PDMS 进行改性,并研究了多种蛋白质的固定。对表面进行了详细表征,并对稳定性进行了评估,结果表明在缓冲溶液中,PDA 的改性可以保持,不会对表面特性产生影响。牛血清白蛋白(BSA)和牛胎素-A(Fet-A)被用作模型生物大分子,用于同时或连续固定,并了解它们在表面回填和功能化中的用途。根据 125I 放射性标记,确定 PDA 上 BSA 和 Fet-A 的含量接近对照 PDMS 表面含量的两倍。用十二烷基硫酸钠洗脱后,约 67% 的 BSA 和 63% 的 Fet-A 被保留在表面。固定蛋白质的数量受工艺(同时或连续)和蛋白质表面亲和力的影响。在同时改性过程中,两种蛋白质的含量可以达到平衡,而在连续改性过程中,最初固定的蛋白质附着力更强。经血浆和胎牛血清培养后,PDA 改性表面仍能保持 90% 以上的固定蛋白。这表明生物环境对共轭蛋白质的结合和稳定性也起着重要作用。PDA 与表面固定化方法的结合为定制基于 PDMS 的多功能生物材料提供了基础知识,这些材料可应用于细胞与材料的相互作用、生物传感和医疗设备。
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来源期刊
Biointerphases
Biointerphases 生物-材料科学:生物材料
自引率
0.00%
发文量
35
期刊介绍: Biointerphases emphasizes quantitative characterization of biomaterials and biological interfaces. As an interdisciplinary journal, a strong foundation of chemistry, physics, biology, engineering, theory, and/or modelling is incorporated into originated articles, reviews, and opinionated essays. In addition to regular submissions, the journal regularly features In Focus sections, targeted on specific topics and edited by experts in the field. Biointerphases is an international journal with excellence in scientific peer-review. Biointerphases is indexed in PubMed and the Science Citation Index (Clarivate Analytics). Accepted papers appear online immediately after proof processing and are uploaded to key citation sources daily. The journal is based on a mixed subscription and open-access model: Typically, authors can publish without any page charges but if the authors wish to publish open access, they can do so for a modest fee. Topics include: bio-surface modification nano-bio interface protein-surface interactions cell-surface interactions in vivo and in vitro systems biofilms / biofouling biosensors / biodiagnostics bio on a chip coatings interface spectroscopy biotribology / biorheology molecular recognition ambient diagnostic methods interface modelling adhesion phenomena.
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