Immunocamouflage of latex surfaces by grafted methoxypoly(ethylene glycol) (mPEG): Proteomic analysis of plasma protein adsorption

Yevgeniya Le; Li Li; DunCheng Wang; Mark D. Scott

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Immunocamouflage of latex surfaces by grafted methoxypoly(ethylene glycol) (mPEG): Proteomic analysis of plasma protein adsorption

机译：接枝的甲氧基聚（乙二醇）（mPEG）对乳胶表面的免疫伪装：血浆蛋白吸附的蛋白质组学分析

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Grafting of methoxypoly(ethylene glycol) (mPEG) to cells and biomaterials is a promising non-pharmacological immunomodulation technology. However, due to the labile nature of cells, surface-plasma interactions are poorly understood; hence, a latex bead model was studied. PEGylation of beads resulted in a density and molecular weight dependent decrease in total adsorbed protein with a net reduction from (159.9±6.4) ng cm^{?2 on bare latex to (18.4±0.8) and (52.3±5.3) ng cm^{?2 on PEGylated beads (1 mmol L^{?1 of 2 or 20 kD SCmPEG, respectively). SDS-PAGE and iTRAQ-MS analysis revealed differential compositions of the adsorbed protein layer on the PEGylated latex with a significant reduction in the compositional abundance of proteins involved in immune system activation. Thus, the biological efficacy of immunocamouflaged cells and materials is mediated by both biophysical obfuscation of antigens and reduced surface-macromolecule interactions.}}}

机译：甲氧基聚乙二醇（mPEG）接枝到细胞和生物材料是一种很有前途的非药物免疫调节技术。然而，由于细胞的不稳定特性，人们很少了解表面-血浆相互作用。因此，研究了乳胶珠模型。珠的聚乙二醇化导致总吸附蛋白的密度和分子量依赖性降低，从裸乳胶的净减少从（159.9±6.4）ng cm ^{？2 降至（18.4±0.8）和（52.3±5.3）ng cm ^{？2 （1 mmol L ^{分别为2或20 kD SCmPEG的？1 。 SDS-PAGE和iTRAQ-MS分析表明，聚乙二醇化胶乳上吸附的蛋白质层组成不同，免疫系统激活所涉及的蛋白质组成丰度大大降低。因此，通过抗原的生物物理混淆和减少的表面-大分子相互作用，介导了免疫隐蔽的细胞和材料的生物学功效。}}}

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《Science China Life Sciences》 |2012年第3期|共11页
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Yevgeniya Le; Li Li; DunCheng Wang; Mark D. Scott;
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入库时间 2022-08-18 13:32:34

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1. Immunocamouflage: the biophysical basis of immunoprotection by grafted methoxypoly(ethylene glycol) (mPEG). [J] . Le Y, Scott MD Acta biomaterialia . 2010,第7期

机译：免疫伪装：通过接枝的甲氧基聚（乙二醇）（mPEG）进行免疫保护的生物物理基础。
2. Plasma proteins adsorption mechanism on polyethylene-grafted poly(ethylene glycol) surface by quartz crystal microbalance with dissipation [J] . Jin J., Jiang W., Yin J., Langmuir: The ACS Journal of Surfaces and Colloids . 2013,第22期

机译：耗散石英晶体微天平在聚乙烯接枝聚乙二醇表面吸附血浆蛋白的机理
3. Plasma-Induced Graft Polymerization of Poly(ethylene glycol) Methyl Ether Methacrylate on Si(100) Surfaces for Reduction in Protein Adsorption and Platelet Adhesion [J] . X. P. Zou, E. T. Kang, K. G. Neoh Plasmas and polymers . 2002,第2期

机译：Si（100）表面等离子体诱导的聚乙二醇甲基丙烯酸甲酯的接枝聚合反应，以减少蛋白质的吸附和血小板的粘附
4. Surface Modification of Chitosan Films-Grafting Ethylene Glycol Oligomer and Its Effect on Protein Adsorption [C] . Wimonsiri Amornchai, Vipavee P. Hoven, Varawut Tangpasuthadol, Pacific Polymer Conference . 2004

机译：壳聚糖薄膜 - 嫁接乙二醇低聚物的表面改性及其对蛋白质吸附的影响
5. Protein adsorption on tailored oligo(ethylene glycol) surfaces. [D] . Griffin, Vesta Leigh. 2006

机译：蛋白质吸附在定制的低聚（乙二醇）表面上。
6. The surface density gradient of grafted poly (ethylene glycol): preparation characterization and protein adsorption [O] . Y.S. Lin, V. Hlady, C.-G. Gölander -1

机译：接枝聚乙二醇的表面密度梯度：制备表征和蛋白质吸附
7. Immunocamouflage of latex surfaces by grafted methoxypoly(ethylene glycol) (mPEG): Proteomic analysis of plasma protein adsorption [O] . Yevgeniya Le, Li Li, DunCheng Wang, 2012

机译：接枝的甲氧基聚（乙二醇）（mPEG）对乳胶表面的免疫伪装：血浆蛋白吸附的蛋白质组学分析

Immunocamouflage of latex surfaces by grafted methoxypoly(ethylene glycol) (mPEG): Proteomic analysis of plasma protein adsorption

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