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Journal of Materials Science

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09-11-2018 | Materials for life sciences

Origin of efficiency enhancement in cell capture on nanostructured arrays

Authors: Jing Zhou, Yu Xiong, Zechun Dang, Jinqi Li, Xinlei Li, Yuhua Yang, Tongsheng Chen

Published in: Journal of Materials Science | Issue 5/2019

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Abstract

Nanomaterials with nanopatterned surface are emerging as promising biomaterials for probing and manipulating cells. In recent years, numerous experimental explorations of cell captured on nanopatterned surfaces have been developed. However, the effects of topographies of nanopatterned surfaces on the ability to capture cells are not yet well understood. Here, we explain the effects of topographies on cell capture by establishing a thermodynamic model. Our theoretical results reveal that underlying physical mechanism of cell captured on topographical surfaces which clarifies the ability of cell capture is determined by the comparison of adhesion energy and deformation energy of cell membrane. According to the calculated results, the phase diagrams of the ability to capture cells on nanostructures (e.g., nanoparticles and nanowires) have been constructed, which can clarify the interrelated effects between the ability to capture cells and surfaced topographies of nanostructures. From the phase, we can predict the ability to capture cells on different topographical surfaces. Meanwhile, the predictive power of the theoretical model is confirmed by our experiments. On the other hand, the predictive results of theoretical model are in good agreement with cases from the studies.

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Karuri NW, Porri TJ, Albrecht RM, Murphy CJ, Nealey PF (2006) Nano- and microscale holes modulate cell-substrate adhesion, cytoskeletal organization, and -beta 1 integrin localization in SV40 human corneal epithelial cells. IEEE Trans Nanobiosci 5(4):273–280CrossRef

Dalby MJ, Gadegaard N, Tare R, Andar A, Riehle MO, Herzyk P, Wilkinson CD, Oreffo RO (2007) The control of human mesenchymal cell differentiation using nanoscale symmetry and disorder. Nat Mater 6(12):997–1003CrossRef

McMurray RJ, Gadegaard N, Tsimbouri PM, Burgess KV, McNamara LE, Tare R, Murawski K, Kingham E, Oreffo RO, Dalby MJ (2011) Nanoscale surfaces for the long-term maintenance of mesenchymal stem cell phenotype and multipotency. Nat Mater 10(8):637–644CrossRef

Discher DE, Janmey P, Wang YL (2005) Tissue cells feel and respond to the stiffness of their substrate. Science 310(5751):1139–1143CrossRef

Engler AJ, Sen S, Sweeney HL, Discher DE (2006) Matrix elasticity directs stem cell lineage specification. Cell 126(4):677–689CrossRef

Keselowsky BG, Collard DM, Garcia AJ (2004) Surface chemistry modulates focal adhesion composition and signaling through changes in integrin binding. Biomaterials 25(28):5947–5954CrossRef

Massignani M, LoPresti C, Blanazs A, Madsen J, Armes SP, Lewis AL, Battaglia G (2009) Controlling cellular uptake by surface chemistry, size, and surface topology at the nanoscale. Small 5(21):2424–2432CrossRef

Jeon H, Schmidt R, Barton JE, Hwang DJ, Gamble LJ, Castner DG, Grigoropoulos CP, Healy KE (2011) Chemical patterning of ultrathin polymer films by direct-write multiphoton lithography. J Am Chem Soc 133(16):6138–6141CrossRef

Charest JL, Eliason MT, Garcia AJ, King WP (2006) Combined microscale mechanical topography and chemical patterns on polymer cell culture substrates. Biomaterials 27(11):2487–2494CrossRef

10.

Saux GL, Magenau A, Bocking T, Gaus K, Gooding JJ (2011) The relative importance of topography and RGD ligand density for endothelial cell adhesion. PLoS ONE 6(7):e21869CrossRef

11.

Ouyang G, Yang GW, Sun C, Zhu W (2008) Nanoporous structures: smaller is stronger. Small 4(9):1359–1362CrossRef

12.

Ouyang G, Wang CX, Yang GW (2009) Surface energy of nanostructural materials with negative curvature and related size effects. Chem Rev 109:4221–4247CrossRef

13.

Yoon HJ, Kim TH, Zhang Z, Azizi E, Pham TM, Paoletti C, Lin J, Ramnath N, Wicha MS, Hayes DF, Simeone DM, Nagrath S (2013) Sensitive capture of circulating tumour cells by functionalized graphene oxide nanosheets. Nat Nanotechnol 8(10):735–741CrossRef

14.

Lou HY, Zhao W, Hanson L, Zeng C, Cui Y, Cui B (2017) Dual-functional lipid coating for the nanopillar-based capture of circulating tumor cells with high purity and efficiency. Langmuir 33(4):1097–1104CrossRef

15.

Hasan J, Jain S, Chatterjee K (2017) Nanoscale topography on black titanium imparts multi-biofunctional properties for orthopedic applications. Sci Rep 7:41118CrossRef

16.

Cao Y, Su B, Chinnaraj S, Jana S, Bowen L, Charlton S, Duan P, Jakubovics NS, Chen J (2018) Nanostructured titanium surfaces exhibit recalcitrance towards Staphylococcus epidermidis biofilm formation. Sci Rep 8(1):1071CrossRef

17.

Zamani M, Rostami M, Aghajanzadeh M, Manjili HK, Rostamizadeh K, Danafar H (2017) Mesoporous titanium dioxide@ zinc oxide–graphene oxide nanocarriers for colon-specific drug delivery. J Mater Sci 53(3):1634–1645. https://doi.org/10.1007/s10853-017-1673-6 CrossRef

18.

Chen ZZ, Atchison L, Ji HY, Leong KW (2014) Nanograting structure promotes lamellipodia-based cell collective migration and wound healing. IEEE Eng Med Biol Mag 2014:2916–2919

19.

Tonazzini I, Jacchetti E, Meucci S, Beltram F, Cecchini M (2015) Schwann cell contact guidance versus boundary-interaction in functional wound healing along nano and microstructured membranes. Adv Healthc Mater 4(12):1849–1860CrossRef

20.

Curtis ASG, Gadegaard N, Dalby MJ, Riehle MO, Wilkinson CDW, Aitchison G (2004) Cells react to nanoscale order and symmetry in their surroundings. IEEE Trans Nanobiosci 3(1):61–65CrossRef

21.

Park J, Bauer S, Schlegel KA, Neukam FW, Mark KVD, Schmuki P (2009) TiO₂ nanotube surfaces: 15 nm—an optimal length scale of surface topography for cell adhesion and differentiation. Small 5(6):666–671CrossRef

22.

Melnichuk I, Choukourov A, Bilek M, Weiss A, Vandrovcová M, Bačáková L, Hanuš J, Kousal J, Shelemin A, Solař P, Slavínská D, Biederman H (2015) Direct covalent coupling of proteins to nanostructured plasma polymers: a route to tunable cell adhesion. Appl Surf Sci 351:537–545CrossRef

23.

Jeon H, Koo S, Reese WM, Loskill P, Grigoropoulos CP, Healy KE (2015) Directing cell migration and organization via nanocrater-patterned cell-repellent interfaces. Nat Mater 14(9):918–923CrossRef

24.

Park J, Kim DH, Kim HN, Wang CJ, Kwak MK, Hur E, Suh KY, An SS, Levchenko A (2016) Directed migration of cancer cells guided by the graded texture of the underlying matrix. Nat Mater 15(7):792–801CrossRef

25.

Richert L, Vetrone F, Yi JH, Zalzal SF, Wuest JD, Rosei F, Nanci A (2008) Surface nanopatterning to control cell growth. Adv Mater 20(8):1488–1492CrossRef

26.

Huang Q, Li X, Liu T, Wu H, Liu X, Feng Q, Liu Y (2018) Enhanced SaOS-2 cell adhesion, proliferation and differentiation on Mg-incorporated micro/nano-topographical TiO₂ coatings. Appl Surf Sci 447:767–776CrossRef

27.

Bonde S, Buch-Manson N, Rostgaard KR, Andersen TK, Berthing T, Martinez KL (2014) Exploring arrays of vertical one-dimensional nanostructures for cellular investigations. Nanotechnology 25(36):362001CrossRef

28.

Wang S, Wan Y, Liu Y (2014) Effects of nanopillar array diameter and spacing on cancer cell capture and cell behaviors. Nanoscale 6(21):12482–12489CrossRef

29.

Myung JH, Gajjar KA, Saric J, Eddington DT, Hong S (2011) Dendrimer-mediated multivalent binding for the enhanced capture of tumor cells. Angew Chem Int Ed Engl 50(49):11769–11772CrossRef

30.

Lee SK, Kim GS, Wu Y, Kim DJ, Lu Y, Kwak M, Han L, Hyung JH, Seol JK, Sander C, Gonzalez A, Li J, Fan R (2012) Nanowire substrate-based laser scanning cytometry for quantitation of circulating tumor cells. Nano Lett 12(6):2697–2704CrossRef

31.

Sekine J, Luo SC, Wang S, Zhu B, Tseng HR, Yu HH (2011) Functionalized conducting polymer nanodots for enhanced cell capturing: the synergistic effect of capture agents and nanostructures. Adv Mater 23(41):4788–4792CrossRef

32.

Shi L, Wang K, Yang Y (2016) Adhesion-based tumor cell capture using nanotopography. Colloid Surf B 147:291–299CrossRef

33.

Helfrich W, Naturforsch Z (1973) Elastic properties of lipid bilayers theory and possible experiments. Biochem Biophys Biol Virol 28:693–703

34.

Li XL, Chen TS (2016) Enhancement and suppression effects of a nanopatterned surface on bacterial adhesion. Phys Rev E 93(5):052419CrossRef

35.

Mirigian S, Muthukumar M (2013) Kinetics of particle wrapping by a vesicle. J Chem Phys 139(4):044908CrossRef

36.

Wang JF, Muthukumarb M (2011) Encapsulation of a polyelectrolyte chain by an oppositely charged spherical surface. J Chem Phys 135:194901CrossRef

37.

Marsh D (2006) Elastic curvature constants of lipid monolayers and bilayers. Chem Phys Lipids 144(2):146–159CrossRef

38.

Cheng B, Song H, Wang S, Zhang C, Wu B, Chen Y, Chen F, Xiong B (2014) Quantification of rare cancer cells in patients with gastrointestinal cancer by nanostructured substrate. Transl Oncol 7(6):720–725CrossRef

39.

Chen WQ, Weng SN, Zhang F, Allen S, Li X, Bao LW, Lam Raymond HW, Macoska JA, Merajver SD, Fu JP (2013) Nanoroughened surfaces for efficient capture of circulating tumor cells without using capture antibodies. ACS Nano 7(1):566–575CrossRef

40.

Yang YH, Li ZY, Wang B, Wang CX, Chen DH, Yang GW (2005) Self-assembled ZnO agave-like nanowires and anomalous superhydrophobicity. J Phys Condens Matter 17(35):5441–5446CrossRef

41.

Yang YH, Wang CX, Wang B, Li ZY, Chen J, Chen DH, Xu NS, Yang GW, Xu JB (2005) Radial ZnO nanowire nucleation on amorphous carbons. Appl Phys Lett 87(18):183109CrossRef

42.

Wang ST, Wang H, Jiao J, Chen KJ, Owens GE, Kamei K, Sun J, Sherman DJ, Behrenbruch CP, Wu H, Tseng HR (2009) Three-dimensional nanostructured substrates toward efficient capture of circulating tumor cells. Angew Chem Int Ed Engl 48(47):8970–8973CrossRef

43.

Guo S, Xu J, Xie M, Huang W, Yuan E, Liu Y, Fan L, Cheng S, Liu S, Wang F, Yuan B, Dong W, Zhang X, Huang W, Zhou X (2016) Degradable zinc-phosphate-based hierarchical nanosubstrates for capture and release of circulating tumor cells. ACS Appl Mater Interfaces 8(25):15917–15925CrossRef

Title: Origin of efficiency enhancement in cell capture on nanostructured arrays
Authors: Jing Zhou
Yu Xiong
Zechun Dang
Jinqi Li
Xinlei Li
Yuhua Yang
Tongsheng Chen
Publication date: 09-11-2018
Publisher: Springer US
Published in: Journal of Materials Science / Issue 5/2019
Print ISSN: 0022-2461
Electronic ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-018-3108-4

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