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胶原纤维网络和癌细胞的力学微环境

孙波

胶原纤维网络和癌细胞的力学微环境

孙波
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  • 文章以第一类胶原纤维网络为例, 着重分析了癌细胞三维微环境的多尺度结构及力学特征. 对于细胞与细胞外介质结合的蛋白集团、单个细胞以及细胞群体, 分别由单个纤维(或亚纤维)、纤维集束以及纤维网络整体来决定相应的力学环境. 文章同时也讨论了胶原纤维(及其类似材料) 的局限性.
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    Olson M, Sahai E 2009 Clinical Experimental Metastasis 26 273

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    Parker A, Kavallaris M, McCarroll J 2014 Microtubules and their role in cellular stress in cancer. Frontiers in Oncology, p00153

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    Courson D, Rock R 2010 The Journal of Biological Chemistry 285 26350

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    Friedl P, Wolf K 2003 Nature Reviews Cancer 3 362

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    Aung A et al. 2014 Biophysical Journal 107 2528

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    Reichl E et al. 2008 Current Biology 18 471

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    Robinson D, Spudich J 2004 Current Opinions in Cell Biology 16 182

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    Cao R et al. 2014 British Journal of Cancer 111 539

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    Laakso J, Lewis J, Shuman H, Ostap E 2008 Science 321 133

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    Pruitt B, Dunn A, Weis W, Nelson W 2014 PLoS Biology 12 e1001996

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    Suresh S 2007 Acta Biomaterial 3 413

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    Hao J et al. 2013 Cell Biology International 37 888

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    Liu L et al. 2013 Proceedings of the National Academy of Science 110 1686

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    Anon 2006 Nature Reviews Molecular Biology 7 211

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    Brown R 2013 Experimental Cell Research 319 2460

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    Petrie R, Yamada K 2012 Journal of Cell Science 125 5917

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    Shoulders M, Raines R 2009 Annual Review of Biochemcistry 78 929

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    Yang Y, Motte S, LJ K 2010 Biomaterials 31 5678

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    Brightman A et al. 2000 Biopolymers 54 222

    [57]

    Yang Y, Kaufman L 2009 Biophysics Journal 96 1566

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    Williams R, Zipfel W, Webb W 2005 Biophysics Journal 88 1377

    [59]

    Cox G et al. 2003 Journal of Structural Biology 141 53

    [60]

    Jones C et al. 2014 Soft Matter 10 8855

    [61]

    Reymann A et al. 2012 Science 336 6086

    [62]

    Etienne-Manneville S 2013 Annual Review of Cell and Developmental Biology 29 471

    [63]

    Singh P, Carraher C, Schwarzbauer J 2010 Annual Review of Cell and Developmental Biology 26 397

    [64]

    Shayegan M, Forde N 2013 PLoS One 8 e70590

    [65]

    Stein A, Vader D, Weitz D, Sander L 2011 Complexity 16 22

    [66]

    Curtis J, Koss B, Grier D 2002 Optics Communications 207 169

    [67]

    Broedersz C M M 2014 Rev. Mod. Phys 86

    [68]

    Baldwin S J 2014 Biophysical Journal 107 1794

    [69]

    Gautieri A S 2011 Nano Letters 11 757

    [70]

    Orgel J, Irving T A M, Wess T 2006 Proceedings of National Academy of Sciences America 103 9001

    [71]

    Apel-Sarid L et al. 2010 Journal of Neuronsurgical Pediatrics 6 38

    [72]

    Provenzano P et al. 2006 BMC Medicine 4 38

    [73]

    Li Y, Yu S 2013 Current Opinions in Chemical Biology 17 968

    [74]

    Silva E A, Mooney D J 2004 Current Topics in Development Biology 64 181

    [75]

    Lutolf M, Hubbell J 2005 Nature Biotechnology 23 47

  • [1]

    Balkwill F, Capasso M, Hagemann T 2012 J. Cell Science 125 5591

    [2]

    Allinen M et al. 2004 Cancer Cell 6 17

    [3]

    Friedl P, Alexander S 2011 Cell 147 992

    [4]

    Hanahan D, Weinberg R 2000 Cell 100 57

    [5]

    Bierie B, Moses H 2006 Nature Reviews Cancer 6 506

    [6]

    Muhammad S 2014 World Journal of Gastroenterology 20 17011

    [7]

    Soon P, Kiaris, H 2013 Endocrine-Related Cancer 20 257

    [8]

    Zigrino P, Loffek S, Mauch C 2005 Biochimie 87 321

    [9]

    Hua Y, Korty M, Pardoll D 2007 Nature Reviews Immunology 7 41

    [10]

    Ulrich T, Pardo E, Kumar S 2009 Cancer Research 69

    [11]

    Yeung T et al. 2005 Effects of substrate stiffness on cell morphology, cytosckeletal structure and adhesion. Cell Motility and the Cytoskeleton, p60

    [12]

    Lopez J, You I, McDonald D, Weaver V 2011 Integrative Biology 3 910

    [13]

    Dingal P, Discher D 2014 Biophysical Journal 107 2734

    [14]

    Seewaldt V 2014 Nature Medicine 20 332

    [15]

    Bordeleau F, Alcoser T, Reinhart-King C 2014 Americal Journal of Physiology: Cell Physiology 306 C110

    [16]

    Barcellos-Hoff M, Ravani S 2000 Cancer Research 60 1254

    [17]

    Luo T, Mohan K, Robinson D 2013 Nature Materials 12 1064

    [18]

    Silver F, Siperko L 2003 Critical Review of Biomedical Engineering 31 255

    [19]

    Dufort C, Paszek M, Weaver V 2011 Nature Review Molecular Cell Biology 12 308

    [20]

    Desgrosellier J, Cheresh D 2010 Nature Review Cancer 10 9

    [21]

    Varner J, Cheresh D 1996 Current Opinion in Cell Biology 8 724

    [22]

    Juliano R, Varner J 2004 Current Opinion in Cell Biology 5 812

    [23]

    Mierke C et al 2010 The Journal of Biological Chemistry 285 13121

    [24]

    Egeblad M, Werb Z 2002 Nature Reviews Cancer 2 161

    [25]

    Itoh Y, Nagase H 2002 Essays Biochemistry 38 21

    [26]

    Gialeli C, Achilleas D 2011 The FEBS Journal 278 16

    [27]

    Yamazaki D, Kurisu S, Takenawa T 2005 Cancer Science 96 379

    [28]

    Olson M, Sahai E 2009 Clinical Experimental Metastasis 26 273

    [29]

    Parker A, Kavallaris M, McCarroll J 2014 Microtubules and their role in cellular stress in cancer. Frontiers in Oncology, p00153

    [30]

    Shtil A et al. 1999 Oncogene 18 377

    [31]

    Tseng Y, Wirtz D 2001 Biophysical Journal 81 1643

    [32]

    Courson D, Rock R 2010 The Journal of Biological Chemistry 285 26350

    [33]

    Wyckoff J et al. 2006 Current Biology 16 1515

    [34]

    Sabeh F, Shimizu-Hirota R, Weiss S 2009 Journal of Cell Biology 185 11

    [35]

    Friedl P, Wolf K 2003 Nature Reviews Cancer 3 362

    [36]

    Aung A et al. 2014 Biophysical Journal 107 2528

    [37]

    Reichl E et al. 2008 Current Biology 18 471

    [38]

    Robinson D, Spudich J 2004 Current Opinions in Cell Biology 16 182

    [39]

    Cao R et al. 2014 British Journal of Cancer 111 539

    [40]

    Laakso J, Lewis J, Shuman H, Ostap E 2008 Science 321 133

    [41]

    Pruitt B, Dunn A, Weis W, Nelson W 2014 PLoS Biology 12 e1001996

    [42]

    Suresh S 2007 Acta Biomaterial 3 413

    [43]

    Hao J et al. 2013 Cell Biology International 37 888

    [44]

    Liu L et al. 2013 Proceedings of the National Academy of Science 110 1686

    [45]

    Anon 2006 Nature Reviews Molecular Biology 7 211

    [46]

    Brown R 2013 Experimental Cell Research 319 2460

    [47]

    Lodish H et al. 2000 Molecular Cell Biology (4th Ed.) (New York: W. H. Freeman)

    [48]

    Paszek M et al. 2005 Cancer Cell 8 241

    [49]

    Petrie R, Yamada K 2012 Journal of Cell Science 125 5917

    [50]

    Schmitt F, Hall C, Jakus M 2005 Journal of Cellular Physiology 20 11

    [51]

    Shoulders M, Raines R 2009 Annual Review of Biochemcistry 78 929

    [52]

    Yang Y, Motte S, LJ K 2010 Biomaterials 31 5678

    [53]

    Lang N et al. 2013 Biophysical Journal 105 1967

    [54]

    Raspanti M, Alessandrini A, Gobbi P, Ruggeri A 1996 Microscopy Research Techniques 35 87

    [55]

    Raspanti M, Alessandrini A, Ottani V, Ruggeri A 1997 Journal of Structure Biology 119 118

    [56]

    Brightman A et al. 2000 Biopolymers 54 222

    [57]

    Yang Y, Kaufman L 2009 Biophysics Journal 96 1566

    [58]

    Williams R, Zipfel W, Webb W 2005 Biophysics Journal 88 1377

    [59]

    Cox G et al. 2003 Journal of Structural Biology 141 53

    [60]

    Jones C et al. 2014 Soft Matter 10 8855

    [61]

    Reymann A et al. 2012 Science 336 6086

    [62]

    Etienne-Manneville S 2013 Annual Review of Cell and Developmental Biology 29 471

    [63]

    Singh P, Carraher C, Schwarzbauer J 2010 Annual Review of Cell and Developmental Biology 26 397

    [64]

    Shayegan M, Forde N 2013 PLoS One 8 e70590

    [65]

    Stein A, Vader D, Weitz D, Sander L 2011 Complexity 16 22

    [66]

    Curtis J, Koss B, Grier D 2002 Optics Communications 207 169

    [67]

    Broedersz C M M 2014 Rev. Mod. Phys 86

    [68]

    Baldwin S J 2014 Biophysical Journal 107 1794

    [69]

    Gautieri A S 2011 Nano Letters 11 757

    [70]

    Orgel J, Irving T A M, Wess T 2006 Proceedings of National Academy of Sciences America 103 9001

    [71]

    Apel-Sarid L et al. 2010 Journal of Neuronsurgical Pediatrics 6 38

    [72]

    Provenzano P et al. 2006 BMC Medicine 4 38

    [73]

    Li Y, Yu S 2013 Current Opinions in Chemical Biology 17 968

    [74]

    Silva E A, Mooney D J 2004 Current Topics in Development Biology 64 181

    [75]

    Lutolf M, Hubbell J 2005 Nature Biotechnology 23 47

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  • 收稿日期:  2015-01-16
  • 修回日期:  2015-02-14
  • 刊出日期:  2015-03-05

胶原纤维网络和癌细胞的力学微环境

  • 1. 俄勒冈州立大学物理系, 美国俄勒冈州科瓦利斯市 97331

摘要: 文章以第一类胶原纤维网络为例, 着重分析了癌细胞三维微环境的多尺度结构及力学特征. 对于细胞与细胞外介质结合的蛋白集团、单个细胞以及细胞群体, 分别由单个纤维(或亚纤维)、纤维集束以及纤维网络整体来决定相应的力学环境. 文章同时也讨论了胶原纤维(及其类似材料) 的局限性.

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