A Tissue Engineering Approach to Metastatic Colon Cancer

被引：14

作者：

Sarvestani, Samaneh Kamali ^{[1
]}

DeHaan, Reece K. ^{[1
,2
]}

Miller, Paula G. ^{[3
,4
]}

Bose, Shree ^{[5
]}

Shen, Xiling ^{[5
]}

Shuler, Michael L. ^{[3
,4
]}

Huang, Emina H. ^{[1
,2
]}

机构：

[1] Case Western Reserve Univ, Dept Canc Biol, Lerner Coll Med, Cleveland Clin, Cleveland, OH 44195 USA

[2] Case Western Reserve Univ, Dept Colon & Rectal Surg, Lerner Coll Med, Cleveland Clin, Cleveland, OH 44195 USA

[3] Cornell Univ, Dept Biomed Engn, Ithaca, NY 14850 USA

[4] Cornell Univ, Dept Chem & Biomol Engn, Ithaca, NY 14850 USA

[5] Duke Univ, Dept Biomed Engn, Durham, NC 27708 USA

来源：

ISCIENCE | 2020年 / 23卷 / 11期

关键词：

TIME IMAGING REVEALS; COLORECTAL-CANCER; MOUSE MODELS; IN-VITRO; LIVER METASTASIS; ORTHOTOPIC TRANSPLANTATION; CELL INVASION; TUMOR-GROWTH; PROGRESSION; CHIP;

D O I：

10.1016/j.isci.2020.101719

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Colon cancer remains the third most common cause of cancer in the US, and the third most common cause of cancer death. Worldwide, colon cancer is the second most common cause of cancer and cancer deaths. At least 25% of patients still present with metastatic disease, and at least 25-30% will develop metastatic colon cancer in the course of their disease. While chemotherapy and surgery remain the mainstay of treatment, understanding the fundamental cellular niche and mechanical properties that result in metastases would facilitate both prevention and cure. Advances in biomaterials, novel 3D primary human cells, modelling using microfluidics and the ability to alter the physical environment, now offers a unique opportunity to develop and test impactful treatment.

引用

页数：16

共 117 条

[1] Pumpless microfluidic platform for drug testing on human skin equivalents
Abaci, Hasan Erbil
Gledhill, Karl
Guo, Zongyou
Christiano, Angela M.
Shuler, Michael L.
[J]. LAB ON A CHIP, 2015, 15 (03) : 882 - 888
[2] Epigenetic and genetic features of 24 colon cancer cell lines
Ahmed, D.
Eide, P. W.
Eilertsen, I. A.
Danielsen, S. A.
Eknaes, M.
Hektoen, M.
Lind, G. E.
Lothe, R. A.
[J]. ONCOGENESIS, 2013, 2 : e71 - e71
[3] [Anonymous], 2019, J VIS EXP
[4] [Anonymous], 2020, CA-CANCER J CLIN, DOI DOI 10.3322/CAAC.21590
[5] Lysyl oxidase enzymatic function increases stiffness to drive colorectal cancer progression through FAK
Baker, A-M
Bird, D.
Lang, G.
Cox, T. R.
Erler, J. T.
[J]. ONCOGENE, 2013, 32 (14) : 1863 - 1868
[6] Patient-derived xenografts undergo mouse-specific tumor evolution
Ben-David, Uri
Ha, Gavin
Tseng, Yuen-Yi
Greenwald, Noah F.
Oh, Coyin
Shih, Juliann
McFarland, James M.
Wong, Bang
Boehm, Jesse S.
Beroukhim, Rameen
Golub, Todd R.
[J]. NATURE GENETICS, 2017, 49 (11) : 1567 - +
[7] Decreased expression of the β2 integrin on tumor cells is associated with a reduction in liver metastasis of colorectal cancer in mice
Benedicto, Aitor
Marquez, Joana
Herrero, Alba
Olaso, Elvira
Kolaczkowska, Elzbieta
Arteta, Beatriz
[J]. BMC CANCER, 2017, 17
[8] Imaging of Angiotropism/Vascular Co-Option in a Murine Model of Brain Melanoma: Implications for Melanoma Progression along Extravascular Pathways
Bentolila, Laurent A.
Prakash, Roshini
Mihic-Probst, Daniela
Wadehra, Madhuri
Kleinman, Hynda K.
Carmichael, Thomas S.
Peault, Bruno
Barnhill, Raymond L.
Lugassy, Claire
[J]. SCIENTIFIC REPORTS, 2016, 6
[9] Active versus passive mechanisms in metastasis: do cancer cells crawl into vessels, or are they pushed?
Bockhorn, Maximilian
Jain, Rakesh K.
Munn, Lance L.
[J]. LANCET ONCOLOGY, 2007, 8 (05) : 444 - 448
[10] Injection of colorectal cancer cells in mesenteric and antimesenteric sides of the colon results in different patterns of metastatic diffusion: An experimental study in rats
Boni L.
Benevento A.
Dionigi G.
Rovera F.
Diurni M.
Dionigi R.
[J]. World Journal of Surgical Oncology, 3 (1)

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