四虎影视库免费永久视频,GOGO专业大尺度高清人体,吞噬星空笔趣阁,欲成欢宝贝腿开点舔

Expert forum

首頁 專家論壇 標本專家Nanoroughened adhesion-based capture of circulating tumor cells with heterogeneous expression and metastatic characteristics.
注冊

Nanoroughened adhesion-based capture of circulating tumor cells with heterogeneous expression and metastatic characteristics.

2017-12-08 07:04來源:原版作者:Chen W

BACKGROUND:

Circulating tumor cells (CTCs) have shown prognostic relevance in many cancer types. However, the majority of current CTC capture methods rely on positive selection techniques that require a priori knowledge about the surface protein expression of disseminated CTCs, which are known to be a dynamic population.

METHODS:

We developed a microfluidic CTC capture chip that incorporated a nanoroughened glass substrate for capturing CTCs from blood samples. Our CTC capture chip utilized the differential adhesion preference of cancer cells to nanoroughened etched glass surfaces as compared to normal blood cells and thus did not depend on the physical size or surface protein expression of CTCs.

RESULTS:

The microfluidic CTC capture chip was able to achieve a superior capture yield for both epithelial cell adhesion molecule positive (EpCAM+) and EpCAM- cancer cells in blood samples. Additionally, the microfluidic CTC chip captured CTCs undergoing transforming growth factor beta-induced epithelial-to-mesenchymal transition (TGF-β-induced EMT) with dynamically down-regulated EpCAM expression. In a mouse model of human breast cancer using EpCAM positive and negative cell lines, the number of CTCs captured correlated positively with the size of the primary tumor and was independent of their EpCAM expression. Furthermore, in a syngeneic mouse model of lung cancer using cell lines with differential metastasis capability, CTCs were captured from all mice with detectable primary tumors independent of the cell lines' metastatic ability.

CONCLUSIONS:

The microfluidic CTC capture chip using a novel nanoroughened glass substrate is broadly applicable to capturing heterogeneous CTC populations of clinical interest independent of their surface marker expression and metastatic propensity. We were able to capture CTCs from a non-metastatic lung cancer model, demonstrating the potential of the chip to collect the entirety of CTC populations including subgroups of distinct biological and phenotypical properties. Further exploration of the biological potential of metastatic and presumably non-metastatic CTCs captured using the microfluidic chip will yield insights into their relevant differences and their effects on tumor progression and cancer outcomes.

版權聲明:

本網站所有注明“來源:“陽普醫(yī)療”的文字、圖片和音視頻資料,版權均屬于陽普醫(yī)療所有,非經授權,任何媒體、網站或個人不得轉載,授權轉載時須注明

“來源:陽普醫(yī)療”。本網所有轉載文章系出于傳遞更多信息之目的,且明確注明來源和作者,不希望被轉載的媒體或個人可與我們聯(lián)系,我們將立即進行刪除處理。

網友評論:

禄丰县| 景洪市| 鄂伦春自治旗| 阜康市| 望奎县| 双桥区| 岑溪市| 徐汇区| 禹城市| 邹城市| 百色市| 宜城市|