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量子点的热稳定性通过荧光原位杂交-流式细胞术改善了同时进行的表型特异性端粒长度测量。

Quantum dots thermal stability improves simultaneous phenotype-specific telomere length measurement by FISH-flow cytometry.

作者信息

Kapoor Veena, Hakim Fran T, Rehman Najibah, Gress Ronald E, Telford William G

机构信息

Experimental Transplantation and Immunology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

J Immunol Methods. 2009 May 15;344(1):6-14. doi: 10.1016/j.jim.2009.02.004. Epub 2009 Mar 5.

Abstract

Telomere length analysis has been greatly simplified by the quantitative flow cytometry technique FISH-flow. In this method, a fluorescein-labeled synthetic oligonucleotide complementary to the telomere terminal repeat sequence is hybridized to the telomere sequence and the resulting fluorescence measured by flow cytometry. This technique has supplanted the traditional laborious Southern blot telomere length measurement techniques in many laboratories, and allows single cell analysis of telomere length in high-throughput sample formats. Nevertheless, the harsh conditions required for telomere probe annealing (82 degrees C) has made it difficult to successfully combine this technique with simultaneous immunolabeling. Most traditional organic fluorescent probes (i.e. fluorescein, phycoerythrin, etc.) have limited thermal stability and do not survive the high temperature annealing process, despite efforts to covalently crosslink the antigen-antibody-fluorophore complex. This loss of probe fluorescence has made it difficult to measure FISH-flow in complex lymphocyte populations, and has generally forced investigators to use fluorescent-activated cell sorting to pre-separate their populations, a laborious technique that requires prohibitively large numbers of cells. In this study, we have substituted quantum dots (nanoparticles) for traditional fluorophores in FISH-flow. Quantum dots were demonstrated to possess much greater thermal stability than traditional low molecular weight and phycobiliprotein fluorophores. Quantum dot antibody conjugates directed against monocyte and T cell antigens were found to retain most of their fluorescence following the high temperature annealing step, allowing simultaneous fluorescent immunophenotyping and telomere length measurement. Since quantum dots have very narrow emission bandwidths, we were able to analyze multiple quantum dot antibody conjugates (Qdot 605, 655 and 705) simultaneously with FISH-flow measurement to assess the age-associated decline in telomere length in both human monocytes and T cell subsets. With quantum dot immunolabeling, the mean decrease rate in telomere length for CD4+ cells was calculated at 41.8 bp/year, very close to previously reported values using traditional flow-FISH and Southern blotting. This modification to the traditional flow-FISH technique should therefore allow simultaneous fluorescent immunophenotyping and telomere length measurement, permitting complex cell subset-specific analysis in small numbers of cells without the requirement for prior cell sorting.

摘要

定量流式细胞术FISH-flow极大地简化了端粒长度分析。在该方法中,一种与端粒末端重复序列互补的荧光素标记合成寡核苷酸与端粒序列杂交,并通过流式细胞术测量产生的荧光。这项技术已在许多实验室取代了传统的繁琐的Southern印迹端粒长度测量技术,并允许以高通量样本形式对端粒长度进行单细胞分析。然而,端粒探针退火所需的苛刻条件(82摄氏度)使得难以成功地将该技术与同时进行的免疫标记相结合。大多数传统的有机荧光探针(如荧光素、藻红蛋白等)热稳定性有限,尽管努力使抗原-抗体-荧光团复合物共价交联,但仍无法在高温退火过程中存活。探针荧光的这种损失使得难以在复杂的淋巴细胞群体中测量FISH-flow,并且通常迫使研究人员使用荧光激活细胞分选来预先分离他们的群体,这是一种繁琐的技术,需要大量的细胞。在本研究中,我们在FISH-flow中用量子点(纳米颗粒)替代了传统荧光团。结果表明,量子点比传统的低分子量和藻胆蛋白荧光团具有更高的热稳定性。发现针对单核细胞和T细胞抗原的量子点抗体偶联物在高温退火步骤后保留了大部分荧光,从而允许同时进行荧光免疫表型分析和端粒长度测量。由于量子点具有非常窄的发射带宽,我们能够在FISH-flow测量的同时,同时分析多种量子点抗体偶联物(Qdot 605、655和705),以评估人类单核细胞和T细胞亚群中端粒长度与年龄相关的下降情况。通过量子点免疫标记,计算出CD4+细胞端粒长度的平均下降速率为每年41.8碱基对,与先前使用传统流式FISH和Southern印迹法报道的值非常接近。因此,对传统流式FISH技术的这种改进应该允许同时进行荧光免疫表型分析和端粒长度测量,从而无需事先进行细胞分选,就能够对少量细胞进行复杂的细胞亚群特异性分析。

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