Department of Internal Medicine III, Division of Nephrology and Dialysis, Medical University Vienna, Währinger Gürtel 18-20, A-1090 Vienna, Austria.
J Immunol Methods. 2011 Oct 28;373(1-2):167-73. doi: 10.1016/j.jim.2011.08.012. Epub 2011 Aug 24.
Due to their low protein content and limited nuclear detergent stability, primary human immune cells such as monocytes or T lymphocytes represent a great challenge for standard nuclear isolation protocols. Nuclei clumping during the multiple centrifugation steps or contamination of isolated nuclei with cytoplasmic proteins due to membrane lysis is a frequently observed problem. Here we describe a versatile and novel method for the isolation of clean and intact nuclei from primary human monocytes, which can be applied for virtually any cell type. Living cells were applied on an iso-osmolar discontinuous iodixanol-based density gradient including a detergent-containing lysis layer. Mild cell lysis as well as efficient washing of the nuclei was performed during the course of one single low g-force centrifugation step. The isolation procedure, which we call lysis gradient centrifugation (LGC), results in the recovery of 90-95% of highly pure nuclei. This easy and highly reproducible procedure allows an effective preparation of nuclei and the cytoplasm in only 15 min with the ability to handle as little as one million cells per sample and easy parallel processing of multiple samples.
由于其蛋白质含量低和核去污剂稳定性有限,原代人免疫细胞(如单核细胞或 T 淋巴细胞)代表了标准核分离方案的巨大挑战。在多次离心步骤中核聚集,或由于膜裂解导致分离核与细胞质蛋白的污染,是经常观察到的问题。在这里,我们描述了一种从原代人单核细胞中分离清洁完整核的通用且新颖的方法,该方法几乎适用于任何细胞类型。活细胞应用于基于等渗碘克沙醇的不连续密度梯度,包括含有去污剂的裂解层。在一个单一的低 g 力离心步骤中,温和的细胞裂解以及核的有效洗涤得以进行。我们称之为裂解梯度离心(LGC)的分离程序可回收 90-95%的高纯度核。这种简单且高度可重复的程序允许在仅 15 分钟内有效制备核和细胞质,每个样品可处理低至 100 万个细胞,并且可以轻松并行处理多个样品。
