Departamento de Sanidad Animal, Facultad de Veterinaria, Universidad de León, C/ Profesor Pedro Cármenes s/n, 24007, León, Spain.
Instituto de Ganadería de Montaña (CSIC-ULE), Finca Marzanas-Grulleros, 24346, León, Spain.
Vet Immunol Immunopathol. 2020 Dec;230:110131. doi: 10.1016/j.vetimm.2020.110131. Epub 2020 Oct 16.
Peripheral blood from healthy sheep (n = 3) and goats (n = 3) were employed to establish an efficient method for simultaneous isolation of peripheral blood mononuclear cells (PBMCs) and neutrophils and to standardize protocols for monocyte purification and generation of monocyte-derived macrophages (MDMs). In both species, a significantly enriched population of PBMCs, with higher purity and number of cells determined by flow cytometry, was achieved when processing through a density gradient a mixture of buffy-coat and red blood cell layer (RBC) in comparison to the use of just the buffy-coat (p < 0.05). Neutrophils could be subsequently isolated from the layer, located underneath PBMCs fraction with significant higher purity rates, higher than 85 % determined by flow cytometry, than those obtained with protocols without density gradients (< 60 %) (p < 0.05). This technique would allow the isolation of both cell populations from the same sample of blood. A pure cell population of monocytes, CD14 cells, was purified from PBMCs when using immunomagnetic columns, which allow for 17 % (nº monocytes/nº PBMCs) of yield and high percentages of expression of CD14 (88 %), MHC-II (91.5 %) and CD11b (94 %) established by flow cytometry. On the other hand, the classical and non-expensive purification of monocytes from PBMCs based on the adherence capacity of the former, allowed significantly lower yield of monocytes (4.6 %), with percentages of surface markers expression that dropped to 35 %, 65 % and 55 %, respectively (p < 0.001), suggesting the isolation of a mixed population of cells. The addition of GM-CSF to the culture, at concentration from 25 to 125 ng/mL, enhanced proportionally the number of MDMs generated compared to the absence of supplementation or the use of autologous serum from 5% to 20 %. However, purification of monocytes through the adherence method achieved higher yields of MDMs than those isolated through immunomagnetic columns in both species (p < 0.001). Under the conditions of this study, the use of centrifugation in density gradients allow for the simultaneous purification of PBMCs and neutrophils, with high purity of both populations, from the same sample of blood. The isolation of monocytes could be subsequently achieved through two different methods, i.e. based on immunomagnetic columns or adherence. The preference between both methods would depend on the necessities of the experiment, the initial sample with high purity of monocytes or a final population of MDMs required.
从健康绵羊(n=3)和山羊(n=3)的外周血中分离外周血单个核细胞(PBMCs)和中性粒细胞,并建立同时分离 PBMCs 和中性粒细胞的方法,并对单核细胞的纯化和单核细胞来源的巨噬细胞(MDMs)的生成进行标准化。在这两个物种中,与仅使用白细胞层(BC)相比,通过密度梯度处理 BC 和红细胞层(RBC)的混合物,可以获得 PBMCs 明显富集的群体,通过流式细胞术确定更高的纯度和细胞数量(p<0.05)。中性粒细胞随后可以从 PBMCs 层分离出来,与没有密度梯度的方案相比(<60%),该层的纯度更高,流式细胞术测定的纯度率超过 85%(p<0.05)。这种技术可以从同一样本血液中分离出这两种细胞群。通过使用免疫磁珠柱从 PBMCs 中分离出纯的单核细胞群 CD14 细胞,允许获得 17%(nº单核细胞/nº PBMCs)的产率和高表达率的 CD14(88%)、MHC-II(91.5%)和 CD11b(94%),通过流式细胞术确定。另一方面,基于前者的粘附能力,从 PBMCs 中经典且经济实惠的单核细胞纯化方法可显著降低单核细胞的产率(4.6%),表面标志物表达的百分比分别降至 35%、65%和 55%(p<0.001),提示分离出混合细胞群。与不添加或使用 5%至 20%的自体血清相比,GM-CSF 的浓度为 25 至 125ng/mL 时,可按比例增加生成的 MDMs 数量。然而,与通过免疫磁珠柱分离的方法相比,通过粘附方法纯化的单核细胞在两种物种中的 MDMs 产率都更高(p<0.001)。在本研究条件下,离心密度梯度允许从同一样本血液中同时纯化 PBMCs 和中性粒细胞,两种细胞群体的纯度均很高。单核细胞的分离随后可以通过两种不同的方法来实现,即基于免疫磁珠柱或粘附。两种方法的选择将取决于实验的需要,是需要高纯度的单核细胞初始样本,还是需要最终的 MDMs 群体。
