Department for Hematopoietic Transplantations, Med III, University Hospital of Munich, Germany.
Department for Pediatric Hematology and Oncology, University Hospital of Düsseldorf, Germany.
Immunobiology. 2021 May;226(3):152088. doi: 10.1016/j.imbio.2021.152088. Epub 2021 Mar 20.
Dendritic cells (DC) and T-cells are mediators of CTL-responses. Autologous (from patients with acute myeloid leukaemia (AML) or myelodysplasia (MDS)) or allogeneic (donor)-T-cells stimulated by DC, gain an efficient lysis of naive blasts, although not in every case. CXCL8, -9, -10, CCL2, -5 and Interleukin (IL-12) were quantified by Cytometric Bead Array (CBA) in supernatants from 5 DC-generating methods and correlated with AML-/MDS-patients' serum-values, DC-/T-cell-interactions/antileukemic T-cell-reactions after mixed lymphocyte culture (MLC) and patients' clinical course. The blast-lytic activity of T-cells stimulated with DC or mononuclear cells (MNC) was quantified in a cytotoxicity assay. Despite great variations of chemokine-levels, correlations with post-stimulation (after stimulating T-cells with DC in MLC) improved antileukemic T-cell activity were seen: higher released chemokine-values correlated with improved T-cells' antileukemic activity (compared to stimulation with blast-containing MNC) - whereas with respect to the corresponding serum values higher CXCL8-, -9-, and -10- but lower CCL5- and -2-release correlated with improved antileukemic activity of DC-stimulated (vs. blast-stimulated) T-cells. In DC-culture supernatants higher chemokine-values correlated with post-stimulation improved antileukemic T-cell reactivity, whereas higher serum-values of CXCL8, -9, and -10 but lower serum-values of CCL5 and -2 correlated with post-stimulation improved antileukemic T-cell-reactivity. In a context of 'DC'-stimulation (vs serum) this might point to a change of (CCL5 and -2-associated) functionality from a more 'inflammatory' or 'tumor-promoting' to a more 'antitumor'-reactive functionality. This knowledge could contribute to develop immune-modifying strategies that promote antileukemic (adaptive) immune-responses.
树突状细胞 (DC) 和 T 细胞是 CTL 反应的介导者。自体 (来自急性髓系白血病 (AML) 或骨髓增生异常综合征 (MDS) 患者) 或异体 (供体) -T 细胞由 DC 刺激后,对幼稚细胞具有有效的裂解作用,尽管并非在所有情况下都是如此。通过细胞因子 bead 阵列 (CBA) 定量检测来自 5 种 DC 生成方法的上清液中的 CXCL8、-9、-10、CCL2、-5 和白细胞介素 (IL)-12,并与 AML-/MDS 患者的血清值、DC-/T 细胞相互作用/混合淋巴细胞培养 (MLC) 后抗白血病 T 细胞反应以及患者的临床病程相关。用细胞毒性测定定量检测用 DC 或单核细胞 (MNC) 刺激的 T 细胞的细胞毒性活性。尽管趋化因子水平存在很大差异,但与刺激后 (在 MLC 中用 DC 刺激 T 细胞后) 的相关性改善了抗白血病 T 细胞活性:释放的趋化因子值越高,T 细胞的抗白血病活性越好 (与用含有幼稚细胞的 MNC 刺激相比) - 而对于相应的血清值,更高的 CXCL8、-9 和 -10 释放与用 DC 刺激 (与用幼稚细胞刺激相比) 的 T 细胞抗白血病活性改善相关,但 CCL5 和 -2 的释放较低。在 DC 培养上清液中,趋化因子值越高,刺激后抗白血病 T 细胞反应性越好,而血清中 CXCL8、-9 和 -10 值越高,CCL5 和 -2 值越低,刺激后抗白血病 T 细胞反应性越好。在“DC”刺激 (与血清相比) 的背景下,这可能表明 (CCL5 和 -2 相关) 功能从更“炎症”或“促肿瘤”转变为更“抗肿瘤”反应性功能。这一知识可能有助于制定免疫调节策略,促进抗白血病 (适应性) 免疫反应。
