Department of Pediatrics, University of Minnesota, Minneapolis, Minnesota, United States of America.
Cutaneous Oncology Program, Moffitt Cancer Center, Tampa, Florida, United States of America.
PLoS One. 2018 Apr 4;13(4):e0193461. doi: 10.1371/journal.pone.0193461. eCollection 2018.
Chemotherapy or chemoradiotherapy conditioning regimens required for bone marrow transplantation (BMT) cause significant morbidity and mortality as a result of insufficient immune surveillance mechanisms leading to increased risks of infection and tumor recurrence. Such conditioning causes host stromal cell injury, impairing restoration of the central (thymus) and peripheral (spleen and lymph node) T cell compartments and slow immune reconstitution. The chemokine, CCL21, produced by host stromal cells, recruits T- and B-cells that provide lymphotoxin mediated instructive signals to stromal cells for lymphoid organogenesis. Moreover, T- and B-cell recruitment into these sites is required for optimal adaptive immune responses to pathogens and tumor antigens. Previously, we reported that CCL21 was markedly reduced in secondary lymphoid organs of transplanted animals. Here, we utilized adenoviral CCL21 gene transduced dendritic cells (DC/CCL21) given by footpad injections as a novel approach to restore CCL21 expression in secondary lymphoid organs post-transplant. CCL21 expression in secondary lymphoid organs reached levels of naïve controls and resulted in increased T cell trafficking to draining lymph nodes (LNs). An increase in both lymphoid tissue inducer cells and the B cell chemokine CXCL13 known to be important in LN formation was observed. Strikingly, only mice vaccinated with DC/CCL21 loaded with bacterial, viral or tumor antigens and not recipients of DC/control adenovirus loaded cells or no DCs had a marked increase in the systemic clearance of pathogens (bacteria; virus) and leukemia cells. Because DC/CCL21 vaccines have been tested in clinical trials for patients with lung cancer and melanoma, our studies provide the foundation for future trials of DC/CCL21 vaccination in patients receiving pre-transplant conditioning regimens.
骨髓移植(BMT)前的化疗或放化疗预处理方案会导致显著的发病率和死亡率,这是由于免疫监视机制不足,导致感染和肿瘤复发的风险增加。这种预处理会导致宿主基质细胞损伤,损害中央(胸腺)和外周(脾和淋巴结)T 细胞区室的恢复,并导致免疫重建缓慢。趋化因子 CCL21 由宿主基质细胞产生,招募 T 细胞和 B 细胞,向基质细胞提供淋巴毒素介导的指令信号,用于淋巴器官发生。此外,T 细胞和 B 细胞募集到这些部位是对病原体和肿瘤抗原产生最佳适应性免疫反应所必需的。此前,我们报道过移植动物的次级淋巴器官中 CCL21 明显减少。在这里,我们利用通过足底注射给予的腺病毒 CCL21 基因转导树突状细胞(DC/CCL21)作为一种新方法,在移植后恢复次级淋巴器官中的 CCL21 表达。次级淋巴器官中的 CCL21 表达水平达到了未处理对照的水平,并导致 T 细胞向引流淋巴结(LN)的迁移增加。观察到淋巴组织诱导细胞的增加和 B 细胞趋化因子 CXCL13 的增加,已知这两者在 LN 形成中很重要。引人注目的是,只有用负载细菌、病毒或肿瘤抗原的 DC/CCL21 接种的小鼠,而不是用负载 DC/对照腺病毒的细胞或没有 DC 的小鼠,才会显著增加病原体(细菌;病毒)和白血病细胞的全身清除率。由于 DC/CCL21 疫苗已在肺癌和黑色素瘤患者的临床试验中进行了测试,我们的研究为未来接受移植前预处理方案的患者进行 DC/CCL21 疫苗接种的临床试验奠定了基础。
