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巡逻单核细胞清除内皮黏附的镰状红细胞:SCD 中血管阻塞抑制的新机制。

Patrolling monocytes scavenge endothelial-adherent sickle RBCs: a novel mechanism of inhibition of vaso-occlusion in SCD.

机构信息

Lindsley F. Kimball Research Institute, New York Blood Center, New York, NY.

Division of Hematology, Children's Hospital of Philadelphia, Philadelphia, PA; and.

出版信息

Blood. 2019 Aug 15;134(7):579-590. doi: 10.1182/blood.2019000172. Epub 2019 May 10.

DOI:10.1182/blood.2019000172
PMID:31076443
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6695561/
Abstract

Painful vaso-occlusive crisis (VOC) is the most common complication of sickle cell disease (SCD). Increasing evidence suggests that vaso-occlusion is initiated by increased adherence of sickle red blood cells (RBCs) to the vascular endothelium. Thus, the mechanisms that remove endothelial-attached sickle RBCs from the microvasculature are expected to be critical for optimal blood flow and prevention of VOC in SCD. We hypothesized that patrolling monocytes (PMos), which protect against vascular damage by scavenging cellular debris, could remove endothelial-adherent sickle RBCs and ameliorate VOC in SCD. We detected RBC (GPA)-engulfed material in circulating PMos of patients with SCD, and their frequency was further increased during acute crisis. RBC uptake by PMos was specific to endothelial-attached sickle, but not control, RBCs and occurred mostly through ICAM-1, CD11a, and CD18. Heme oxygenase 1 induction, by counteracting the cytotoxic effects of engulfed RBC breakdown products, increased PMo viability. In addition, transfusions, by lowering sickle RBC uptake, improved PMo survival. Selective depletion of PMos in Townes sickle mice exacerbated vascular stasis and tissue damage, whereas treatment with muramyl dipeptide (NOD2 ligand), which increases PMo mass, reduced stasis and SCD associated organ damage. Altogether, these data demonstrate a novel mechanism for removal of endothelial attached sickle RBCs mediated by PMos that can protect against VOC pathogenesis, further supporting PMos as a promising therapeutic target in SCD VOC.

摘要

血管阻塞危象(VOC)是镰状细胞病(SCD)最常见的并发症。越来越多的证据表明,血管阻塞是由镰状红细胞(RBC)与血管内皮的粘附增加引起的。因此,预计将内皮附着的镰状 RBC 从微血管中清除的机制对于最佳血流和预防 SCD 中的 VOC 至关重要。我们假设巡逻单核细胞(PMos)通过清除细胞碎片来保护血管免受损伤,它们可以清除内皮附着的镰状 RBC 并改善 SCD 中的 VOC。我们在 SCD 患者的循环 PMos 中检测到 RBC(GPA)吞噬的物质,并且在急性危机期间其频率进一步增加。PMos 对 RBC 的摄取特异性地针对内皮附着的镰状 RBC,但不针对对照 RBC,并且主要通过 ICAM-1、CD11a 和 CD18 发生。血红素加氧酶 1 的诱导通过抵消吞噬 RBC 破裂产物的细胞毒性作用,增加了 PMo 的活力。此外,通过降低镰状 RBC 的摄取,输血改善了 PMo 的存活率。在 Townes 镰状小鼠中选择性耗尽 PMos 会加剧血管停滞和组织损伤,而用 muramyl dipeptide(NOD2 配体)治疗,可增加 PMo 的质量,从而减少停滞和 SCD 相关的器官损伤。总的来说,这些数据表明了 PMos 介导的内皮附着镰状 RBC 清除的新机制,可预防 VOC 发病机制,进一步支持 PMos 作为 SCD VOC 的有前途的治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d627/6695561/43d53102021e/bloodBLD2019000172absf1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d627/6695561/43d53102021e/bloodBLD2019000172absf1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d627/6695561/43d53102021e/bloodBLD2019000172absf1.jpg

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