Mesenchymal stem cell treatment improves outcome of COVID-19 patients via multiple immunomodulatory mechanisms.
Rongjia ZhuTingdong YanYing-Mei FengYan LiuHongcui CaoGongxin PengYanlei YangZhen XuJingqi LiuWei HouXiaoyue WangZhe LiLuchan DengShihua WangJing LiQin HanHongling LiGuangliang ShanYinghao CaoXingyan AnJianshe YanZhonghui ZhangHuafei LiXuebin QuJiaqi ZhuShumin ZhouJiao WangFengchun ZhangJinming GaoRonghua JinDayong XuYan-Qing MaTao HuangShuang PengZhi ZhengIlia StamblerEric GilsonLee Wei LimAleksey Igorevich MoskalevAntonio CanoSasanka ChakrabartiBrun UlfhakeHuanxing SuHaoying XuSihuan XuFeng WeiHolly M Brown-BorgKyung-Jin MinGeorgina Ellison-HughesCalogero CarusoKunlin JinRobert Chunhua ZhaoPublished in: Cell research (2021)
The infusion of coronavirus disease 2019 (COVID-19) patients with mesenchymal stem cells (MSCs) potentially improves clinical symptoms, but the underlying mechanism remains unclear. We conducted a randomized, single-blind, placebo-controlled (29 patients/group) phase II clinical trial to validate previous findings and explore the potential mechanisms. Patients treated with umbilical cord-derived MSCs exhibited a shorter hospital stay (P = 0.0198) and less time required for symptoms remission (P = 0.0194) than those who received placebo. Based on chest images, both severe and critical patients treated with MSCs showed improvement by day 7 (P = 0.0099) and day 21 (P = 0.0084). MSC-treated patients had fewer adverse events. MSC infusion reduced the levels of C-reactive protein, proinflammatory cytokines, and neutrophil extracellular traps (NETs) and promoted the maintenance of SARS-CoV-2-specific antibodies. To explore how MSCs modulate the immune system, we employed single-cell RNA sequencing analysis on peripheral blood. Our analysis identified a novel subpopulation of VNN2+ hematopoietic stem/progenitor-like (HSPC-like) cells expressing CSF3R and PTPRE that were mobilized following MSC infusion. Genes encoding chemotaxis factors - CX3CR1 and L-selectin - were upregulated in various immune cells. MSC treatment also regulated B cell subsets and increased the expression of costimulatory CD28 in T cells in vivo and in vitro. In addition, an in vivo mouse study confirmed that MSCs suppressed NET release and reduced venous thrombosis by upregulating kindlin-3 signaling. Together, our results underscore the role of MSCs in improving COVID-19 patient outcomes via maintenance of immune homeostasis.
Keyphrases
- mesenchymal stem cells
- umbilical cord
- sars cov
- coronavirus disease
- clinical trial
- peripheral blood
- phase ii
- bone marrow
- end stage renal disease
- single cell
- cell therapy
- low dose
- ejection fraction
- placebo controlled
- double blind
- chronic kidney disease
- respiratory syndrome coronavirus
- peritoneal dialysis
- emergency department
- sleep quality
- open label
- gene expression
- phase iii
- prognostic factors
- machine learning
- radiation therapy
- rna seq
- transcription factor
- locally advanced
- binding protein
- depressive symptoms
- optical coherence tomography
- data analysis
- disease activity
- wild type