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通过克隆和单细胞分析,一个时间发育图谱将人类自然杀伤细胞与非细胞毒性 ILC 区分开来。

A temporal developmental map separates human NK cells from noncytotoxic ILCs through clonal and single-cell analysis.

机构信息

Lund Stem Cell Center, Lund University, Lund, Sweden.

Division of Molecular Hematology, Department of Laboratory Medicine, Lund University, Lund, Sweden.

出版信息

Blood Adv. 2024 Jun 11;8(11):2933-2951. doi: 10.1182/bloodadvances.2023011909.

DOI:10.1182/bloodadvances.2023011909
PMID:38484189
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11176970/
Abstract

Natural killer (NK) cells represent the cytotoxic member within the innate lymphoid cell (ILC) family that are important against viral infections and cancer. Although the NK cell emergence from hematopoietic stem and progenitor cells through multiple intermediate stages and the underlying regulatory gene network has been extensively studied in mice, this process is not well characterized in humans. Here, using a temporal in vitro model to reconstruct the developmental trajectory of NK lineage, we identified an ILC-restricted oligopotent stage 3a CD34-CD117+CD161+CD45RA+CD56- progenitor population, that exclusively gave rise to CD56-expressing ILCs in vitro. We also further investigated a previously nonappreciated heterogeneity within the CD56+CD94-NKp44+ subset, phenotypically equivalent to stage 3b population containing both group-1 ILC and RORγt+ ILC3 cells, that could be further separated based on their differential expression of DNAM-1 and CD161 receptors. We confirmed that DNAM-1hi S3b and CD161hiCD117hi ILC3 populations distinctively differed in their expression of effector molecules, cytokine secretion, and cytotoxic activity. Furthermore, analysis of lineage output using DNA-barcode tracing across these stages supported a close developmental relationship between S3b-NK and S4-NK (CD56+CD94+) cells, whereas distant to the ILC3 subset. Cross-referencing gene signatures of culture-derived NK cells and other noncytotoxic ILCs with publicly available data sets validated that these in vitro stages highly resemble transcriptional profiles of respective in vivo ILC counterparts. Finally, by integrating RNA velocity and gene network analysis through single-cell regulatory network inference and clustering we unravel a network of coordinated and highly dynamic regulons driving the cytotoxic NK cell program, as a guide map for future studies on NK cell regulation.

摘要

自然杀伤 (NK) 细胞是先天淋巴细胞 (ILC) 家族中的细胞毒性成员,对于抵抗病毒感染和癌症至关重要。尽管 NK 细胞从造血干细胞和祖细胞通过多个中间阶段发展而来,并且其潜在的调节基因网络在小鼠中已被广泛研究,但在人类中这一过程尚未得到很好的描述。在这里,我们使用一种时间上的体外模型来重建 NK 谱系的发育轨迹,我们鉴定出一个 ILC 限定的、少能的阶段 3a CD34-CD117+CD161+CD45RA+CD56-祖细胞群体,该群体在体外仅能产生 CD56 表达的 ILC。我们还进一步研究了 CD56+CD94-NKp44+亚群中以前未被认识到的异质性,该亚群表型上与包含 ILC1 和 RORγt+ ILC3 细胞的阶段 3b 群体相当,可根据其对 DNAM-1 和 CD161 受体的不同表达进一步分离。我们证实,DNAM-1hi S3b 和 CD161hiCD117hi ILC3 群体在效应分子表达、细胞因子分泌和细胞毒性活性方面存在显著差异。此外,通过对这些阶段的谱系输出进行 DNA 条形码追踪分析,支持 S3b-NK 和 S4-NK(CD56+CD94+)细胞之间的密切发育关系,而与 ILC3 亚群关系较远。将培养衍生的 NK 细胞和其他非细胞毒性 ILC 的基因特征与公共数据集进行交叉参考,验证了这些体外阶段与各自体内 ILC 对应物的转录谱高度相似。最后,通过整合 RNA 速度和基因网络分析,通过单细胞调控网络推断和聚类,我们揭示了一个协调和高度动态的调控网络,驱动细胞毒性 NK 细胞程序,为未来 NK 细胞调控研究提供了指导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/895fd841e88b/BLOODA_ADV-2023-011909-gr7a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/f53b7559f218/BLOODA_ADV-2023-011909-ga1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/20308e97803b/BLOODA_ADV-2023-011909-gr1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/988d0ef5c8a4/BLOODA_ADV-2023-011909-gr2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/03d89b2f268e/BLOODA_ADV-2023-011909-gr3ad.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/2d80fb06255c/BLOODA_ADV-2023-011909-gr4a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/e3ee35cb27d7/BLOODA_ADV-2023-011909-gr5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/4e919cc56f42/BLOODA_ADV-2023-011909-gr6a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/895fd841e88b/BLOODA_ADV-2023-011909-gr7a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/f53b7559f218/BLOODA_ADV-2023-011909-ga1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/20308e97803b/BLOODA_ADV-2023-011909-gr1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/988d0ef5c8a4/BLOODA_ADV-2023-011909-gr2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/03d89b2f268e/BLOODA_ADV-2023-011909-gr3ad.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/2d80fb06255c/BLOODA_ADV-2023-011909-gr4a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/e3ee35cb27d7/BLOODA_ADV-2023-011909-gr5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/4e919cc56f42/BLOODA_ADV-2023-011909-gr6a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/941a/11176970/895fd841e88b/BLOODA_ADV-2023-011909-gr7a.jpg

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