Despite their crucial role in health and disease, our knowledge of immune cells within human tissues remains limited. We surveyed the immune compartment of 16 tissues from 12 adult donors by single-cell RNA sequencing and VDJ sequencing generating a dataset of ~360,000 cells. To systematically resolve immune cell heterogeneity across tissues, we developed CellTypist, a machine learning tool for rapid and precise cell type annotation. Using this approach, combined with detailed curation, we determined the tissue distribution of finely phenotyped immune cell types, revealing hitherto unappreciated tissue-specific features and clonal architecture of T and B cells. Our multitissue approach lays the foundation for identifying highly resolved immune cell types by leveraging a common reference dataset, tissue-integrated expression analysis, and antigen receptor sequencing.
Single-cell genomics studies have decoded the immune-cell composition of several human prenatal organs but were limited in understanding the developing immune system as a distributed network across tissues. We profiled nine prenatal tissues combining single-cell RNA sequencing, antigen-receptor sequencing, and spatial transcriptomics to reconstruct the developing human immune system. This revealed the late acquisition of immune effector functions by myeloid and lymphoid cell subsets and the maturation of monocytes and T cells prior to peripheral tissue seeding. Moreover, we uncovered system-wide blood and immune cell development beyond primary hematopoietic organs, characterized human prenatal B1 cells, and shed light on the origin of unconventional T cells. Our atlas provides both valuable data resources and biological insights that will facilitate cell engineering, regenerative medicine, and disease understanding.
Gastrointestinal microbiota and immune cells interact closely and display
regional specificity, but little is known about how these communities differ
with location. Here, we simultaneously assess microbiota and single immune cells
across the healthy, adult human colon, with paired characterization of immune
cells in the mesenteric lymph nodes, to delineate colonic immune niches at
steady-state. We describe distinct T helper cell activation and migration
profiles along the colon and characterize the transcriptional adaptation
trajectory of T regulatory cells between lymphoid tissue and colon. Finally, we
show increasing B cell accumulation, clonal expansion and mutational frequency
from cecum to sigmoid colon, and link this to the increasing number of reactive
bacterial species.
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