Samuel Cornelius scite author profile

Recent advances in developmental immunology have revealed a hematopoietic stem cell (HSC)-independent origin for various innate immune lineages, including mast cells (MCs). It is now established that adult bone marrow (BM) long-term HSCs do not regenerate MCs but, instead, the physiological production of MCs starts before the emergence of HSCs in the aorta-gonad-mesonephros (AGM) region and is mostly completed before birth. However, while the AGM region represents a major site of MC generation during ontogeny, whether the first emerging HSCs in the AGM or fetal liver (FL) possess the potential to regenerate MCs is unknown. Here, we combined three fate-mapping mouse models with detailed HSC transplantation assays to determine the potential of AGM and FL HSCs to produce MCs. We show that HSCs from E11.5 AGM and E12.5 FL efficiently repopulated MCs in recipients. In stark contrast, HSCs from ≥E14.5 FL failed to reconstitute MCs. An Endothelial (EC) fate-mapping study confirmed the EC origin of the majority of MCs. Additionally, our HSC-labeling showed that HSCs do not produce MCs in a physiological setting. Hence, although most MCs are generated and maintained via an HSC-independent pathway, the earliest HSCs to emerge in the AGM and seed the early FL can produce MCs, but only during a minimal time window. Our results challenge the stem cell theory in hematology and EC-derived mast cells may contribute to the pathogenesis of postnatal mast cell disorders.

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HSC-independent definitive hematopoietic cells persist into adult life

Kobayashi¹,

Wei²,

Yamanashi

et al. 2021

Preprint

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SummaryThe stem cell theory that all blood cells are derived from hematopoietic stem cell (HSC) is a central dogma in hematology. However, various types of blood cells are already produced from hemogenic endothelial cells (HECs) before the first HSCs appear at embryonic day (E)11 in the mouse embryo. This early blood cell production from HECs, called HSC-independent hematopoiesis, includes primitive and definitive erythromyeloid progenitors that transiently support fetal blood homeostasis until HSC-derived hematopoiesis is established. Lymphoid potential has traditionally been detected in the extra-embryonic yolk sac (YS) and/or embryos before HSC emergence, but the actual presence of lymphoid progenitors at this stage remains unknown. In addition, whether HSCs in the fetal liver are the main source of innate-like B-1a cells has been controversial. Here, using complementary lineage tracing mouse models, we show that HSC-independent multipotent progenitors (MPPs) and HSC-independent adoptive B-lymphoid progenitors persist into adult life. Furthermore, HSCs minimally contribute to the peritoneal B-1a cell pool; most B-1a cells are originated directly from ECs in the YS and embryo and HSC-independent for life. Our discovery of extensive HSC-independent MPP and B-lymphoid progenitors in adults attests to the complex blood developmental dynamics through embryo to adult that underpin the immune system and challenges the paradigm of HSC theory in hematology.

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IL-7 Receptor marks entire embryo-derived Mast Cell

Cornelius

Valiente

Kobayashi

et al. 2022

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Mast cell (MC) is an unique immune cell displaying wide variety of functions. Recent break through concluded MC generation is mostly provided by embryonic Yolk Sac (YS) and AGM, and post-natal BM HSC does not supply MC (HSC-independent) as our last presentation. Because YS erythro-myeloid progenitor (EMP) provide earliest tissue resident macrophage (brain microglia) and MC together as a common progenitor, and one report shows part of tissue resident macrophages are marked by IL-7 receptor (IL-7R) as an exception of lymphoid essential lineage marking, we hypothesized that MC could be also marked by IL-7R. We tested by utilizing IL-7Rcre/flox-dTom model and found that newborn to young peritoneal cavity (PerC) and skin MCs, surprisingly, exhibited more than 90% dTom positivity (90.8 ± 3.1%). IL-7R protein was not expressed on the mouse PerC, skin MCs and E12.5 Fetal Liver MC progenitors. To confirm functional IL-7R involvement for the MC development, we measured MCs in IL-7Rcre/+(Het) and IL-7Rcre/cre (KO) mice. Despite marked reductions of T/B cell counts, PerC MC count was comparable (WT: 2.4 ± 1.6 vs KO: 4.1 ± 2.3 × 10e4), suggesting IL-7R is temporarily expressed in early EMP stage in an only short period. We also tested MC differentiation from the adult BM dTom-negative Lin−Sca+Kit+ (LSK) cells. MC production was comparable between Het and KO and interestingly enough, both WT/KO LSK derived MCs showed least dTom positivity (3.4± 2.5 vs 4.7 ± 3.1 %) whereas more than 70% of macrophages turned dTom positive, suggesting embryonic and adult MC differentiation used different program respectively. Consistently, %dTom in PerC MC was reduced (79.2 ± 8.1 %) in old mice (> 1year), indicating that post-natal de novo MC production is minimum without IL-7R use. Supported by R01AI121197-01A1 NIAID R01AI147685-01 NIAID

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Facing the Questions of Pre-Adult Education

Cornelius¹

1940

Psychiatry

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