Hematopoietic stem cells can differentiate into restricted myeloid progenitors before cell division in mice

Grinenko, Tatyana; Eugster, Anne; Thielecke, Lars; Ramasz, Beáta; Krüger, Anja; Dietz, Sevina; Glauche, Ingmar; Gerbaulet, Alexander; Bonin, Malte von; Basak, Onur; Clevers, Hans; Chavakis, Triantafyllos; Wielockx, Ben

doi:10.1038/s41467-018-04188-7

Cited by 70 publications

(64 citation statements)

References 55 publications

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“…For all three sorted ancestor cell types, we found that addition of IL-3 and IL-6 led to a statistically significant increase in proliferation ( Figure 2C), as previously described [28,29]. Exploring the relationship between division and differentiation, in the culture without IL3 and IL6, the proportion of undivided ancestors that differentiated were 36.5% from SLAM-HSCs, 61.1% from ST-HSCs, and 35.6% from MPPs ( Figure 2D), which was in agreement with previous reports [9,10]. The addition of IL3 and IL6 didn't drastically change those values: 36.8% from SLAM-HSCs, 56.3% from ST-HSCs, and 44.8% from MPPs.…”

Section: Resultssupporting

confidence: 92%

“…The addition of IL3 and IL6 didn't drastically change those values: 36.8% from SLAM-HSCs, 56.3% from ST-HSCs, and 44.8% from MPPs. SLAM-HSCs preferentially differentiated without dividing into SLAM + MEP, as reported previously [10]. On comparing the surface marker expression of differentiated and not-differentiated nondivided cells ( Figure S1B), Sca-1 high SLAM-HSCs were more likely not to differentiate, in agreement with a previous report [30].…”

Section: Resultssupporting

confidence: 91%

“…Steady state in situ lineage tracing studies have also suggested that MPPs are capable of self-renewal [7,8]. In addition, HSCs have been shown to differentiate without division into megakaryocytes in vitro [9], and common myeloid, megakaryocyte and erythroid progenitors in vivo [10]. Together, these findings not only questioned the necessity for HSCs to undergo asymmetric division, but they also queried the explicit link between division and differentiation.…”

Section: Introductionmentioning

confidence: 99%

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Simultaneous tracking of division and differentiation from individual hematopoietic stem and progenitor cells reveals within-family homogeneity despite population heterogeneity

Tak

Prevedello

Simon

et al. 2019

Preprint

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The advent of high throughput single cell methods such as scRNA-seq has uncovered substantial heterogeneity in the pool of hematopoietic stem and progenitor cells (HSPCs). A significant issue is how to reconcile those findings with the standard model of hematopoietic development, and a fundamental question is how much instruction is inherited by offspring from their ancestors. To address this, we further developed a high-throughput method that enables simultaneously determination of common ancestor, generation, and differentiation status of a large collection of single cells. Data from it revealed that while there is substantial population-level heterogeneity, cells that derived from a common ancestor were highly concordant in their division progression and share similar differentiation outcomes, revealing significant familial effects on both division and differentiation. Although each family diversifies to some extent, the overall collection of cell types observed in a population is largely composed of homogeneous families from heterogeneous ancestors. Heterogeneity between families could be explained, in part, by differences in ancestral expression of cellsurface markers that are used for phenotypic HSPC identification: CD48, SCA-1, c-kit and Flt3. These data call for a revision of the fundamental model of haematopoiesis from a single tree to an ensemble of trees from distinct ancestors where common ancestor effect must be considered. As HSPCs are cultured in the clinic before bone marrow transplantation, our results suggest that the broad range of engraftment and proliferation capacities of HSPCs could be consequences of the heterogeneity in their engrafted families, and altered culture conditions might reduce heterogeneity between families, possibly improving transplantation outcomes.

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Section: Resultssupporting

confidence: 92%

Section: Resultssupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

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Simultaneous tracking of division and differentiation from individual hematopoietic stem and progenitor cells reveals within-family homogeneity despite population heterogeneity

Tak

Prevedello

Simon

et al. 2019

Preprint

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“…Interestingly, it has been suggested that, in some cases, cell differentiation can occur in the absence of cell division (Grinenko et al, 2018;Roch et al, 2015). Chromatin immunoprecipitation of PRC1-PRC2 proteins would be particularly informative in such cases to determine whether non-dividing, differentiating cells lose PRC1-PRC2 genomic binding or whether they use another mechanism (e.g., upregulation of pioneer TFs) to overcome PcG-TrxG antagonism and partially ''forget'' their identity on their way to a new fate.…”

Section: Cell Stem Cellmentioning

confidence: 99%

Polycomb/Trithorax Antagonism: Cellular Memory in Stem Cell Fate and Function

et al. 2019

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“…Intriguingly, many tissues, including the brain, skin, and hematopoietic system, feature transit-amplifying cells as intermediates between the stem and differentiated cell populations. Further, a recent study suggested that myeloid and megakaryocyte progenitors, in contrast to other blood progenitor cells, do not undergo cell division, indicating that the myeloid cells and megakaryocytes would be selected for during times of decreased progenitor proliferation 29 . Thus, proliferating non-stem progenitors may broadly serve as a buffer that enables coordinated tissue responses to a changing microenvironment while insulating the stem cell population from extreme changes.…”

Section: Discussionmentioning

confidence: 99%

Transit-amplifying cells coordinate changes in intestinal epithelial cell-type composition

Sanman

Chen

Bieber

et al. 2019

Preprint

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Renewing tissues have the remarkable ability to maintain both proliferative progenitor and specialized mature cell types at consistent ratios. How are complex milieus of microenvironmental signals interpreted to coordinate tissue cell-type composition? Here, we develop a high-throughput approach, combining organoid technology, combinatorial perturbations, and quantitative imaging to address these questions in the context of the intestinal epithelium. We find that changes in proliferation of transit-amplifying (TA) cells, but not Lgr5 + stem cells, alters the composition of mature secretory and absorptive cell-types in organoids and in vivo. The link between TA proliferation and mature fate bias arises from differential amplification of secretory and absorptive progenitor cells. Further, TA cells have a distinct pattern of regulation from other epithelial celltypes that stems, in part, from signal integration via the MEK-Erk pathway and paracrine BMP production. These results demonstrate that TA cells, a feature of many renewing tissues, play a critical role in converting complex microenvironmental signals into changes in cell-type composition.

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Hematopoietic stem cells can differentiate into restricted myeloid progenitors before cell division in mice

Cited by 70 publications

References 55 publications

Simultaneous tracking of division and differentiation from individual hematopoietic stem and progenitor cells reveals within-family homogeneity despite population heterogeneity

Simultaneous tracking of division and differentiation from individual hematopoietic stem and progenitor cells reveals within-family homogeneity despite population heterogeneity

Polycomb/Trithorax Antagonism: Cellular Memory in Stem Cell Fate and Function

Transit-amplifying cells coordinate changes in intestinal epithelial cell-type composition

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