2019
DOI: 10.1016/j.immuni.2019.01.019
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Emerging Principles in Myelopoiesis at Homeostasis and during Infection and Inflammation

Abstract: Myelopoiesis ensures the steady state of the myeloid cell compartment. Technological advances in fate mapping and genetic engineering, as well as the advent of single cell RNA-sequencing, have highlighted the heterogeneity of the hematopoietic system and revealed new concepts in myeloid cell ontogeny. These technologies are also shedding light on mechanisms of myelopoiesis at homeostasis and at different phases of infection and inflammation, illustrating important feedback loops between affected tissues and th… Show more

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Cited by 133 publications
(104 citation statements)
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“…Differential gene expression analysis for each cluster revealed extensive phenotypic heterogeneity within the LDN compartment ( Figure 5 B). LDNs mainly arise under pathological conditions, such as severe infection and sepsis in the context of emergency myelopoiesis ( Schultze et al., 2019 ), and they have been associated with dysfunctional immune responses, marked by combined immunosuppression and inflammation ( Silvestre-Roig et al., 2019 ). While LDN in cluster 1 expressed numerous ISGs ( ISG15 , IFITM1/3 , and RSAD2 ), cluster 4 (pro-neutrophils) expressed genes (e.g., MPO , ELANE , and PRTN3 ) that are involved in neutrophil extracellular trap formation ( Stiel et al., 2018 ; Thomas et al., 2014 ; You et al., 2019 ) among other functions and that have been associated with sepsis ( Ahmad et al., 2019 ; Carbon et al., 2019 ; Silvestre-Roig et al., 2019 ).…”
Section: Resultsmentioning
confidence: 99%
“…Differential gene expression analysis for each cluster revealed extensive phenotypic heterogeneity within the LDN compartment ( Figure 5 B). LDNs mainly arise under pathological conditions, such as severe infection and sepsis in the context of emergency myelopoiesis ( Schultze et al., 2019 ), and they have been associated with dysfunctional immune responses, marked by combined immunosuppression and inflammation ( Silvestre-Roig et al., 2019 ). While LDN in cluster 1 expressed numerous ISGs ( ISG15 , IFITM1/3 , and RSAD2 ), cluster 4 (pro-neutrophils) expressed genes (e.g., MPO , ELANE , and PRTN3 ) that are involved in neutrophil extracellular trap formation ( Stiel et al., 2018 ; Thomas et al., 2014 ; You et al., 2019 ) among other functions and that have been associated with sepsis ( Ahmad et al., 2019 ; Carbon et al., 2019 ; Silvestre-Roig et al., 2019 ).…”
Section: Resultsmentioning
confidence: 99%
“…It is therefore of utmost importance to establish a precise baseline during 25 homeostasis as provided here by our new consensus map, to allow for a better understanding of any deviations of the myeloid cell compartment during stress, pathophysiological conditions and diseases. Furthermore, the dynamic processes of myelopoiesis during homeostasis but even more so during inflammatory conditions requires precise mapping of cellular identities as a prerequisite to identify targets for precise therapeutic intervention (Dick et al, 2019;Schultze, 2019;Schultze et al, 2019). Furthermore, the necessity to continuously iterate the process of 5 improving the consensus maps is nicely illustrated by the accompanying manuscript by Dutertre et al (Dutertre et al, 2019), further defining the cellular relationship of DC2/3 and monocytes.…”
Section: Discussionmentioning
confidence: 99%
“…An important role in this regulatory pathway has been ascribed to the mutual interaction of BACH1 and 2 with the pro-inflammatory TF C/EBPbeta at the activating protein-1 (AP-1) binding site within the BACH recognition element [82]. Notably, BACH1 and 2-dependent modulation of hematopoiesis at the erythro-myeloid bifurcation may not only be important in the pathogenesis of AI, but also in that of the myelodysplastic syndrome [83,84]. The detailed role of heme in these complex regulatory pathways of HSPCs remains to be established.…”
Section: Heme Sustains Erythropoiesis Through Differentiation Of Erytmentioning
confidence: 99%