Mutations in ribosomal proteins (RPs) lead to ribosomopathies. Mechanistic basis underlying the failure of erythropoiesis due to mutations in various RPs is yet to be fully defined. Lack of relevant murine models of ribosomapathies has hindered significant progress. To fill this gap, we generated Rps19 and Rpl5 floxed mice using CRISPR/Cas9 technologies and characterized their hematologic phenotype following crossing them to a Vav-iCremice. Vav-iCre;Rps19 fl/+mice are born at expected Mendelian rates with severe macrocytic anemia and reticulocytopenia. These mice die by post-natal day 10 (P10), due to bone marrow failure and absence of splenic stress erythropoiesis. Analysis of fetal erythropoiesis revealed a 40% reduction in the total number of erythroid cells in Vav-iCre;Rps19 fl/+, however erythroblasts at all stages of terminal erythroid differentiation were found. Intriguingly, studies of hematopoietic stem and progenitor cell s demonstrated a progressive exhaustion of the stem cell compartment.
scRNAseq studies of Vav-iCre;Rps19 fl/+ fetal livers demonstrated increased expression of RUNX1, a transcription factor implicated in the regulation of ribosome biogenesis. Accordingly, we observed that hematopoietic progenitors of Vav-iCre,Rps19 fl/+had enhanced global protein synthesis along with increased RUNX1 protein, despite ribosomal protein haploinsufficiency demonstrated by polysome profiling.
In marked contrast, Vav-iCre;Rpl5 fl/+ mice presented with a more severe phenotype and died perinatally from anemia. Further analysis revealed a failure of erythropoiesis at erythroid progenitor stages in Vav-iCre;Rpl5 fl/+. In striking contrast with the Rps19 model, Vav-iCre;Rpl5 fl/+ mice had an expansion of the hematopoietic stem and progenitor cell compartment that also had an increased protein translation rate . This increased translation occurred in the context of normal expression levels of RUNX1. Interestingly Vav-iCre;Rpl5 fl/+ micehad reduced mTORC1 activity and a dramatic reduction in the expression of other ribosomal proteins. Consistent with previous studies about the pivotal role of mTORC1 in erythropoiesis Vav-iCre,Raptor fl/fl(mTORC1 conditional knockout) had reduced expressions of RPs in fetal liver.
In summary, we report different requirements for Rps19 and Rpl5 during fetal hematopoiesis in regulating erythroid progenitor biology. While Rps19 plays an essential role at the HSC level to maintain the generation of erythroid progenitors, Rpl5 is critical once progenitors are committed towards an erythroid fate. Along with the findings that translation is increased in RP haploinsufficient models, our study unravels potential compensatory mechanisms during fetal hematopoiesis.
Disclosures
Crispino:SAB of Alethiomics: Other: Member; Cellarity: Consultancy.
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