Molecular mechanisms in lymphoid restriction : securing the B lineage fate

• With the work in this thesis I have aimed to deepen the understanding of the mechanisms behind the development of different blood cell lineages with a specific focus on B cell development.To understand the interplay between extracellular signaling and transcription factor networks in early lymphoid development we investigated the functional collaborations of FLT3 and IL7R. We found that signaling via FLT3 and IL7R act in powerful synergy on proliferation of common lymphoid progenitors (CLPs). In addition to a role in expansion of progenitor cells we provided evidence for that IL7R signaling play a crucial role in B-cell commitment. IL7 deficient mice display a dramatic block in development before functional lineage restriction in the Ly6D+ CLP-compartment. The few Ly6D+CLPs that do develop have reduced mRNA levels of transcription factor EBF1, a protein with crucial functions in lineage restriction and activation of the B-lymphoid program. One crucial function of EBF1 is to activate Pax5. Even though Pax5 deficient fetal liver cells upon transplantation to congenic hosts will generate an abundance of cells with an activated B-lineage transcriptional program, the pro-B cells have disrupted regulation of non-B-lineage transcripts and a propensity to develop into T- and NK-cells in vitro. Both the activation of the B-lineage program and lineage restriction was dependent on the dose of transcription factors. Mice carrying a heterozygous mutation for the transcription factor E2A had slightly reduced relative frequency of progenitor cells and an impaired B-lineage specification in CLPs. Loss of one allele of Ebf1 resulted in reduced surface expression of IL2Rα and pre-B cell receptor (BCR), reduced IL7-response in vitro, and disrupted cell cycle dynamics in pro- and pre-B cells. While heterozygous loss of Pax5 did not result in any dramatic phenotype,  the combined loss of one allele of Pax5 and one allele of Ebf1 (Pax5+/-Ebf1+/-) had a dramatic effect on lineage plasticity in B-cell progenitors compared to the single heterozygotes. Furthermore, these Pax5+/-Ebf1+/- mice developed spontaneous, transplantable pro-B cell tumors and had a significantly reduced probability to survive over time. The transformed cells show high in vitro plasticity and tumor cells with induced overexpression of intracellular Notch1 can transform into T-lineage cell in vivo.The data presented in this thesis add important pieces of information to the field of developmental hematopoiesis. By increasing the analytical depth of development in normal circumstances, and by understanding the consequence of genetic mutations in relation to cell type, we hope to contribute to the understanding of hematopoietic development in health and disease.

Ämnesord

MEDICIN OCH HÄLSOVETENSKAP  -- Medicinska och farmaceutiska grundvetenskaper -- Mikrobiologi inom det medicinska området (hsv//swe)

MEDICAL AND HEALTH SCIENCES  -- Basic Medicine -- Microbiology in the medical area (hsv//eng)

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