Abstract
Visceral leishmaniasis is associated with significant changes in hematological function but the mechanisms underlying these changes are largely unknown. In contrast to naïve mice, where most long-term hematopoietic stem cells (LT-HSCs; LSK CD150+ CD34- CD48- cells) in bone marrow (BM) are quiescent, we found that during Leishmania donovani infection most LT-HSCs had entered cell cycle. Loss of quiescence correlated with a reduced self-renewal capacity and functional exhaustion, as measured by serial transfer. Quiescent LT-HSCs were maintained in infected RAG2 KO mice, but lost following adoptive transfer of IFNγ-sufficient but not IFNγ-deficient CD4+ T cells. Using mixed BM chimeras, we established that IFNγ and TNF signalling pathways converge at the level of CD4+ T cells. Critically, intrinsic TNF signalling is required for the expansion and/or differentiation of pathogenic IFNγ+CD4+ T cells that promote the irreversible loss of BM function. These findings provide new insights into the pathogenic potential of CD4+ T cells that target hematopoietic function in leishmaniasis and perhaps other infectious diseases where TNF expression and BM dysfunction also occur simultaneously.
Highlights
T cells reside in bone marrow (BM) and comprise 4–8% of total BM cells
Visceral leishmaniasis (VL) is a chronic often fatal disease caused by the protozoan parasites Leishmania donovani and L. infantum
Most long-term hematopoietic stem cells (LT-HSCs) in naïve mice are found in a quiescent state, representing cells with the highest degree of reconstitution potential
Summary
T cells reside in bone marrow (BM) and comprise 4–8% of total BM cells. Recent studies have indicated that the BM is a preferential site for homing and persistence of memory T cells that have a high proliferative potential following second encounter with a cognate antigen [1, 2]. An association between alterations in hematopoietic function and changes in BM T cells has been described in mice infected with Ehrlichia muris [6, 7], but mechanistic insight into these processes has been limited. Hematopoiesis is a strictly regulated process that depends on a small pool of Long-term hematopoietic cells (LT-HSCs), which have self-renewal capacity and the potential to give rise to all mature blood cells during the lifespan of an individual. LT-HSCs, ST-HSCs and MPPs are contained within the LSK population, so called for their lack of expression of mature blood cell-associated markers (Lineage negative) and their expression of Sca and cKit. MPPs give rise to intermediary progenitors, the common lymphoid progenitors (CLPs) and the common myeloid progenitors (CMPs), the latter subsequently giving rise to both granulocyte/macrophage progenitors (GMPs) and megakaryocytic/erythrocyte progenitors (MEPs) [8]. Non-committed and lineage-committed progenitors are collectively defined as hematopoietic stem and progenitor cells (HSPCs)
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