Functional characterization of two stromal cell lines that support B lymphopoiesis.
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Abstract:
Bone marrow stromal cells have well documented effects on the production of B lymphocytes, but whether or not stromal cell signals are involved in the pre-B to B cell transition is unclear. The potential of two stromal cell lines, S10 and S17, in this process was examined. Initial experiments, using a short term liquid culture, indicated that S10 and S17 stroma efficiently supported the generation of clonable B cells (B lymphocyte CFU) from their immediate precursors in fresh bone marrow. The contribution of macrophages and other accessory cells in those experiments was minimized through use of a colony assay system that permits the direct effects of stromal cell signals on single B cell progenitors to be evaluated. The results indicated that soluble mediators from the S10 and S17 lines could support colony formation from fresh or cultured surface Ig- bone marrow cells. Colonies supported by S17 stroma appeared on day 15 and contained cells that expressed the B220 Ag; surface IgM expression was never observed. S10 supported colonies appeared on day 7 and routinely included surface IgM+ cells. Individual colonies were capable of undergoing additional growth when picked and replated directly onto the different stroma. Those colonies replated onto S10 stroma generated surface IgM expressing cells in up to 60% of experiments, but colonies transferred onto the S17 cell line included B cells only 10% of the time. These data demonstrate that stromal cells alone can provide the signals necessary for generating a surface IgM+ B cell from precursors but that not all stromal cell lines are equally efficient at doing so.Keywords:
Lymphopoiesis
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Lymphopoiesis
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Studies of Whitlock/Witte long-term bone marrow cultures have revealed the necessity of two cell types for B lymphopoiesis, a stem cell and the stromal cell. While a number of stromal cell lines exist they have been found to be heterogeneous with respect to cell surface marker expression and growth factor production. Separation and analysis of fresh bone marrow stromal cells is, therefore, necessary to understand the regulation of lymphopoiesis in vivo. Here we report the early stages of such studies. We demonstrate that stromal cells, as assessed by morphology and alkaline phosphatase reactivity after short-term culture, are enriched in cellular aggregates that can be separated from bone marrow suspensions. Stromal cells are present in aggregates at a frequency of one per thousand cells, whereas marrow from which the aggregates have been removed contains only one stromal cell per fifty-thousand cells. These aggregates are able to form Whitlock cultures from greatly reduced numbers of initiating cells, indicating that they contain culturable B lineage precursors as well as stromal cells capable of supporting B lymphopoiesis. The aggregates appear to be naturally formed and provide a means to examine native B cell precursor-stromal cell contacts. We find little evidence for sequestering of late-stage B cell precursors within the aggregates. Terminal deoxynucleotidyl transferase-positive cells, on the other hand, are approximately three times more frequent in bone marrow aggregates, suggesting close contact between very early B cell progenitors and stromal cells within the aggregates. The finding that stromal cells are enriched in cellular aggregates is an important first step in the ultimate isolation of these cells from marrow suspensions, which is vital to understanding stromal cell function in vivo.
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Abstract B lymphopoiesis supporting activities of two stromal cell clones, MC3T3‐G2/PA6 (PA6) and ST2, were compared. When normal bone marrow cells were cultured in these clones under Whitlock‐Witte‐type condition, mature B cells were generated only in the culture with the ST2 layer. The cells maintained on the PA6 layer, however, contained the precursor cells giving rise to mature B cells when transferred to the ST2 layer. Thus, PA6 is a stromal cell clone capable of supporting the early B progenitors but cannot support a further maturation step into pre‐B cells. The immunoglobulin heavy chain gene configuration of B progenitors maintained on the PA6 layer diversified after their transfer onto ST2 layer. This suggests that they are actually the earliest progenitors. This marked difference in the stromal cell activities between PA6 and ST2 could also be distinguished by stromal cell‐dependent pre‐B cell lines. Among four ST2‐dependent pre‐B cell lines tested, two grew only on the ST2 layer, which is capable of supporting B lymphopoiesis, while the others grew both on the ST2 and PA6 layers. These results strongly suggest that the process of intra‐marrow B cell development is controlled by more than one signal acting on different stages of B cell differentiation.
Lymphopoiesis
clone (Java method)
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Lymphopoiesis
Thymic stromal lymphopoietin
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Mice deficient for the transcriptional coactivator BOB.1/OBF.1 show several defects in B cell differentiation. Numbers of immature transitional B cells in the bone marrow are reduced and fewer B cells reach the periphery. Furthermore, germinal center B cells are absent and marginal zone (MZ) B lymphocytes are markedly reduced. Increased levels of B cell apoptosis in these mice prompted us to analyze expression and function of antiapoptotic proteins. Bcl2 expression is strongly reduced in BOB.1/OBF.1-deficient pre–B cells. When BOB.1/OBF.1-deficient mice were crossed with Bcl2-transgenic mice, B cell development in the bone marrow and numbers of B cells in peripheral lymphoid organs were normalized. However, neither germinal center B cells nor MZ B cells were rescued. Additionally, Bcl2 did not rescue the defects in signaling and affinity maturation found in BOB.1/OBF.1-deficient mice. Interestingly, Bcl2-transgenic mice by themselves show an MZ B cell defect. Virtually no functional MZ B cells were detected in these mice. In contrast, mice deficient for Bcl2 show a relative increase in MZ B cell numbers, indicating a previously undetected function of Bcl2 for this B cell compartment.
Lymphopoiesis
Naive B cell
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African trypanosomosis is a parasitic disease affecting both humans (sleeping sickness) and animals (nagana). In murine trypanosomosis, the B-cell compartment is rapidly destroyed after infection. In addition, B-cell lymphopoiesis in the bone marrow is abrogated, B-cell subsets in the spleen are irreversibly depleted, and B-cell memory is destroyed. Here, we investigated the effect of cure of infection on the B-cell compartment. Suramin and diminazene aceturate were used in this study as these drugs exhibit different modes of uptake and different mechanisms of trypanocidal action. Curative drug treatment of trypanosomosis infection led to the re-initiation of B-cell lymphopoiesis in the bone marrow, and to the repopulation of splenic B-cell subsets, independent of the drug used. Neither of these drugs by itself induced measurable effects on B-cell lymphopoiesis in the bone marrow or B-cell homoeostasis in the spleen in healthy, naïve animals.
Lymphopoiesis
Diminazene
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Although it is reported that B lymphopoiesis declines with age, the precursor stage(s) affected and the age of onset are ambiguous. Each progressive phase of B cell differentiation has distinct requirements; therefore, precise identificatIon of the stage(s) that decline would yield insight into the age-related mechanisms affecting humoral immunity. We analysed the composition of B lineage cells of mice 1, 4, 12 and 24 months of age using flow cytometry. Numbers of prepro-B and pro-B cells were unchanged, and a profound decrease occurred only in the numbers of pre-B cells. This decrease occurred in two distinct phases: between 1 and 4 months and between 12 and 24 months. Notably, the numbers of newly formed B cells did not decline in parallel, suggesting that mechanisms are established to overcome the deficiency of pre-B cells. Since the age-related changes are limited to the pre-B cell stage, we hypothesized that the impairment acts at the pro-B to pre-B transition. We therefore evaluated whether the pro-B cells or the supporting stromal cells, which are necessary for normal progression of this stage, changed with age. The abiiity of pro-B cells to proliferate in the presence of stromal cells was reduced by 24 months of age, as was the ability of the stromal cells to support pro-B cell proliferation. In contrast, the ability to mature into IgM+ cells was unchanged. Thus, strategies that supplement the stromal environment may enhance B lymphopoiesis in aged animals.
Lymphopoiesis
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Lymphopoiesis
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Lymphopoiesis
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The peripheral B cell compartment in mice and humans is maintained by continuous production of transitional B cells in the bone marrow. In other species, however, including rabbits, B lymphopoiesis in the bone marrow abates early in life, and it is unclear how the peripheral B cell compartment is maintained. We identified transitional B cells in rabbits and classified them into T1 (CD24(high)CD21(low)) and T2 (CD24(high)CD21(+)) B cell subsets. By neutralizing B cell-activating factor in vivo, we found an arrest in peripheral B cell development at the T1 B cell stage. Surprisingly, T1 B cells were present in GALT, blood, and spleen of adult rabbits, long after B lymphopoiesis was arrested. T1 B cells were distinct from their counterparts in other species because they are proliferating and the Ig genes are somatically diversified. We designate these newly described cells as T1d B cells and propose a model in which they develop in GALT, self renew, continuously differentiate into mature B cells, and thereby maintain peripheral B cell homeostasis in adults in the absence of B lymphopoiesis.
Homeostasis
Transitional Cell
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