Age and stage dependency of estrogen receptor expression by lymphocyte precursors.

Sex steroids negatively regulate B lymphopoiesis in adult mice. Paradoxically, lymphocytes arise during fetal life, when estrogen levels are high and maternal lymphopoiesis is suppressed. Here we demonstrate that embryonic B lymphopoiesis was unaffected by estrogen, but sensitive to glucocorticoids. Both fetal and adult precursors contained glucocorticoid receptor transcripts, but only adult precursors expressed estrogen receptor alpha and beta together with the androgen receptor. Fetal hematopoietic cells did not efficiently acquire functional estrogen receptors after transplantation to irradiated adult mice. Sex steroid receptors were also expressed in a stage- and developmental age-dependent fashion in human precursors. A developmental switch in responsiveness of hematopoietic cells to sex steroids may be essential for formation of the immune system.

Type I interferons and limitin: a comparison of structures, receptors, and functions.

The type I interferon (IFN) family includes IFN-alpha, IFN-beta, IFN-pi, and IFN-tau. These molecules are clustered according to sequence homologies, use of the same cell surface receptor, and similar functions. IFN-alpha and IFN-beta have a globular structure composed of five a-helices. Their receptors, IFNAR1 and IFNAR2, belong to the class II cytokine receptor family for a-helical cytokines. Information about structure-function relationships between these and other IFNs is being provided by comparative sequence analysis, reference to a prototypic three-dimensional structure, analysis with monoclonal antibodies, construction of hybrid molecules and site directed mutagenesis. While much remains to be done, it should someday be possible to understand differences among IFNs in terms of how they interact with their corresponding receptors. Our recently identified IFN-like molecule, limitin, has weak sequence homology to IFN-alpha, IFN-beta, and IFN-omega and displays its biological functions through the same IFN-alpha/beta receptors. While limitin has antiproliferative, immunomodulatory, and antiviral effects like IFN-alpha and IFN-beta, it is unique in lacking influence on myeloid and erythroid progenitors. Further analysis of this functionally unique cytokine should be informative about complex IFN-receptor interactions. Furthermore, a human homologue or synthetic variant might be superior for clinical applications as an IFN without myelosuppressive properties.

Relatively normal human lymphopoiesis but rapid turnover of newly formed B cells in transplanted nonobese diabetic/SCID mice.

Human B lineage lymphocyte precursors in chimeric nonobese diabetic/SCID mice transplanted with umbilical cord blood cells were directly compared with those present in normal bone marrow. All precursor subsets were represented and in nearly normal proportions. Cell cycle activity and population dynamics were investigated by staining for the Ki-67 nuclear Ag as well as by incorporation experiments using 5-bromo-2'-deoxyuridine. Again, this revealed that human B lymphopoiesis in chimeras parallels that in normal marrow with respect to replication and progression through the lineage. Moreover, sequencing of Ig gene rearrangement products showed that a diverse repertoire of V(H) genes was utilized by the newly formed lymphocytes but there was no evidence for somatic hypermutation. The newly formed B cells frequently acquired the CD5 Ag and had a short life span in the periphery. Thus, all molecular requirements for normal B lymphocyte formation are present in nonobese diabetic/SCID mice, but additional factors are needed for recruitment of B cells into a fully mature, long-lived pool. The model can now be exploited to learn about species restricted and conserved environmental cues for human B lymphocyte production.

Identification of very early lymphoid precursors in bone marrow and their regulation by estrogen.

Estrogen is a negative regulator of lymphopoiesis and provides an experimental tool for probing relationships between lymphocyte precursors and stem cells. We found that expression of lymphocyte-associated genes and immunoglobulin (Ig) gene rearrangement occurred before CD45R acquisition. Lymphoid-restricted progenitors that were Lin(-)IL-7R alpha(+)c-kit(lo)TdT(+) (lineage marker(-), interleukin receptor 7 alpha(+), c-kit(lo) and terminal deoxynucleotidyl transferase(+)) were selectively depleted in estrogen-treated mice; within a less differentiated Lin-c-kit(hi) fraction, functional precursors of B and T, but not myeloid, cells were also selectively depleted. TdT and an Ig heavy chain transgene were detected within a hormone-regulated Lin(-)c-kit(hi)Sca-1(+)CD27(+)Flk-2(+)IL-7R alpha(-) subset of this multipotential progenitor population. Identification of these extremely early lymphoid precursors should facilitate investigation of the molecular mechanisms that control lineage-fate decisions in hematopoiesis.

Limitin: an interferon-like cytokine without myeloerythroid suppressive properties.

Limitin is an interferon (IFN)-like cytokine that we recently identified and cloned on the basis of its ability to arrest the growth or kill lympho-hematopoietic cells. This 182 amino acid protein has approximately 30% sequence identity with IFN-alpha, IFN-beta, and IFN-omega. Limitin binds to the IFN-alpha/beta receptors and induces IFN regulatory factor-1, thereby indicating that limitin constitutes a new prototype of the type I IFN family. As with previously known IFNs, limitin inhibited B lymphopoiesis in vivo as well as in vitro. In addition, limitin not only modified the proliferation and function of peripheral T lymphocytes, natural killer cells, and bone marrow stromal cells but also had antiviral activity. Therefore, limitin is a multifunctional cytokine with several potential cellular targets. Because to date we have found no influence of limitin on normal myeloid and erythroid progenitors, limitin is unique among the IFNs. Type I IFN family contains IFN-alpha, IFN-beta, IFN-omega, and IFN-tau, and IFN-alpha is composed of at least 14 subtypes. All IFNs have anti-proliferative, immunomodulatory, and antiviral effects and influence to each other in the body. Limitin should play a role in the complex IFN network, and its human homologue would be useful as a therapeutic agent if it lacked myelosuppressive activity.

Differentiation stages of eosinophils characterized by hyaluronic acid binding via CD44 and responsiveness to stimuli.

To characterize interleukin (IL)-5-induced eosinophils, we examined the expression of CD44, very late antigen (VLA)-4, and the IL-5 receptor alpha chain, as well as the levels of eosinophil peroxidase and the generation of superoxide. Eosinophils were prepared from IL-5-transgenic mice, then characterized using electron microscopy to determine their responses to stimuli. Whereas CD44 densities remained almost constant, the level of VLA-4 increased in parallel with eosinophil maturation. Although a subset of IL-5-induced eosinophils with high side scatter recovered from bone marrow and rare ones found in blood recognized hyaluronic acid (HA), most did not have this property. Bone marrow eosinophils with high side scatter and lower density contained eosinophil peroxidase, not only in granules, but also in membranous structures for 30% of this population. This population developed HA-binding ability in response to IL-3, IL-4, IL-5, granulocyte-macrophage colony-stimulating factor, macrophage inflammatory protein (MIP)-2, monocyte chemotactic protein (MCP)-1, eotaxin, nerve growth factor (NGF), and opsonized zymosan (OZ). Peripheral blood eosinophils acquired HA-binding ability in response to the same stimuli, but their responses were less than those of bone marrow eosinophils with high levels of side scatter. However, splenic eosinophils did not respond to these stimuli. Although peripheral blood eosinophils did not proliferate when stimulated by IL-5, these were the only cells that released eosinophil peroxidase in response to IL-4, MIP-2, MCP-1, eotaxin, NGF, and OZ. With the exception of a subset of bone marrow eosinophils, the ability to acquire HA binding, but not the ability to generate superoxide, correlated with eosinophil peroxidase activity and major basic protein accumulation in the granules of maturing cells.

Characteristics of early murine B-lymphocyte precursors and their direct sensitivity to negative regulators.

Recently, a collection of surface markers was exploited to isolate viable Lin(-) TdT(+) cells from murine bone marrow. These early pro-B cells were enriched for B-lineage lymphocyte precursor activity measured by short-term culture and had little responsiveness to myeloid growth factors. Early precursors can be propagated with remarkably high cloning frequencies in stromal cell-free, serum-free cultures, permitting this analysis of direct regulatory factors. Expression of the interleukin-7 receptor (IL-7Ralpha) chain marks functional precursors and IL-7 is necessary for progression beyond the CD45RA(+) CD19(-) stage. Efficient survival and differentiation were only observed when stem cell factor and Flt-3 ligand were also present. IL-7-responsive CD19(+) precursors are estrogen resistant. However, B-lineage differentiation was selectively abrogated when highly purified Lin(-) precursors were treated with hormone in the absence of stromal cells. In addition, early stages of B lymphopoiesis were arrested by limitin, a new interferon (IFN)-like cytokine as well as IFN-alpha, IFN-gamma, or transforming growth factor beta (TGF-beta), but not by epidermal growth factor (EGF). Lin(-) TdT(+) early pro-B cells are shown here to be CD27(+) AA4.1(+/-)Ki-67(+) Ly-6C(-) Ly-6A/Sca-1(Lo/-)Thy-1(-)CD43(+) CD4(+/-)CD16/32(Lo/-)CD44(Hi) and similar in some respects to the "common lymphoid progenitors" (CLP) identified by others. Although early pro-B cells have lost myeloid differentiation potential, transplantation experiments described here reveal that at least some can generate T lymphocytes. Of particular importance is the demonstration that a pivotal early stage of lymphopoiesis is directly sensitive to negative regulation by hormones and cytokines.

Aberrant expression and localization of the cytoskeleton-binding pp52 (LSP1) protein in hairy cell leukemia.

Non-retractable cell surface projections and cytoskeleton-mediated functional defects are distinguishing features of both hairy cell leukemia (HCL) and neutrophil actin dysfunction (NAD). These defects in NAD neutrophils are attributed to moderate over-expression of pp52 (LSP1), the F-actin-binding, leukocyte-specific phosphoprotein. Here we report that pp52 is similarly elevated in HCL patient PBMCs. Established HCL cell lines exhibited characteristic morphological features like those of fresh HCL cells and showed elevated pp52 levels. The excess pp52 in these HCL cell lines was selectively associated with the F-actin-rich cytoskeletal arrays in surface projections. Treatments producing radical changes in HCL cell shape also altered pp52 expression and intracellular distribution. Alpha interferon (IFNalpha, used to treat HCL) reduced pp52 levels, normalized intracellular pp52 distribution and reverted HCL cells to rounded B cell morphology. Phorbol ester stimulation rapidly generated hyper-phosphorylated pp52 isoforms which translocated from the cytoskeleton to the cytosol prior to the further elongation of surface spikes. This indicates a direct role for phosphorylation in controlling pp52 interactions with the cytoskeleton. Overall, these findings strongly suggest that elevated pp52 expression and/or selective cytoskeletal association contributes to the distinctive morphology of HCL cells.

Early B-lymphocyte precursors and their regulation by sex steroids.

This review describes an improved characterization of early B-lymphocyte precursors in mice and the remarkable sensitivity of the same cells to hormones. The nuclear enzyme terminal deoxynucleotidyl transferase (TdT) was used as a marker to image and characterize bone marrow cells lacking all lineage-associated markers. Most early TdT+ precursors have a distinctive density of c-kit and express the interleukin-7Ralpha chain, as well as flt-3/flk2, but lack CD34. An understanding of those cell surface properties made it possible to obtain highly enriched, viable cells with the potential to give rise to CD19+ lymphocytes in culture. A series of other flow cytometry and culture experiments suggested a possible differentiation sequence for these early pro-B cells. This new model was used to advantage in our studies of sex steroids. It appears that early precursors represent a hormone-sensitive control point for determining numbers of new B lymphocytes that are produced within bone marrow. We also compare and contrast these findings with B lymphopoiesis in humans.

The CD9 molecule on stromal cells.

Numerous functions have been attributed to CD9 and other members of the transmembrane 4 (TM4) superfamily. CD9 is thought to be involved in cell proliferation, differentiation, motility and survival. It may also function as part of toxin and virus receptor complexes. Although much remains to be learned about molecular mechanisms, the molecule associates with several integrins, small G proteins, MHC class II molecules and other TM4 superfamily proteins on a given cell surface membrane. Here, we briefly discuss the CD9 displayed on stromal cells that support hematopoiesis and the potential importance of this molecule to osteoclast differentiation.

Limitin: An interferon-like cytokine that preferentially influences B-lymphocyte precursors.

We have identified an interferon-like cytokine, limitin, on the basis of its ability to arrest the growth of or kill lympho-hematopoietic cells. Limitin strongly inhibited B lymphopoiesis in vitro and in vivo but had little influence on either myelopoiesis or erythropoiesis. Because limitin uses the interferon alpha/beta receptors and induces interferon regulatory factor-1, it may represent a previously unknown type I interferon prototype. However, preferential B-lineage growth inhibition and activation of Janus kinase 2 in a myelomonocytic leukemia line have not been described for previously known interferons.

Stromal cell CD9 and the differentiation of hematopoietic stem/progenitor cells.

CD9 belongs to the tetraspan family of proteins that facilitates the regulation of cell proliferation, motility, and adhesion. In mouse hematopoietic organs, CD9 is expressed by myeloid and stromal cells. Although the precise mechanisms are not clear, antibody ligation of CD9 on stromal cells regulates the adhesion between stromal cells and hematopoietic stem cells, the production of myeloid cells in long term bone marrow cultures and the differentiation of hematopoietic stem cells. A 100 kD protein co-precipitated with CD9 is distinct from several previously reported CD9-associated molecules with respect to size and distribution. Identification and analysis of this interesting protein may clarify the molecular mechanisms through which CD9 bearing stromal cells control the differentiation of hematopoietic stem cells and/or allow them to maintain their vital self-renewal capacity.

Estrogen influences the differentiation, proliferation, and survival of early B-lineage precursors.

B lymphocyte production in murine bone marrow is negatively regulated by sex steroids and the aim of this study was to identify early hormone sensitive checkpoints. Estrogen (E2) treatment reduced cmu(+) pre-B cells, a change that occurred concomitantly with decreased Ig gene rearrangements and rag-1 transcripts. Estrogen decreased B lineage precursors in Ig transgenic mice, demonstrating that hormonal regulation is independent of the recombination process. B lineage precursors in Bcl-2 transgenic mice were resistant to estrogen treatment, suggesting that life/death decisions are involved in hormonal regulation. A previously uncharacterized population of CD43(-)cmu(-) B lineage precursors was identified in normal, Ig transgenic, and RAG(-/-) mice after estrogen treatment, revealing that down-regulation of CD43 can occur independent of Ig heavy chain expression. These cells expressed transcripts for both tdt and bcl-2, characteristics of early B-cell precursors. BrdU incorporation analysis revealed that the mitotic activity of early B-lineage cells is reduced in hormone-treated mice. We conclude that sex steroids modulate the production of B-lineage cells by influencing the differentiation, proliferation, and survival of early B-cell precursors. These findings are informative about mechanisms of hormonal regulation, as well as the significance of some differentiation-related events. (Blood. 2000;95:2059-2067)

Functional assessment of precursors from murine bone marrow suggests a sequence of early B lineage differentiation events.

Most lineage marker-negative (Lin-)TdT+ cells from murine marrow lack CD34 but display c-kit at low density as well as IL-7Ralpha and Flk-2/Flt-3 receptors. Single cells with these characteristics generated CD45RA+CD19- as well as CD19+ lymphocytes in culture. CD45RA+CD19- marrow cells were resolved into three nonoverlapping subsets. One subset, lacking DX5 and Ly-6C antigens, yielded CD19+ cells in culture. Further analysis demonstrated CD24 on most Lin-TdT+ cells and all CD45R+CD19-DX5-Ly-6C- cells. Mac-1/CD11b was absent from these two subsets of B lineage precursors, while IL-7Ralpha was retained during subsequent differentiation to a CD19+ and stromal cell-independent stage. These findings contrast with previous descriptions of B lymphocyte precursors and suggest a sequence of early differentiation events.

Prostaglandin E(2) and stem cell factor can deliver opposing signals to B lymphocyte precursors.

The synthetic prostanoid, 16,16-dimethyl PGE(2), suppressed B lymphopoiesis in mice and proliferation of normal B cell precursors or the F10 pro-B cell line to interleukin 7 in culture. This was not the case with two other prostanoids, PGD(2) and PGF(2alpha), or agonists for PGI(2) agonist and thromboxane A(2) agonist receptors. PGE(2), but not the related prostanoids or agonists, induced apoptosis in F10 cells. The apoptotic response was mediated by the EP2 class of PGE(2) receptors and required an increase in intracellular cyclic adenosine 3',5'-monophosphate, activation of protein kinase A, and protein synthesis. The influence of PGE(2) on F10 cells was diminished in the presence of a cloned stromal cell line or stem cell factor. These findings describe another potential regulatory circuit in bone marrow which might influence B lymphopoiesis under disease or steady-state conditions.

Role of the integrin-associated protein CD9 in binding between sperm ADAM 2 and the egg integrin alpha6beta1: implications for murine fertilization.

CD9 is a tetraspan protein that associates with several beta1 integrins, including alpha6beta1. Because alpha6beta1 is present on murine eggs and interacts with the sperm-surface glycoprotein ADAM 2 (fertilin beta), we first asked whether CD9 is present on murine eggs and whether it functions in sperm-egg binding and fusion. CD9 is present on the plasma membrane of oocytes in the ovary as well as on eggs isolated from the oviduct. The anti-CD9 mAb, JF9, potently inhibits sperm-egg binding and fusion in vitro in a dose-dependent manner. JF9 also disrupts binding of fluorescent beads coated with native fertilin or a recombinant fertilin beta disintegrin domain. (Both ligands bind to the egg via alpha6beta1.) Immunohistochemistry showed that CD9 is undetectable in the uterine epithelium, appears basolaterally and as prominent apical patches on the epithelium in the region between the uterus and the oviduct, and then persists apically in the oviduct. The integrin alpha6A subunit is found in similar apical patches in the region between the uterus and oviduct, but is confined to the basal aspect of the epithelium in the uterus and oviduct. Hence, alpha6A and CD9 both are expressed on the apical epithelial surface at the uterine-oviduct junction. These findings correlate with the observation that fertilin beta "knockout" sperm traverse the uterus but do not progress into the oviduct, contributing to the infertility of fertilin beta(-/-) male mice. Our results suggest that high-avidity binding between fertilin beta (ADAM 2) and alpha6beta1 requires cooperation between alpha6beta1 and CD9. Such cooperation may assist sperm passage into the oviduct as well as sperm-egg interactions.

Loss of c-kit accompanies B-lineage commitment and acquisition of CD45R by most murine B-lymphocyte precursors.

Using surface markers, we identified two bone marrow (BM) subsets enriched for TdT+ cells on the brink of CD45R acquisition. These two populations, Lin-c-kitLo and Lin-c-kit-, consisting of 35.4% and 7. 4%, respectively, TdT+ cells, generated B-lineage cells in overnight cultures. Approximately half of the c-kitLo B-lineage precursors were bipotential, yielding myeloid and lymphoid progeny, whereas most that were c-kit- gave rise only to lymphocytes. Analysis of B-lineage progression during a finite culture period showed that the most mature precursors were concentrated in the Lin-c-kit- population. Moreover, a majority of the earliest CD45R+ pro-B cells in BM, identified as CD45R+ CD43(+) BP-1(-) CD25(-) natural killer (NK)1.1(-) sIgM-, were also c-kit-. These c-kit- cells, like their c-kitLo counterparts, expressed TdT, proliferated in response to interleukin (IL)-7, and generated sIgM+ cells. These data suggest that TdT expression is initiated as c-kit downregulation begins in Lin- cells, with progressive loss of c-kit during B-lineage differentiation. CD45R expression is initiated during the transition from c-kitLo to c-kit- with many cells losing c-kit before acquiring CD45R. The ability to isolate highly enriched populations of viable CD45R- precursors will be instrumental in characterizing the earliest B-lineage cells.