Origins of peripheral B cells in IL-7 receptor-deficient mice

The interleukin 7 (IL-7) signaling pathway is critical for early lymphoid differentiation. We found dramatic perturbations in fetal liver B cell development and confirmed a complete absence of developing B cells in the adult bone marrow in mice lacking the IL-7 receptor alpha (IL-7Ralpha) gene. We show that peripheral B-2 and B-1 cell populations are deficient in IL-7Ralpha-/- mice. B-2 follicular cell and peritoneal B-1 cell percentages are reduced, while B-2 marginal zone cell percentages are increased. A comparison of bone marrow and splenic populations at different ages revealed that the splenic B cell populations seen in adult IL-7Ralpha-/- mice first appear during neonatal development. We have measured N-nucleotide addition at the joints of V(D)J rearrangements in splenic B cells and have used it as a somatic marker to define and separate bone marrow-derived B cells from fetal liver-derived B cells. B cells isolated from the bone marrow and spleen of adult and neonatal IL-7Ralpha-deficient mice harbor high levels of N-nucleotide additions similar to those found in equivalent wild-type B cell populations. We conclude that the majority of splenic B cells in IL-7Ralpha-deficient mice originate from the bone marrow and not the fetal liver.     

Characterization of thymic stromal-derived lymphopoietin (TSLP) in murine B cell development in vitro

B cell development is dependent on both direct interactions with stromal cells and their secreted cytokines. The precise mechanisms by which these interactions regulate B cell differentiation are currently unknown. We report here that a novel growth factor thymic stromal-derived lymphopoietin (TSLP) can replace the activity of interleukin-7 (IL-7) in supporting B cell development in vitro. TSLP was found to promote the proliferation and differentiation of committed B220⁺ B cell progenitors from day 15 fetal liver. Phenotypic analysis of these cells revealed that they are at the pro-B cell stage of differentiation and express cell surface markers characteristic of pro-B cells cultured in IL-7. TSLP can replace the activity of IL-7 in supporting the progression of B lymphocytes from uncommitted bipotential precursors. In the absence of either TSLP or IL-7, the progeny of cells that give rise to mature B lymphocytes fail to develop from these bipotential precursors. Moreover, TSLP can substitute for IL-7 in supporting the sustained proliferative response exhibited by B cell progenitors from CBA/N mice. Together these results show that TSLP can replace the requirement for IL-7 during in vitro B cell development.     

Cloning of a receptor subunit required for signaling by thymic stromal lymphopoietin

Signaling by type I cytokines involves the formation of receptor homodimers, heterodimers or higher order receptor oligomers. Here we report the cloning of a type I cytokine receptor subunit that is most closely related to the common cytokine receptor gamma chain (gamma c). Binding and crosslinking experiments demonstrate that this protein is the receptor for a recently described interleukin 7 (IL-7)-like factor, thymic stromal lymphopoietin (TSLP). Binding of TSLP to the thymic stromal lymphopoietin receptor (TSLPR) is increased markedly in the presence of the IL-7 receptor alpha chain (IL-7R alpha). IL-7R alpha-expressing but not parental 32D cells proliferate in the presence of exogenous TSLP. Moreover, a combination of IL-7R alpha and TSLPR is required for TSLP-dependent activation of a STAT5-dependent reporter construct. Thus it is shown that IL-7R alpha is a component of both the IL-7 and TSLP receptors, which helps to explain why deletion of the gene that encodes IL-7R alpha affects the lymphoid system more severely than deletion of the gene encoding IL-7 does. Cloning of TSLPR should facilitate an understanding of TSLP function and its signaling mechanism.     

Identification of CD19(-)B220(+)c-Kit(+)Flt3/Flk-2(+)cells as early B lymphoid precursors before pre-B-I cells in juvenile mouse bone marrow

The combined analysis of the expression of receptor tyrosine kinases c-Kit and Flt3/Flk-2 and of the human CD25 gene expressed as a transgene under the regulation of the mouse lambda5 promoter in the bone marrow of 1-week-old mice allows us to identify three stages of B lymphocyte development before the CD19(+)c-Kit(+) pre-B-I cells. Single-cell PCR analysis of the rearrangement status of the Ig heavy chain alleles allows us to order these early stages of B cell development as follows: (i) B220(+)CD19(-)c-Kit(lo)Flt3/Flk-2(hi)lambda5(-), (ii) B220(+)CD19(-)c-Kit(lo)Flt3/Flk-2(hi)lambda5(+) and (iii) B220(+)CD19(+)c-Kit(lo)Flt3/Flk-2(lo)lambda5(+) before B220(+)CD19(+)c-Kit(lo)Flt3/Flk-2(-)lambda5(+) pre-B-I cells. All these progenitors are clonable on stromal cells in the presence of IL-7 and can differentiate to CD19(+)c-Kit(-) B-lineage cells. A combination of stem cell factor, Flt3 ligand and IL-7 was also able to support the proliferation and differentiation of the progenitors in a suspension culture. Furthermore, the analyses indicate that the onset of D(H)J(H) rearrangements precedes the expression of the lambda5 gene. These progenitor populations were characteristic of juvenile mice and could not be detected in the bone marrow of adult mice. Hence the expression pattern, and probably the function, of the receptor tyrosine kinases in early B cell differentiation appears to be different in juvenile and adult mice.     

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.     

Cytokine functions in the formative stages of a lymphocyte's life

Five core cytokines that control lymphocyte differentiation and maintenance have been identified and studied in depth. IL-7 sits at the apex of this cytokine hierarchy in terms of functional significance during lymphocyte development. The IL-7-dominant phase of lymphopoiesis is preceded by the actions of c-Kit ligand (also called stem cell factor; SCF) and fetal liver kinase 2 ligand (Flk-2L); the function of both of these cytokines is essential for the maintenance and development of the progenitor compartment of multiple lineages. IL-7 activity is complemented by two cytokines whose receptors share components of the IL-7 receptor: thymic stromal lymphopoietin (TSLP) and IL-15. The influences of these core cytokines on precursor lymphocyte subsets overlap during development and are often synergistic. Recent studies are beginning to uncover the molecular mechanisms of these interrelated core cytokine functions.     

TSLP or IL‐7 provide an IL‐7Rα signal that is critical for human B lymphopoiesis

Thymic stromal lymphopoietin (TSLP) and IL‐7 are cytokines that signal via the IL‐7 receptor alpha (IL‐7Rα) to exert both overlapping and unique functions during early stages of mouse B‐cell development. In human B lymphopoiesis, the requirement for IL‐7Rα signaling is controversial and the roles of IL‐7 and TSLP are less clear. Here, we evaluated human B‐cell production using novel in vitro and xenograft models of human B‐cell development that provide selective IL‐7 and human TSLP (hTSLP) stimulation. We show that in vitro human B‐cell production is almost completely blocked in the absence of IL‐7Rα stimulation, and that either TSLP or IL‐7 can provide a signal critical for the production and proliferation of human CD19⁺ PAX5⁺ pro‐B cells. Analysis of primary human bone marrow stromal cells shows that they express both IL‐7 and TSLP, providing an in vivo source of these cytokines. We further show that the in vivo production of human pro‐B cells under the influence of mouse IL‐7 in a xenograft scenario is reduced by anti‐IL‐7 neutralizing antibodies, and that this loss can be restored by hTSLP at physiological levels. These data establish the importance of IL‐7Rα mediated signals for normal human B‐cell production.     

The biological role and potential therapeutic application of interleukin 7

Interleukin (IL)-7 is a pleiotropic, non-redundant cytokine necessary for the development of B and T lymphocytes, in particular gammadelta T cell receptor-positive cell differentiation. The cytokine can function as a cofactor during myelopoiesis and the generation of cytotoxic T cells and natural killer cells, can activate monocytes/macrophages, and support the survival of mature T cells. A role for IL-7 in promoting the formation of Peyer's patch anlage has also been demonstrated. IL-7 is constitutively expressed in the thymus, bone marrow stromal cells, epithelial and dendritic cells, keratinocytes, as well as in fetal and adult liver. IL-7 acts on various cells through its receptor (IL-7R), a heterodimer consisting of an alpha chain (CD127) that specifically binds IL-7 and a common gamma(c) chain (CD132) shared by other cytokine receptors. The receptor is expressed on bone marrow progenitor cells, lymphoid T and B precursors, and mature T cells. IL-7 activity towards murine endothelial cells has been recently described. The presence of IL-7R on human endothelial cells has also been demonstrated. Several therapeutic applications of recombinant IL-7 have been proposed. These have focused on the enhancement of lymphopoiesis, promotion of stem cell engraftment, and the anti-tumor activity of the cytokine.     

Bax deficiency partially corrects interleukin-7 receptor alpha deficiency

The requirement for cytokines in hematopoiesis is partly attributable to the protection of cells from apoptosis. Since IL-7 is required for normal T cell development, we evaluated the role of Bax in vivo by generating mice deficient in both Bax and the IL-7 receptor alpha chain (IL-7R). Starting at birth, we observed complete recovery of all stages of alphabeta thymocyte development up to 4 weeks of age. However, by 12 weeks of age, thymic cellularity had reverted to that of mice deficient in IL-7R alone. The BH3 only proteins, Bad and Bim, were also part of the death pathway repressed by IL-7. Thus, in young mice, Bax emerges as an essential protein in the death pathway induced by IL-7 deficiency.     

Expression and role of interleukin-2 receptor beta chain on CD4-CD8- T cell receptor alpha beta+ cells [corrected]

Using anti-murine interleukin-2 receptor beta chain (IL-2R beta) monoclonal antibody (mAb), we have examined the expression of IL-2R beta on murine thymocyte subpopulations. We found that it was constitutively expressed on 1%-4% of thymocytes in an almost mutually exclusive fashion with IL-2R alpha. The expression of IL-2R beta is developmentally regulated. While it is expressed mainly on T cell receptor gamma delta+ (TcR gamma delta+) cells during fetal age, the major subpopulation expressing IL-2R beta in adult mouse shifts to CD4-CD8-TcR alpha beta+ thymocytes. A considerable portion of CD4-CD8- TcR alpha beta+ cells in other organs, including spleen, bone marrow and liver, was also found to express IL-2R beta. In fetal thymus organ culture, the above thymocyte subset was induced to expand in response to exogeneous IL-2, and the expansion was inhibited by addition of anti-IL-2R beta mAb, suggesting that IL-2R beta is functional in this subpopulation. However, in vivo blockade of the IL-2/IL-2R pathway with the mAb did not exert any effects on the appearance of CD4-CD8- TcR alpha beta+ cells both in the thymus and the periphery. This indicates that the development of CD4-CD8- TcR alpha beta+ cells is not solely controlled by IL-2 but also by other complex elements.     

Interleukin-10 plays an early role in generating virus-specific T cell anergy

Background

Thymic stromal derived lymphopoietin (TSLP) is preferentially and highly expressed in the thymus, but its function in T cell development is not clear.

Results

We report here that TSLP, independently or in combination with IL-7, enhances thymopoiesis in the murine fetal thymic organ culture (FTOC) model. Furthermore, TSLP preferentially increases the number and proliferation of the (DN1 and DN2) pro-T progenitor cells, and FTOC lobes from TSLP receptor-null mice show a decreased number of these cells. Finally, DN1-DN2 cells expanded with TSLP in vitro are functional T progenitors that are able to differentiate into mature T cells in fetal or adult thymus organs.

Conclusion

Together, these data suggest that TSLP plays an important role in expansion of thymocyte progenitors and may be of value for expanding T progenitor cells in vitro.     

Normal thymic selection, superantigen-induced deletion and Fas-mediated apoptosis of T cells in IL-2 receptor beta chain-deficient mice

Mice lacking the IL-2 receptor beta chain (IL-2R beta) exhibit an autoimmune reaction characterized by generalized T cell activation, production of autoantibodies, myeloproliferation and severe anemia. T cells of IL-2R beta-/- mice were examined to elucidate the mechanism responsible for their abnormal activation and to determine how such abnormal activation might affect other cell lineages. Elevated levels of IgG, IgE and autoantibodies in IL-2R beta-/- mice were found to be associated with activated CD4+ T cells which secreted elevated levels of IL-4. Thymocytes in IL-2R beta-/- mice showed normal negative and positive selection patterns when analyzed in transgenic mice bearing a TCR specific for HY antigen, suggesting that neither IL-2 nor IL-15 is essential for thymic selection. Peripheral T cells in IL-2R beta- deficient mice underwent normal programmed cell death in response to staphylococcal enterotoxin B superantigen, in contrast to cells from mice deficient for either IL-2 or IL-2R alpha. Activated T cells in IL- 2R beta-deficient mice expressed normal levels of Fas antigen and underwent normal apoptosis in response to induction with anti-Fas mAb. Thus, the accumulation of activated T cells in IL-2R beta-/- mice does not appear to be derived from abnormalities in either thymic selection or Fas-mediated apoptosis.      

Distinct roles of the interleukin-7 receptor α chain in fetal and adult thymocyte development revealed by analysis of interleukin-7 receptor α-deficient mice

Mouse mutants lacking expression of the IL-7 receptor (IL-7R) α chain are defective in thymopoiesis. The adult thymus has multiple defects, including reduced cell numbers and proportions of the more mature thymocyte subsets, a complete absence of CD25⁺ cells and a reduced level of RAG1 and RAG2 expression. We show here that, in contrast to the profound developmental arrest observed in the adult thymus, fetal thymocytes from IL-7Rα^−/− mice have normal proportions of all of the major thymocyte subpopulations, including CD25⁺ thymocytes and the most mature single-positive subsets. Moreover, normal levels of RAG1 and RAG2 were observed. Total thymocyte numbers, however, remained reduced. These data suggest that the IL-7Rα chain is a key regulator of both survival and proliferation during thymocyte development but that it is not essential for the production of T cells during fetal thymopoiesis.     

Differential role of thymic stromal lymphopoietin in the induction of airway hyperreactivity and Th2 immune response in antigen-induced asthma with respect to natural killer T cell function

Asthma is an inflammatory lung disease, in which CD1d-restricted natural killer T (NKT) cells play an important pathogenic role. Also, recent reports indicated that a cytokine, thymic stromal lymphopoietin (TSLP), is essential for the development of antigen-induced asthma. Here we examined the relationship between NKT cells and TSLP in a mouse model of asthma. NKT cells express TSLP receptor as well as IL-7 receptor alpha-chain. TSLP acts on NKT cells to preferentially increase their IL-13 production but not IFN-gamma and IL-4. In an allergen-induced asthma model, the development of airway hyperreactivity, a cardinal feature of asthma, was increased in TSLP transgenic mice, whereas this effect was not observed in TSLP transgenic mice lacking NKT cells. Interestingly, in the NKT cell-lacking TSLP transgenic mice, pulmonary eosinophilia and increase in IgE did not improve. Pulmonary lymphocytes from the NKT cell-lacking TSLP transgenic mice produced much less IL-13 upon CD3 stimulation than those from NKT cell-competent TSLP transgenic mice. These resultssuggest that, in allergen-induced asthma, TSLP acts on NKT cells to enhance airway hyperreactivity by upregulating their IL-13 production, whereas eosinophilia and IgE production are not influenced.     

Overexpression of Bcl-2 does not rescue impaired B lymphopoiesis in IL- 7 receptor-deficient mice but can enhance survival of mature B cells

IL-7 receptor-deficient (IL-7R(-/-)) mice are lymphopenic as a result of defective cell production at early steps in both B and T lymphopoiesis. In the bone marrow, there is an incomplete block in B cell development at the transition from the pro-B to the pre-B cell stage. As a consequence, peripheral lymphoid organs of IL-7R(-/-) mice contain abnormally low numbers of mature surface (s) Ig-expressing B cells and this is accompanied by a relative increase in immature sIg- B cells. Transgenic expression of the anti-apoptotic protein Bcl-2 in IL- 7R(-/-) mice rescues the defect in T cell development and in mature T cell function. The present report shows that constitutive expression of Bcl-2 is incapable of rescuing B lymphopoiesis in IL-7R(-/-) mice but can enhance survival of those mature B cells which escape the developmental arrest. Thus the essential role of IL-7R signaling in B lymphoid cells cannot be replaced by Bcl-2, indicating that in B lymphopoiesis IL-7R signaling is necessary for promoting cell division and/or for inhibiting a Bcl-2-insensitive pathway to apoptosis.      

Impaired B-1 and B-2 B cell development and atypical splenic B cell structures in IL-7 receptor-deficient mice

The cytokine IL-7 and its receptor are essential for normal B and T lymphopoiesis. We have analyzed the role of this receptor in B cell development throughout ontogeny in IL-7 receptor alpha-deficient mice. We demonstrate that the IL-7 receptor becomes progressively more important with age. B lymphopoiesis takes place, albeit at reduced levels, in fetal liver and bone marrow of young mice, but is arrested in adults. The outcome is a severe reduction, from an early age, in peripheral B cells including follicular, marginal zone and B-1 B cells as well as perturbed splenic B cell structures, which are restored after adoptive transfer of normal spleen cells. We conclude that in the absence of the IL-7 receptor, the residual B lymphopoiesis occurring early in ontogeny must be facilitated by another component, whereas the IL-7 receptor is the key factor in adults. The impairment of marginal zone and B-1 B cells in IL-7 receptor- but not IL-7-deficient mice suggests non-redundant functions for the IL-7 receptor ligands, IL-7 and thymic stromal lymphopoietin.     

Lineage relationships of the fetal thymocyte subset that expresses the β chain of the interleukin-2 receptor

The β chain (p75) of the interleukin-2 (IL-2) receptor (IL-2R) is expressed on up to 5-7% of fetal thymocytes on day 16 of gestation, declining thereafter to a minute proportion of less than 1% around birth, and of 1-2% of adult thymocytes. A significant part of fetal IL-2R β⁺ thymocytes are γδ cells. The precursor-progeny relationships of fetal DL-2Rβ⁺ thymocytes to the αδ T cell lineage have not been previously studied, nor has their position within the developmental sequence been determined. Here we show that IL-2Rβ is expressed on a subset of very immature cells, along with high amounts of Pgp1 and FCγRII/III, partially preceding the expression of intracellular CD3?. IL-2-Rβ disappears before expression of IL-2Rα. IL-2Rβ⁺ cells, purified by sorting on day 15 of gestation, efficiently reconstituted fetal thymic lobes depleted of lymphoid cells by treatment with desoxyguanosine. They developed into T cell receptor (TCR)αβ⁺, TCRγδ⁺, and CD4/CD8 double- and single-positive cells in similar proportions as did sorted IL-2Rα⁺ day 15 fetal thymocytes. These data suggest that IL-2Rβ expression marks a short period of very early thymocyte development, perhaps immediately after entry into the thymus.     

Functional responses of human neonatal B lymphocytes to antigen receptor cross-linking and CpG DNA

Human neonates are immunologically immature and consequently are highly susceptible to infection. The cellular basis for the dysfunctional immune responses of neonates is not clear, but is likely to reflect the immaturity of both B and T cell populations. Here we have examined the ability of human cord blood B cells to respond to antigen receptor cross-linking and also to CpG containing oligodeoxynucleotides (ODN), and compared their responses with those of adult peripheral blood B cells. Antigen receptor cross-linking with soluble F(ab')2 anti-IgM antibodies, induced HLA-DR and CD86 up-regulation and proliferation to a similar extent in adult and cord blood B cells. Both interleukin (IL)-2 and IL-4 co-stimulated anti-IgM-induced proliferation, but cord blood B cells were less sensitive than adult B cells to the co-stimulatory effects of IL-2. Antigen receptor cross-linking induced secretion of the chemokines macrophage inflammatory protein-1 alpha (MIP-1 alpha) and MIP-1 beta in adult and cord blood B cells, and secretion was enhanced by IL-2 or IL-4. CpG-ODN induced up-regulation of HLA-DR and CD86 expression and proliferation of adult and cord blood B cells, and anti-IgM and CPG-ODN synergized in the induction of proliferation. CpG-ODN also induced MIP-1 alpha and MIP-1 alpha secretion in adult and cord blood B cells. In addition to functional studies we examined the expression of CD62L (l-selectin), CCR7 and CXCR5. Our data show that surface expression of CD62L and CCR7 is lower on cord blood B cells than on adult B cells, suggesting that human cord blood B cells may exhibit homing defects.