Characterization of B lymphocyte lineage progenitor cells from mice with severe combined immune deficiency disease (SCID) made possible by long term culture

A single gene mutation results in near absence of B and T lymphocytes and their immediate progenitors in mice with severe combined immunodeficiency disease (SCID). However, long term culture conditions allowed rapid outgrowth of lymphocytes from SCID bone marrow suspensions, and this permitted their detailed analysis. The cells were judged to be committed to the B lymphocyte lineage on the basis of expression of the BP-1 antigen, as well as by the density and pattern of expression of other markers. Cultured SCID lymphocytes were indistinguishable from control BALB/c cells in terms of morphology, typing for 13 cell surface markers, and changes in cell surface antigen expression with time in culture. In contrast to cultures of normal cells, which always included IgM synthesizing cells, SCID lymphocytes rarely expressed mu heavy chains. Southern blot analysis demonstrated that at least the first Ig gene rearrangement step had occurred in most of the cultured cells. The patterns of JH gene rearrangements suggested that relatively limited population diversity existed in individual cultures of SCID and normal BALB/c marrow. In addition, there was evidence that abnormal Ig heavy chain gene rearrangements had taken place in lymphocytes from approximately 25% of the SCID cultures. These cells were distinguished by the absence of detectable JH gene segments. kappa light chain genes appeared to be unrearranged in SCID cultured lymphocytes. We conclude that the lymphopoietic microenvironments of SCID mice are probably normal, and the animals have infrequent progenitors of B cells. Aberrant or nonproductive IgH gene rearrangements may account for the absence of pre-B and B cells in SCID mice. This study demonstrates the usefulness of long term culture methodology for isolating rare subsets of non-transformed lymphoid cells from normal and genetically defective hemopoietic tissues.     

Effects of recombinant human stem cell factor (SCF) on the growth of human progenitor cells in vitro.

We have studied the effect of recombinant human Stem Cell Factor (SCF) on the growth of human peripheral blood, bone marrow, and cord blood progenitor cells in semisolid medium. While SCF alone had little colony-stimulating activity under fetal bovine serum (FBS)-deprived culture conditions, SCF synergized with erythropoietin (Epo), granulocyte/macrophage colony-stimulating factor (GM-CSF), and interleukin 3 (IL-3) to stimulate colony growth. Colony morphology was determined by the late-acting growth factor added along with SCF. Of all the combinations of growth factors, SCF plus IL-3 and Epo resulted in the largest number of mixed-cell colonies--a larger number than observed with IL-3 and Epo alone even in FBS-supplemented cultures. These results suggest that SCF is a growth factor that more specifically targets early progenitor cells (mixed-cell colony-forming cells) and has the capacity to synergize with a wide variety of other hematopoietic growth factors to cause the proliferation and differentiation of committed progenitor cells. Our studies indicate that SCF may be the earliest acting growth factor described to date.     

Different growth factor requirements for the ex vivo amplification of transplantable human cord blood cells in a NOD/SCID mouse model

The growth factor combination containing early acting cytokines FLT-3 ligand (FL), Stem Cell Factor (SCF) and thrombopoietin (TPO) is able to maintain, for an extended culture period, early stem cells, defined as long-term repopulating NOD/SCID mice (Scid Repopulating Cell-SRC) contained in cord blood (CB). In this culture system, the role of IL-6 and IL-3 has not been clearly established. Using a combination of FL+TPO+SCF with or without IL-6, we were able to form CB CD34+ cells for 30 weeks. The CB CD34+ cells cultured in this system engrafted NOD/SCID mice after 6 weeks of culture; the cells from primary recipients were also able to engraft secondary NOD/SCID mice. When CB CD34+ cells were cultured in the presence of IL-3 in the place of IL-6 we observed an even better expansion of cells and a similar clonogenic progenitor output in the first 8 weeks of culture. However, more primitive LTC-IC output increased up to week 6 with the growth factor combination containing IL-3 and then decreased and disappeared, while with the growth factor combination with or without IL-6 increased up to week 23. Cells cultured for 4 weeks with the 4-factor combination containing IL-3 engrafted NOD/SCID mice less efficiently. Repopulation of NOD/SCID mice was no longer observed when ex vivo expansion was performed for 6 weeks. This study provides some evidence that no differences could be detected in long-term maintenance and even expansion of human primitive cord blood cells cultured with FL+TPO+SCF in the presence or absence of IL-6. Under the culture conditions employed in this study, the presence of IL-3 reduced the repopulating potential of expanded CB CD34+ cells.     

Essential role of phospholipase C gamma 2 in early B-cell development and Myc-mediated lymphomagenesis

Phospholipase Cgamma2 (PLCgamma2) is a critical signaling effector of the B-cell receptor (BCR). Here we show that PLCgamma2 deficiency impedes early B-cell development, resulting in an increase of B220+ CD43+ BP-1+ CD24hi pre-BCR+ large pre-B cells. PLCgamma2 deficiency impairs pre-BCR-mediated functions, leading to enhanced interleukin-7 (IL-7) signaling and elevated levels of RAGs in the selected large pre-B cells. Consequently, PLCgamma2 deficiency renders large pre-B cells susceptible to transformation, resulting in dramatic acceleration of Myc-induced lymphomagenesis. PLCgamma2(-/-) Emu-Myc transgenic mice mainly develop lymphomas of B220+ CD43+ BP-1+ CD24hi pre-BCR+ large pre-B-cell origin, which are uncommon in wild-type Emu-Myc transgenics. Furthermore, lymphomas from PLCgamma2(-/-) Emu-Myc transgenic mice exhibited a loss of p27Kip1 and often displayed alterations in Arf or p53. Thus, PLCgamma2 plays an important role in pre-BCR-mediated early B-cell development, and its deficiency leads to markedly increased pools of the most at-risk large pre-B cells, which display hyperresponsiveness to IL-7 and express high levels of RAGs, making them prone to secondary mutations and Myc-induced malignancy.     

Normal B cell precursors responsive to recombinant murine IL-7 and inhibition of IL-7 activity by transforming growth factor-beta

The ability of stromal cells in bone marrow to support B lymphopoiesis may be partially mediated by secretion of biologically active factors. The first cytokine with lymphopoietic activity to be molecularly cloned from stromal cells, IL-7, was originally identified by its growth-promoting activity on long term cultured lymphocytes. We now report that murine rIL-7 is a potent proliferative stimulus for B cell progenitors isolated from fresh bone marrow. Proliferation was initially most obvious among large precursor cells which bear the B lineage associated Ag, Ly5/220 and BP1. A majority of these also contained cytoplasmic Ig mu H chains. Extended culture with IL-7 resulted in a predominance of immature c mu- lymphocytes. No effect by IL-7 was observed on the proliferation of mature lymphocytes. It also did not induce maturation in a number of early B lineage cell lines, or promote the formation of LPS-responsive, clonable B cells from precursors. When incorporated into semisolid agar medium, IL-7 specifically and rapidly induced the formation of pre-B cell colonies in a linear fashion with respect to numbers of cells cultured from either purified B cell progenitor preparations or unfractionated bone marrow. In both liquid and agar culture conditions, the IL-7 proliferative activity was inhibitable by two related forms of transforming growth factor (TGF) beta, TGF-beta 1 and TGF-beta 2. Taken together, these results indicate that IL-7 is a stimulus for replication of normal B lineage cells at an early stage of differentiation, and its activity can be modulated by other cytokines. IL-7 also provides a means of studying the progeny of a single B cell progenitor, and of enumerating clonable pre-B cells in the absence of colony formation by other cell types in bone marrow.     

Improved hematopoietic stem cell engraftment following ex vivo expansion of murine marrow cells with SCF and Flt3L

BACKGROUND: In vitro incubation of murine BM cells with IL-3, IL-6, IL-11 and SCF induces expansion of HPC but fails to preserve 'engraftability' in comparison with normal untreated marrow cells. We studied how culturing marrow cells for 48 and 72 h with a combination of the cytokines SCF and Flt3L influences cell expansion and engraftability. METHODS: Competitive repopulation of lethally irradiated C57BL/6 mice was used to examine engraftability of ex vivo cytokine-expanded Ptprc chimeric BM. A methylcellulose in vitro assay was used to determine the expansion of substitute progenitors. RESULTS: Both cytokine combinations successfully expanded progenitor populations when assayed in methylcellulose culture in vitro. After 72 h, the colony numbers of the expansion cultures increased 61% with IL-3, IL-6, IL-11 and SCF stimulation and 96% with SCF and Flt3L stimulation. Engraftment of competitively transplanted cells, cultured with IL-3, IL-6, IL-11 and SCF, consistently dropped to levels below 16%. However, 48 h culture with SCF and Flt3L resulted in 53.5+/-1.6% engraftment at 17 days and 64+/-3.7% engraftment at 19 weeks post-transplantation. Extending the cytokine exposure to 72 h resulted in 70+/-4.4% short-term engraftment at 17 days, and 64+/-2.4% engraftment at 19 weeks post-transplantation. DISCUSSION: The data demonstrate the ability of SCF and Flt3L cytokine-stimulated BM cells to maintain short- and long-term engraftability. We conclude that these cytokines play a crucial role in maintaining engraftment of hematopoietic progenitors.     

Recombinant murine granulocyte-macrophage (GM) colony-stimulating factor supports formation of GM and multipotential blast cell colonies in culture: comparison with the effects of interleukin-3

We studied the effects of murine recombinant granulocyte-macrophage colony-stimulating factor (GM-CSF) on murine hemopoiesis in methylcellulose culture. The GM-CSF was purified from cultures of Saccharomyces cerevisiae transfected with a cloned murine GM-CSF cDNA. In cultures of spleen cells from normal mice, only granulocyte-macrophage (GM) colonies were supported by GM-CSF. Blast cell colonies were the predominant type in cultures of spleen cells from 5-fluorouracil (5-FU)-treated mice. Dose-response studies revealed that maximal GM and blast cell colony formation is achieved with 100 U/ml GM-CSF. Blast cell colonies revealed variable but high replating efficiencies, and the secondary colonies included multilineage colonies. Serial replating of washed blast cell colonies in cultures with GM-CSF provided evidence for the direct effects of GM-CSF on the proliferation of multipotential blast cells. A combination of GM-CSF and interleukin-3 (IL-3) did not increase the number of blast cell colonies over the level supported by IL-3. This observation indicates that the progenitors for blast cell colonies that responded to GM-CSF are a subpopulation of multipotential progenitors that are supported by IL-3. Cytological studies of colonies derived from GM-CSF and/or IL-3 suggest that the eosinophilopoietic ability of murine GM-CSF is less than that of IL-3.     

IL-9 enhances the growth of human mast cell progenitors under stimulation with stem cell factor

We examined the effects of IL-9 on human mast cell development from CD34(+) cord blood (CB) and peripheral blood cells in serum-deprived cultures. IL-9 apparently enhanced cell production under stimulation with stem cell factor (SCF) from CD34(+) CB cells. A great majority of the cultured cells grown with SCF + IL-9 became positive for tryptase at 4 wk. In methylcellulose cultures of CD34(+) CB cells, IL-9 increased both the number and size of mast cell colonies grown with SCF. Furthermore, SCF + IL-9 caused an exclusive expansion of mast cell colony-forming cells in a 2-wk liquid culture of CD34(+) CB cells, at a level markedly greater than for SCF alone. Clonal cell cultures and RT-PCR analysis showed that the targets of SCF + IL-9 were the CD34(+)CD38(+) CB cells rather than the CD34(+)CD38(-) CB cells. IL-9 neither augmented the SCF-dependent generation of progeny nor supported the survival of 6-wk-cultured mast cells. Moreover, there was no difference in the appearance of tryptase(+) cells and histamine content in the cultured cells between SCF and SCF + IL-9. The addition of IL-9 increased numbers of mast cell colonies grown with SCF from CD34(+) peripheral blood cells in children with or without asthma. It is of interest that mast cell progenitors of asthmatic patients responded to SCF + IL-9 to a greater extent than those of normal controls. Taken together, IL-9 appears to act as a potent enhancer for the SCF-dependent growth of mast cell progenitors in humans, particularly asthmatic patients.     

Changes in B lineage cell population in liver and spleen of normal neonatal mice

The frequency and characteristics of B lymphocyte lineage cells in neonatal murine liver and spleen were studied during the first 10 days after birth. These were distinguished as B cells with surface IgM (slgM), immediate precursors of B cells (pre-B cells) lacking slgM but containing micron-heavy chains of IgM, and earlier precursors that did not synthesize immunoglobulin but could be detected with monoclonal 14.8 antibody. Experiments were also done to relate these to cells capable of clonal proliferation in mitogen-containing semisolid agar cultures and cells that acquire this function only after preculture in liquid medium. Newborn liver contained large numbers of early precursors as well as pre-B cells, and culture studies revealed that a majority of the colony-forming B cells present at that time were slg-. Adherent accessory cells in newborn liver suspensions facilitated the maturation of these into functional B cells in vitro. At most ages, however, numbers of slg+ B cells detected in that tissue were surprisingly low. Possible explanations for this include a rapid exit of newly formed B cells and their immediate precursors from liver and/or a high rate of abortive lg gene rearrangements during the neonatal period. In contrast, whereas the spleen contained early precursors and pre-B cells at birth, these cells steadily declined in number with age as the numbers of slgM+ B cells increased. Adherent cells in liver but not spleen of immunodeficient CBA/N mice suppressed B lymphocyte formation in semisolid or liquid cultures. These observations document population dynamics in B lineage cells during a critical period of development.     

Administration of IL-7 to normal mice stimulates B-lymphopoiesis and peripheral lymphadenopathy.

Normal mice were injected with IL-7 (500 ng, twice daily) for various periods of time up to 6 days and the cellularity and phenotypic composition of the thymus, spleen, lymph node, and bone marrow was assessed. After 6 days of treatment, significant increases in the cellularity of the spleen, lymph node, and bone marrow were observed which returned to the normal range within 6 days after cessation of treatment. After 3 days of IL-7 treatment, increased numbers of B220+/surface(s) IgM- bone marrow cells were observed. After 6 days of treatment, these numbers were still further increased and a significant population of B220+/sIgM- cells were observed in the spleen. The numbers of c mu+/sIgM- cells were also increased in the IL-7-treated mice. Analysis of the expression of B220 and BP-1 on the sIgM- bone marrow cells revealed that the B220+/BP-1+ population was dramatically increased after IL-7 treatment and the size of the B220+/BP-1- population did not differ from control mice. The pre-B cell numbers declined rapidly after the cessation of IL-7 treatment. After 6 days of IL-7 treatment, a twofold increase in the number of B cells in the spleen and lymph node was observed. The B cell numbers declined to normal values within 6 days after the cessation of IL-7 administration. In the spleens of the IL-7-treated mice, there was a significant increase in the number of B cells with an immature phenotype (e.g., sIgMhi/sIgDlo, decreased levels of Ia and FcR expression). The numbers of CD8+ and CD4+ T cells were also increased in the lymph node and spleen of the IL-7-treated mice. These numbers declined to normal levels after the cessation of IL-7 treatment.     

BP-3 alloantigen. A cell surface glycoprotein that marks early B lineage cells and mature myeloid lineage cells in mice

To explore the cell surface molecules expressed on pre-B cells we have produced a panel of alloantibodies against transformed pre-B cells from BALB/c mice by immunizing a wild mouse, Mus spretus. One of these antibodies, BP-3, recognized glycoproteins of Mr 38,000 to 48,000 on pre-B cells transformed either by the Abelson murine leukemia virus or an erb B oncogene construct. Removal of N-linked oligosaccharides from the BP-3 Ag revealed a single core protein of Mr 32,000. The Ag was expressed by bone marrow cells in all but one (A/J) of the inbred mouse strains tested and in wild mice of biochemical groups Mus-1 and Mus-2. Analysis of the tissue distribution revealed expression of the BP-3 reactive molecule on normal pre-B and B cells in the bone marrow, 35% of B cells in the circulation, 30% of the B cells in the spleen, and less than or equal to 20% of B cells in lymph nodes, peritoneal cavity, and Peyer's patches. The subpopulation of BP-3+ B cells in bone marrow and peripheral tissues displayed an immature phenotype (IgM IgD +/- ). Examination of a panel of transformed B lineage cells confirmed the early stage-specific expression of the BP-3 alloantigen. In addition, a myeloid cell line and normal myeloid cells were found to express the BP-3 alloantigen. In contrast to B lineage cells, the level of BP-3 expression increased as a function of myeloid cell differentiation. Myeloid cells in the bone marrow expressed relatively little Ag, whereas circulating neutrophils and peritoneal macrophages expressed relatively high levels of the BP-3 alloantigen with Mr 38,000, 41,000, and 46,000. The data suggest that this variably glycosylated cell surface protein could play different roles in the differentiation of B lineage and myeloid lineage cells. The BP-3 alloantigen appears to be a useful marker for virgin B cells that have recently migrated from the bone marrow to the periphery.     

BP-1/6C3 expression defines a differentiation stage of transformed pre-B cells and is not related to malignant potential

BP-1 antibody recognizes a cell surface molecule related to the zinc-dependent metallopeptidases that is expressed during a narrow window early in B cell differentiation. Expression of the same molecule, as originally recognized by the mAb 6C3, is widely accepted to be associated with the complete malignant transformation of pre-B lymphoid cells. We have examined BP-1/6C3 expression in a panel of established Abelson virus-transformed cells that includes both cells analogous to pre-B cells and to less differentiated B lineage cells that have not yet completed Ig H chain gene rearrangement. This analysis reveals that many of the less differentiated transformants do not express BP-1/6C3 for an extended culture period. In contrast, virtually all transformants that are analogous to normal pre-B cells express the determinant early in their culture history. The BP-1/6C3 negative transformants are fully tumorigenic in syngeneic mice, demonstrating that BP-1/6C3 expression is not required for complete malignant transformation. Our data thus suggest that the pattern of BP-1/6C3 expression in Abelson virus-transformed cells mimics that observed in normal cells and is indicative of a differentiation event unrelated to the malignant potential of the cells.     

Effects of transforming growth factor-beta and IL-1 alpha on prostaglandin synthesis in serum-deprived osteoblastic cells.

We investigated the effects that the combination of IL-1 alpha and transforming growth factor-beta (TGF-beta) had on PGE2 production in a murine clonal osteoblastic cell line MC3T3-E1 and primary rat calvarial osteoblast-like cells. In serum-supplemented medium, IL-1 alpha was a potent stimulator of PGE2 production in MC3T3-E1 cells (50-fold increase with 0.1 ng/ml). TGF-beta (10 ng/ml) had only a small effect alone and no additional effect on IL-1 alpha-induced responses. In serum-deprived MC3T3-E1 cells, PGE2 responses to IL-1 alpha were either absent or markedly reduced. TGF-beta alone had small effects. However, simultaneous addition of TGF-beta with IL-1 alpha to MC3T3-E1 cells partially restored the ability of IL-1 alpha to generate a PGE2 response (10-fold increase in PGE2 with 0.1 ng/ml of both IL-1 alpha and TGF-beta). As with MC3T3-E1 cells, serum-deprived primary fetal rat calvarial osteoblastic cells also did not respond to IL-1 alpha, unless TGF-beta was present in the medium (sixfold increase in PGE2 with 0.1 ng/ml IL-1 alpha and 10 ng/ml TGF-beta). The synergistic effect of TGF-beta and IL-1 alpha was specific for PGE2 responses, because these factors did not synergistically affect cell proliferation, collagen and noncollagen protein synthesis, or alkaline phosphatase activity. The observed synergy was not associated with changes in the steady state cyclooxygenase (PGH synthase) mRNA levels. However, it did correlate with increased release of [3H]arachidonic acid from prelabeled serum-depleted MC3T3-E1 cells. Hence, the synergistic interactions of IL-1 alpha and TGF-beta on PGE2 appear to occur through an increase in the release of arachidonic acid substrate from phospholipid pools. These effects may be important for both normal bone turnover and the responses of bone to inflammatory and immune stimuli.     

IL-7-mediated protection of pro and pre-B cells from the adverse effects of corticosterone

The studies herein demonstrate that Interleukin-7 (IL-7) promotes survival of murine pro- and pre-B cells against stress levels of corticosterone (Cs). In short-term, 16-h, bone marrow cultures IL-7 abrogated Cs-induced apoptosis and cell cycle arrest in pro-B cells by decreasing apoptosis 60% and completely restoring the cell cycle. IL-7 also reduced Cs-induced apoptosis by 36% in pre-B cells and 24% in IgM(+) B cells, but did not restore deficits in the cell cycle. Among pro- and pre- B cells, substantial protection against high, pharmacological, levels of Cs was also provided by IL-7. Interestingly, stem cell factor, while reducing spontaneous apoptosis in pro-B cells, did not protect against Cs-induced death, either alone or with IL-7. In conclusion, IL-7 has potential immunotherapeutic value since it provides substantial protection to pro- and pre-B cells against the adverse effects of Cs.     

Calcitonin gene-related peptide indirectly inhibits IL-7 responses in pre-B cells by induction of IL-6 and TNF-alpha in bone marrow

Calcitonin gene-related peptide (CGRP) has inflammatory and immunoregulatory properties. CGRP directly inhibits IL-7 induced proliferation in developing B cells and also induces soluble factors that inhibit IL-7 responses. We identified 2 cytokines, IL-6 and TNF-alpha, induced by CGRP, that inhibit IL-7 pre-B cell responses. CGRP induction of IL-6 and TNF-alpha mRNA in long-term bone marrow cultures is transient and IL-6 or TNF-alpha inhibit IL-7 induced colony formation by 60%. When added with CGRP, colony formation is completely inhibited. TNF-alpha directly inhibits IL-7 responses in B220(+)/IgM(-) cells whereas IL-6 inhibits only colony formation with whole bone marrow. This suggests that the effect of IL-6 is mediated by other cells in the bone marrow. These results suggest that the indirect effect of CGRP on IL-7 depends in part on induction of IL-6 and TNF-alpha.     

Interleukin-7 mediates the generation and expansion of murine allosensitized and antitumor CTL.

Interleukin-7 (IL-7) is a 25-kDa cytokine that was initially described as a pre-B cell growth factor and more recently has been shown to cause T cell proliferation. We have investigated the in vitro effects of IL-7 on mature T cells to include the generation and further expansion of allospecific and antitumor CTL. B6 anti-DBA allospecific CTL were generated in the presence of IL-7, IL-2, the combination IL-7 plus IL-2, or no cytokine. IL-7 alone or when combined with IL-2 enhanced the generation of allospecific CTL. To evaluate the proliferative effects of IL-7, 4-day B6 anti-DBA cultures were cultured in IL-7, IL-2, or no cytokine. Cell proliferation and duration of growth of cells cultured in IL-7 were significantly greater than cells cultured in IL-2 or in the absence of cytokine. Allospecific cytolytic activity was maintained during proliferation in IL-7 to a maximum of 60 days. In contrast with the ability of IL-2 to generate LAK cells, murine splenocytes cultured at varying doses of IL-7 (1 to 10,000 ng/ml), resulted in minimal LAK cell activity. The effect of IL-7 in the generation of CTL with antitumor activity was also studied. Seven days after footpad injection of MCA 203 or 205 sarcoma, draining lymph nodes (DLN) were harvested and restimulated in vitro with MCA 203 or 205, respectively, and maintained in culture with either IL-7, IL-2, the combination of IL-7 plus IL-2, or no cytokine. After 10 days in culture, cells generated in IL-7 or IL-2 exhibited similar cytotoxicity against the syngeneic autologous MCA tumor. IL-7 generated cells, however, showed specificity when tested by 51Cr release which was not seen with IL-2-generated cells. Cells generated in IL-7 plus IL-2 were more cytolytic than cells cultured with either cytokine alone. To further define the mechanism of action of IL-7 in antitumor CTL cultures, a monoclonal antibody, S4B6.1, capable of blocking murine-specific IL-2 was employed. The partial inhibition by this mAb of the generation of antitumor CTL demonstrated that IL-7 acted, in part, by an IL-2-dependent mechanism. Finally, IL-7 cultures restimulated at Day 11 with autologous MCA 203 showed greater proliferation than IL-2 cultures and remained lytic at Day 21 of culture.(ABSTRACT TRUNCATED AT 400 WORDS)     

Characterization of the growth responses of hamster fibroblasts and chondrogenic cells to fibroblast growth factor

The effects of fibroblast growth factor (FGF) on hamster dermal fibroblasts and chondrogenic cells, both of mesodermal origin, were compared with special reference to growth stimulation and morphological changes in monolayer cultures, and colony formation in semisolid medium. FGF (10 to 200 ng/ml) caused appreciable cell proliferation of dermal fibroblasts but not of chondrogenic cells, while FGF (50-200 ng/ml) caused very marked dose-dependent morphological changes in monolayer cultures and colony formation in semisolid medium of both fibroblasts and chondrogenic cells. It is suggested that FGF is the same type of growth factor as the transforming growth factor(s) because, like the latter, it induces drastic morphological changes of normal mesodermal cells in monolayer cultures and their colony formation in semisolid medium.     

The role of IL-4 in the generation of B lymphocytes in the bone marrow

It has been indicated that IL-4 supports the maturation of pre-B cells to B lymphocytes. The present study was designed to investigate the mechanism by which IL-4 influences this maturational process. In order to determine whether IL-4 acts directly on pre-B cells, we sorted out B220+, sIg- cells from bone marrow of young adult (C3H X C57BL/6)F1 mice. These purified populations of pre-B cells (greater than 95%) were incubated with and without 4 to 200 U/ml of rIL-4, and the generation of new B lymphocytes in these cultures was followed for several days. We found that the frequency of newly generated B lymphocytes (%sIg+) was similar in control and in IL-4-containing cultures. However, the total number of B lymphocytes was significantly higher in IL-4-containing cultures. This high number of B lymphocytes was a result of an increased survival of cells in IL-4-containing cultures. The effect was IL-4 specific because anti-IL-4 antibodies completely prevented this phenomenon. We thus conclude that IL-4 does not induce the maturation of pre-B cells but may be important in the process of B lymphocytes generation by providing a signal for survival of these cells.     

Autoreactive T cells in MRL/Mpr-lpr/lpr mice. Characterization of the lymphokines produced and analysis of antigen-presenting cells required

Lymph node cells from 4-wk-old MRL/Mp-lpr/lpr mice, but not from MRL/Mp-+/+ mice, when cultured in vitro for 5 to 7 days, will spontaneously proliferate and produce IL-2. We examined the expression of several cell surface Ag on lymph node cells from MRL/Mp-lpr/lpr mice before and after in vitro culture. There is an increase in the expression of Thy-1, L3T4, IL-2R, T cell activating protein, T cell receptor, and T3 complex on the surface of cultured cells. Cultured cells produced IL-3, IFN-gamma, and small but detectable amounts of IL-1 in addition to IL-2. Gamma irradiation of APC from young MRL/Mp-lpr/lpr mice or treatment of APC with a mAb (J11D) and C, completely abrogated their stimulatory capacity. These experiments suggest that B cells are the predominant APC responsible in the activation of autoreactive T cells in MRL/Mp-lpr/lpr mice. Lymph node cells from C57BL/6-lpr/lpr or C3H-lpr/lpr mice were unable to spontaneously proliferate or produce IL-2. Lymph node cells from (MRL/Mp-lpr/lpr x C57BL/6-lpr/lpr) F1 mice or (C3H-lpr/lpr x MRL/Mp-lpr/lpr) F1 mice did proliferate and produced IL-2 after in vitro culture. Using T cells from these F1 animals and APC from each parental haplotype, we found that APC from MRL/Mp-lpr/lpr mice induced more proliferation and greater amounts of IL-2, when compared to APC from F1 animals. APC from C57BL6-lpr/lpr mice or C3H-lpr/lpr were unable to induce spontaneous proliferation and IL-2 production. Therefore, B cells from MRL/Mp-lpr/lpr mice appear to possess unique features that enable them to activate autoreactive T cells more effectively than B cells from other mice bearing the lpr/lpr gene.     

小鼠胎肝基质细胞系MFLC自发分泌多种细胞因子

在无外源刺激条件征,我室所建小鼠胎肝基质细胞系ＭＦＬＣ可自发分泌多处类型细胞因子,其中ＩＬ－６及化学趋化因了水平较高,ＧＭ－ＣＳＦ较低,但示检测到ＩＬ－３及ＩＬ－７活性,引细胞上清对小鼠骨髓造血干细胞有明显的促集落形成效应。并呈现剂量依赖关系,所形成的集落以ＣＦＵ－ＧＭＭ及ＣＦＵ－ＧＭ为主,此细胞上清还促进５－Ｆｕ耐受小鼠骨髓造血干细胞的集落形成,提示上清中存在ＳＣＦ样活性成份。上述结果表明,ＭＦ