Suppression of interleukin-2 production by human concanavalin A-induced suppressor cells

When PHA-activated normal responder cells (R cells) were cocultured with mononuclear cells (MN cells) which had been preincubated for 48 hr in medium alone (C cells) an enhanced proliferative response was observed. This enhancement was only obtained when the R cells were cultured with allogeneic C cells or when PHA was in the cocultures for the entire culture period. This effect was due to greater production of interleukin 2 (IL-2) by irradiated C cells in the presence of allogeneic or mitogenic stimulation. Con A-treated mononuclear cells (S cells) cultured with PHA-activated allogeneic or autologous responder cells showed reduced [3H]thymidine incorporation and IL-2 production as compared to activated R cells alone. Glutaraldehyde-treated S cells (which retained the ability to absorb IL-2) did not affect the proliferative response or IL-2 production by the R cells, indicating that passive absorption of IL-2 was not entirely responsible for suppression induced by S cells. S cells, pretreated with IL-2, still inhibited R-cell activity. These results show that Con A-treated MN cells suppressed or prevented [3H]thymidine incorporation by actively inhibiting IL-2 production.     

Keratinocyte-derived granulocyte/macrophage colony-stimulating factor induces DNA synthesis by peritoneal macrophages

Keratinocytes have been demonstrated to produce a number of cytokines, including growth factors such as the CSF IL-3. Circulating blood monocytes and some elicited macrophages retain a significant proliferative potential in response to colony-stimulating activity. Because a macrophage response is prominent in a variety of cutaneous immune reactions, we have studied the ability of conditioned media (CM) from a transformed murine keratinocyte cell line (PAM 212) and from normal murine keratinocytes to induce growth of peritoneal macrophages. CM from both normal and transformed keratinocyte cultures induces [3H]thymidine incorporation by thioglycollate-elicited, but not resident, peritoneal macrophages. IEF of PAM 212 CM reveals peaks of activity at pI 4.8 and less than or equal to 4.2. Analysis of CM by reversed-phase HPLC demonstrates active fractions that elute at 46 to 48% and 53 to 55% acetonitrile. The Mr of the 46 to 48% acetonitrile factor is 25 to 30 kDa by gel filtration HPLC. Polyclonal anti-granulocyte/macrophage (GM) CSF antibody blocks the induction of macrophage [3H]thymidine incorporation by factors with pI 4.8 and eluting at 46 to 48% acetonitrile but does not reduce the activity of crude CM or the factor eluting at 53 to 55% acetonitrile. Based on both physiochemical criteria and antibody neutralization, keratinocytes produce GM-CSF. Keratinocyte-derived factors, including GM-CSF, may play an important role in regulating cutaneous macrophage responses.     

Regulation of T-cell activation and T-cell growth factor (TCGF) production by hydrogen peroxide

Activated macrophages are known to release a variety of immunoregulatory substances including the low-molecular-weight substances hydrogen peroxide and lactate. We report here that lactate but not hydrogen peroxide is capable of supporting a substantial production of T-cell growth factor (TCGF) in cultures of accessory cell-depleted splenic T-cell populations after stimulation with concanavalin A. Hydrogen peroxide and its biosynthetic precursor superoxide anion (O2-) mediate, however, a strong augmentation of the TCGF production by accessory cell-depleted T-cell populations in the presence of lactate. Lactate inhibits the incorporation of [3H]thymidine in short-term cultures (18-26 hr) of accessory cell-depleted T cells. This confirms the rule that (optimal) production of T-cell growth factor requires a growth inhibitory signal. Concentrations of hydrogen peroxide which augment TCGF production most effectively (i.e., 1 X 10(-5) M) do not inhibit the incorporation of [3H]thymidine; and higher concentrations (3 X 10(-5)-1 X 10(-4) M) of hydrogen peroxide inhibit both the production of TCGF and the incorporation of [3H]thymidine. In agreement with the augmenting effect of hydrogen peroxide on TCGF production, it was observed that the proliferative response in mixed lymphocyte cultures is suppressed by catalase and augmented by 1 X 10(-5) M H2O2. Proliferative and cytotoxic responses in mixed lymphocyte cultures with an external source of interleukin 2 (IL-2) in contrast, are not augmented by 1 X 10(-5) M H2O2. The relatively high concentration of 1 X 10(-4) M hydrogen peroxide was found to inhibit the proliferative responses in mixed lymphocyte cultures with or without external IL-2 but not the cytotoxic response in the presence of IL-2. This indicates that CTL precursor cells may be relatively resistant against H2O2.     

Inhibition of macrophage DNA synthesis by immunomodulators. II. Characterization of the suppression by muramyl dipeptide or lipopolysaccharide [3H]thymidine incorporation into macrophages

Guinea pig peritoneal exudate macrophages actively incorporated [3H]thymidine into trichloroacetic acid-insoluble fraction in vitro. The incorporation of [3H]thymidine was almost completely inhibited by aphidicolin, an inhibitor of DNA polymerase alpha and an autoradiograph showed heavy labeling in nuclei of 15% of macrophage populations. These results indicate that the observed thymidine incorporation was due to a nuclear DNA synthesis. The [3H]thymidine incorporation was markedly suppressed when macrophages were activated by immunoadjuvants such as muramyl dipeptide (MDP) or bacterial lipopolysaccharide (LPS). The suppression of [3H]thymidine incorporation by MDP was neither due to the decrease in thymidine transport through the cell membrane, nor due to dilution by newly synthesized "cold" thymidine. An autoradiograph revealed that MDP markedly decreased the number of macrophages the nuclei of which were labeled by [3H]thymidine. These results suggest that the suppression of [3H]thymidine incorporation by the immunoadjuvants reflects a true inhibition of DNA synthesis. The inhibition of DNA synthesis by MDP was also observed in vivo. Further, it was strongly suggested that the inhibition was not caused by some mediators, such as prostaglandin E2, released from macrophages stimulated by the immunoadjuvants but caused by a direct triggering of the adjuvants at least at the early stage of activation. Cyclic AMP appears to be involved in the inhibitory reaction.     

Changes in phospholipid metabolism during B lymphocyte activation

We have examined phospholipid metabolism in murine B lymphocytes stimulated with anti-Ig bound to Sepharose. T cell-depleted splenic B lymphocytes cultured with Sepharose-coupled, affinity-purified goat anti-mouse Ig (GAMIg) increased the incorporation of 32PO4 into phosphatidic acid and phosphatidylinositol within 3 hr and increased [3H]-thymidine uptake at 48 hr. No increase in labeling was observed in phosphatidylethanolamine, phosphatidylcholine, or phosphatidylserine. Based on both negative and positive selection procedures, it was demonstrated that these responses occurred in B lymphocytes. In contrast to the thymidine uptake response of the GAMIg-stimulated B lymphocytes, the phospholipid response did not require the presence of accessory cells or exogenous cytokines. The same selective changes in phospholipid metabolism were observed in neoplastic B lymphocytes (BCL1) after treatment with Sepharose anti-mu, but not with Sepharose anti-Ia or Sepharose normal Ig. The dose-response relationships of 32PO4 incorporation into phosphatidic acid and phosphatidylinositol and [3H] thymidine uptake were nearly identical in BCL1 cells. The results of these experiments indicate that interaction of B lymphocytes with insolubilized anti-Ig results in prompt and selective changes in phospholipid metabolism that appear to be correlated with B lymphocyte proliferation.     

Human mononuclear leukocyte transglutaminase activity is enhanced by streptococcal erythrogenic toxin and a staphylococcal mitogenic factor associated with toxic shock syndrome

Transglutaminase activity in human peripheral lymphocytes is enhanced after incubation of the cells with concanavalin A. Streptococcal proliferative factor toxin (erythrogenic toxin) from Streptococcus pyogenes and Toxic shock syndrome toxin from Staphylococcus aureus were purified and tested for their ability to enhance transglutaminase activity. Mononuclear leukocyte transglutaminase activity was enhanced 3–5-fold 30 min after incubation with either toxin. Enhancement occurred only when toxin was incubated with intact cells; addition of toxin to cell lysates was without effect. Transglutaminase was not measurable extracellularly. Histamine and dansyl cadaverine, competitive substrates for transglutaminase, inhibited [³H]putrescine incoporation into casein and [³H]thymidine incorporation into DNA. Incubation of lymphocytes with cycloheximide and either toxin or concanavalin A did not inhibit enzyme activity. These bacterial toxins, like phytomitogens, may perturb the cellular membrane and mediate their effect by transglutaminase-mediated cross-linking of membrane proteins.     

Enhancing and suppressive effects of macrophages on T-lymphocyte stimulation in vitro.

The immunoregulatory effect of peritoneal and splenic macrophages on Con A-stimulated mouse splenic T lymphocytes was investigated in vitro using [¹²⁵I]UdR incorporation as a measure of lymphocyte proliferation. [¹²⁵I]UdR incorporation was enhanced by the addition of increasing numbers of splenic or low doses of peritoneal adherent cells to macrophagedepleted splenic lymphocytes. The addition of increasing numbers of peritoneal macrophages beyond 5–10%, however, proportionally suppressed T-cell proliferation. Activated splenic macrophages obtained from mice 6 days after infection with Listeria monocytogenes were suppressive, whereas macrophages obtained from immune donors 9–10 days after infection were not, so that a chronological association appeared to exist between macrophage activation and immunosuppression. The addition of 2-mercaptoethanol to the cell cultures increased [¹²⁵I]UdR incorporation without affecting the stimulatory and suppressive effects of splenic and peritoneal macrophages, respectively. Heat-killed and freeze-thawed macrophages lost their capacity to enhance or inhibit lymphocyte transformation. Macrophages treated with mitomycin C to inhibit DNA synthesis retained their regulatory functions. These studies suggest differential regulatory roles for spleen versus peritoneal macrophages on T-lymphocyte responses to Con A stimulation in vitro.     

Inhibition of Macrophage DNA Synthesis by Immunomodulators

Oil-induced guinea pig peritoneal exudate macrophages were found to incorporate actively [³H]thymidine without any tissue fluids such as conditioned medium, lymphokines or inflammatory tissue exudates. The [³H]thymidine incorporation was markedly suppressed by macrophage stimulants such as muramyl dipeptide (MDP) or bacterial lipopolysaccharide (LPS), while glucosamine incorporation was simultaneously increased by these stimulants. The degree of suppression of thymidine incorporation depended on the cell density, the concentrations of the stimulants, and sera or culture media used. The exposure of macrophages to MDP for 30 min was sufficient to cause significant suppression.     

Isolation,X-Ray Structure and Biological Activity of Deacetyl-dihydrobotrydial Produced by Botrytis squamosa

Mitogenic substances on human peripheral blood mononuclear leukocytes were screened from culture filtrates of microorganisms newly isolated from soil and sea water by measuring [³H]- thymidine incorporation into the cells. Strong mitogenic activity was found in marine bacteria, particularly in marine vibrios. These mitogen samples exhibited neither hemagglutinating activity nor leukoagglutinating activity. They could scarcely stimulate murine lymphocytes.

Cell-cell interaction among leukocyte subsets in response to a bacterial mitogen was investigated using the most powerfully mitogenic sample (culture filtrate of strain H 52–2). A slight decrease in the mitogen response was observed on depletion of plastic surface adherent cells. Separation of T and non-T cells from each other by erythrocyte-rosette sedimentation resulted in a markedly diminished mitogen response. Considerable restoration of the mitogen response was obtained when T cells were mixed with mitomycin C-treated adherent cells or mitomycin C-treated non-T lymphocytes, or when non-T lymphocytes were mixed with mitomycin C-treated T cells.     

GM-CSF and IL-3 stimulate diacylglycerol generation in murine bone marrow-derived macrophages

In murine bone marrow-derived macrophages, prelabeled with either [3H]myristic acid or [3H]arachidonic acid, the mitogenic colony stimulating factors GM-CSF and IL-3 stimulated a transient increase in [3H]diacylglycerol generation. Maximum [3H]diacylglycerol levels were detected at 10-15 min. The stimulation of [3H]diacylglycerol generation was dependent on the concentration of CSF and correlated with their ability to activate a variety of processes in the macrophage, including DNA synthesis. This is the first report to demonstrate that GM-CSF elevates diacylglycerol levels in macrophages and also to show that diacylglycerol generation may be an important signaling mechanism for IL-3 action. In conjunction with our recent demonstration that the mitogenic agents CSF-1, 12-0-tetradecanoylphorbol-13-acetate and exogenous phospholipase C also stimulate diacylglycerol generation in the macrophage (Veis and Hamilton, J.Cell.Physiol., 147, 298-305, 1991), our findings suggest that an increase in diacylglycerol levels is necessary but not sufficient for macrophage proliferation.     

Colony stimulating factor-1 stimulates diacylglycerol generation in murine bone marrow-derived macrophages, but not in resident peritoneal macrophages

Colony stimulating factor-1 (CSF-1) stimulates DNA synthesis in murine bone marrow-derived macrophages (BMM); however, unlike BMM, murine resident peritoneal macrophages (RPM) undergo a poor proliferative response. It has previously been shown that phosphatidylinositol-4,5-bisphosphate hydrolysis is not associated with CSF-1 action in BMM. In this report we demonstrate that, despite a lack of inositol trisphosphate generation, CSF-1 transiently elevated both [3H]myristoyl- and [3H]arachidonyl-diacylglycerol (DAG) in BMM in a dose-dependent fashion. CSF-1 failed, however, to stimulate an increase in either species of DAG in RPM. Thus, DAG could be a second messenger for the proliferative action of CSF-1 in macrophages. Other mitogenic agents, 12-0-tetradecanoyl phorbol 13-acetate (TPA) and exogenous phospholipase C, also increased BMM levels of [3H]myristoyl- and [3H]arachidonyl-DAG. The nonmitogenic agents, lipopolysaccharide (LPS), tumor necrosis factor-alpha (TNF-alpha) and zymosan, had different effects on the generation of either species of DAG in BMM. LPS failed to elevate either form, TNF-alpha increased only [3H]arachidonyl-DAG, while zymosan stimulated levels of both species of DAG. It therefore appears that increased diacylglycerol generation may be necessary, but perhaps not sufficient, for macrophage proliferation.     

Macrophage regulation of DNA synthesis in lymphoid cells: effects of a soluble factor from macrophages

Addition of rat peritoneal macrophages to nonadherent rat spleen cells in culture results in enhancement or suppression of DNA synthesis depending on the ratio of macrophages to lymphocytes. At high ratios of macrophages to lymphocytes (1:5), suppression can be observed as early as four hours. Macrophages suppress incorporation of thymidine (TdR) by nonadherent spleen, thymus and bone marrow cells, in most instances, to less than 5% of that observed in culture to which macrophages were not added. In the presence of macrophages, incorporation of [³H]uridine and [¹⁴C] amino acids by spleen cells was also moderately suppressed. Based on ⁵¹Chromium release and dye exclusion assays, it appears that suppression is not due to cytotoxicity. Furthermore, suppression of [³H]TdR incorporation by nonadherent spleen cells is reversible, in the presence of an antigenic stimulus, following removal of the macrophages from the cultures. The suppressive effects are not elicited by extracts of macrophages, freeze-thawed or heated macrophages, but appear to be due to a low molecular weight, heat stable factor released into the macrophage culture fluid.     

Dual biological function of a T-cell-derived murine immunoenhancing factor.

Murine enhancing factor (MEF), derived from the culture fluid of mixtures of histoincompatible spleen cells, was found to have two apparently different, but perhaps closely related, biological activities. First, MEF can functionally replace T cells in nonspecifically augmenting the anti-sheep erythrocyte plaque-forming cell response of T-cell-depleted, mouse splenic B-cell cultures. Second, the mediator acts similarly to colony stimulating factor from human urine in promoting the formation of colony-forming units (CFU) in soft agar bone marrow cell cultures. This latter function of MEF was manifest in the absence of detectable increases in the level of incorporation of [³H]thymidine by cultured bone marrow cells. Morphologically, the cells comprising the CFU were macrophage-like in appearance. The data suggest that MEF may function as a differentiation signal for the maturation of antigen-activated B lymphocytes into immunoglobulin-secreting cells, as well as for the modulation of hematopoietic or granulopoietic macrophage stem cells into mature, functional macrophages.     

Effect of lipopolysaccharide on the stimulation of macrophage Fc-dependent phagocytosis by splenic B lymphocytes

Macrophage phagocytic activity is regulated by a variety of products derived from activated lymphocytes. It has been reported that nonactivated splenic B and T lymphocytes enhance macrophage glucose metabolism. In addition, the enhancement of macrophage glucose metabolism was further increased by direct effects of bacterial lipopolysaccharide (LPS) on B, but not T, lymphocytes. In the present study, the effect of purified murine splenic B and T lymphocytes on Fc-dependent phagocytosis by thioglycollate-elicited peritoneal macrophages in the presence or absence of LPS has been investigated. Fc-dependent phagocytosis was assayed by measuring the ingestion of 51Cr-tagged sheep erythrocytes. After 3 or 4 days in culture, nonadherent spleen cells (NASC) and B and T lymphocytes from C3H/HeN (LPS-responder) mice produced 92 +/- 27%, 83 +/- 13%, and 147 +/- 33% increases in C3H/HeJ (LPS-hyporesponder) macrophage phagocytic activity, respectively. A similar effect was observed in Balb/c mice. Cell-free supernatant from NASC and B lymphocytes precultured for 2 or 4 days produced a 74 +/- 20% and 157 +/- 42% increase in phagocytosis respectively. At concentrations which have been previously shown to markedly enhance the ability of splenic B lymphocytes to stimulate macrophage glucose metabolism, Escherichia coli K235 LPS (10 micrograms/ml) did not alter the stimulatory effects of any of the splenic lymphocyte populations on macrophage Fc-dependent phagocytosis. These data suggest that B lymphocytes produce a soluble factor(s) which stimulates macrophage phagocytosis. In addition, LPS has different effects on the regulation of macrophage phagocytic activity and metabolism by B lymphocytes.     

Stimulation by tumor necrosis factor of HL-60 thymidine salvage pathway metabolism dissociated from proliferation

The effect of human tumor necrosis factor (TNF) on early-passage HL-60 cells was studied. A transient phase of increased [3H]thymidine (TdR) incorporation was noted at 20-24 hr of exposure to TNF. This increase was disproportionate to the much slighter stimulation of the percentage of S-phase cells, which was measured by flow cytometry. Evidence for increased metabolic trapping of [3H]TdR following TNF treatment was apparent from whole cell uptake experiments. The salvage pathway enzyme TdR kinase was therefore measured and was found to be elevated comparably to [3H]TdR uptake. The mechanism of TNF regulation of TdR kinase was further investigated by a series of combination treatment experiments using other biologic factors and pharmacologic inhibitors of various intracellular steps. The response to TNF was not potentiated or reproduced by IL-1, IL-2, IL-3, IL-4, G-CSF, M-CSF, GM-CSF or alpha- or gamma-interferon. Blockers of early signal transduction steps, including H7, W7, sphingosine, and pertussis toxin, failed to inhibit TNF stimulation of [3H]TdR incorporation. mRNA synthesis inhibition with alpha-amanitin blocked this TNF effect, as did cAMP but not cGMP analogues. A sensitizing effect was noted with amiloride or cytochalasin B, characterized by greater relative increases of [3H]TdR incorporation and TdR kinase activity in response to TNF. In the presence of cytochalasin B, TNF treatment resulted in no change or slight decreases in the percentage of S-phase cells. Regulation of TdR kinase could thereby be dissociated from the usual cell cycle control. This study thus documents a unique example of stimulation of thymidine salvage pathway metabolism by a biologic factor, dissociable from overall cell cycle regulation.     

Modulation of in vitro thymidine incorporation into crypt cells from the murine small intestine

A method is described for the isolation of enriched populations of crypt cells from the murine small intestine. The method was developed to study the response of cells to various stimuli in vitro. The properties of the isolated cell preparations varied with the state of the intestinal mucosa of the mice from which they were isolated. Thus we could distinguish between cells from lactating and non-lactating mice. Polyamines, which are putative modulators of crypt cell division, failed to stimulate [3H]TdR incorporation in vitro. Lymphocyte culture supernatants suppressed [3H]TdR incorporation at dilutions of 1:4 to 1:64. Supernatants of 12-O-tetradecanoylphorbol-13-acetate-stimulated EL-4 cells and of mixed lymphocyte cultures failed to stimulate [3H]TdR incorporation of any dilution. Supernatants of concanavalin A-stimulated spleen cells gave less suppression of [3H]TdR incorporation than those of unstimulated spleen cells and stimulated incorporation at dilutions of 1:64 and 1:128. Phytohaemagglutinin stimulated [3H]TdR incorporation at high concentrations, whereas concanavalin A (con A) had no effect. This study shows that the isolated murine crypt cells may have the potential to provide a useful in vitro model for crypt cell responses to stimuli.     

Effects of synthetic and naturally occurring flavonoids on mitogen-induced proliferation of human peripheral-blood lymphocytes

Examination was made of the effects of 17 synthetic and naturally occurring flavonoids on human lymphocyte proliferation in the presence of concanavalin A as a mitogen. Twelve of the flavonoids examined were mono-hydroxy or methoxy derivatives. The mitogen-induced response of lymphocytes was evaluated from the extent of the incorporation of [3H]thymidine into cells in vitro. All the compounds showed inhibitory effects; 4.5-77.7% of [3H]thymidine incorporation was blocked by an 1.0 micrograms/ml concentration. The viability of lymphocytes before and after treatment, as assessed by a dye exclusion test, indicated no change, and thus the flavonoids may inhibit DNA synthesis. The flavonoids possessing 5-hydroxyl, 5-methoxyl and 6-methoxyl groups, and those with cyclohexyl instead of phenyl substituent (i.e. 2-cyclohexyl-benzopyran-4-one), showed the greatest inhibition. The inhibitory effect of any one of them was less than one half that of prednisolone, but essentially the same or somewhat exceeding that of bredinine or azathioprine. It would thus appear that the well-known anti-inflammatory effects of flavonoids may possibly arise in part from the inhibition of the proliferative response of lymphocytes.     

Effect of hindlimb suspension simulation of microgravity on in vitro immunological responses

The effects of microgravity on the immune system are largely unknown, but understanding such effects becomes increasingly important as space exploration continues and mission duration increases. Reductions in postflight human T cell reactivity to mitogens is well documented. Similar results have been obtained using a clinostat as an in vitro model of microgravity. In this study, a rat tail suspension model of weightlessness was used to examine in vitro lymphocyte proliferation in response to mitogens. Experiments were designed to uncover potential deficits in events related to proliferation including cell surface protein and IL-2 receptor (IL-2R) expression, interleukin-2 (IL-2) production, and accessory cells. Suspension of rats for 1 week led to a significant depression in [3H]thymidine incorporation by mitogen-stimulated peripheral blood lymphocytes (PBL) but only a small decrease in the proliferation of lymph node lymphocytes and splenocytes. There were no changes in the percentages of cells expressing CD4, CD5, CD8 or immunoglobulin. Moreover, no changes in IL-2 production or IL-2R expression were observed. More esterase-positive macrophages were detected in all lymphatic tissues of suspended rats, but there was no corresponding increase in the percentage of cells bearing the macrophage markers OX41 or OX42. This increase in the number of macrophages may be related to the observed suppression of lymphocyte proliferation. The tissue specificity of the decrease in mitogen activation indicates that there may be a compartmentalized response in the rats tested in the hindlimb suspension model.     

Effect of lipoxygenase metabolites of arachidonic acid on proliferation of human T cells and T cell subsets

The lipoxygenase products LTB4 and 15 HPETE have been reported to stimulate T suppressor cell function and also to inhibit [3H]thymidine incorporation into mitogen-stimulated T cells. This present report documents that although these compounds do indeed inhibit [3H]thymidine incorporation into unfractionated T cells, they significantly enhance [3H]thymidine incorporation into T cell preparation enriched for cells bearing the cytotoxic suppressor cell phenotype identified by the OKT8 monoclonal antibody. The mitogen response of T cells enriched for OKT4+ helper-inducer cells is inhibited in manner similar to the response of unfractionated T cells. Thus, LTB4 and 15 HPETE stimulate both the function and the proliferation of the cytotoxic-suppressor T cell subset.     

Effects of recombinant human macrophage colony-stimulating factor on proliferation, differentiation and survival of Kupffer cells in the liver of adult mice

OBJECTIVE: To investigate the effects of macrophage colony-stimulating factor (M-CSF) on the proliferation, differentiation and survival of Kupffer cells in the liver of adult mice. STUDY DESIGN: By the combined method of autoradiography with [3H]thymidine and immunohistochemistry using a monoclonal antibody against mouse macrophages (F4/80 or BM8), the labeling rate of [3H]thymidine in macrophages within the liver sinusoids was examined at various intervals after single flash labeling with [3H]thymidine in adult mice with or without daily administration of recombinant human M-CSF. RESULTS: A minor population of Kupffer cells (about 2%) possessed proliferative capacity under a normal steady state condition. With time after flash labeling, the influx of monocytes and their differentiation into macrophages were demonstrated in the liver, and their labeling rate returned to the baseline level one week later. Afterward, the labeling rate of Kupffer cells was maintained at the baseline level until the end of five weeks. Administration of M-CSF enhanced the proliferative capacity of Kupffer cells, increased the number of macrophages and delayed the time of peaking. However, it did not prolong the survival of Kupffer cells. CONCLUSION: In normal mice, Kupffer cells can survive for at least five weeks. Daily M-CSF administration induces the increased number and proliferative capacity of Kupffer cells.