Regulation of IL-6 expression by oncostatin M

Endothelial cells produce immunomodulatory cytokines in response to soluble mediators of inflammatory/immune reactions. We have previously demonstrated that the leukocyte-derived cytokine, oncostatin M (Onco M) can alter endothelial cell morphology, regeneration, and fibrinolytic activity in vitro. Here we demonstrate that Onco M stimulates the production of the pleiotropic cytokine, IL-6, in cultured human endothelial cells (HEC) in a time- and dose-dependent manner. Specific antibodies to IL-6 neutralize the growth-inhibitory activity for human breast carcinoma cells that is secreted by HEC in response to Onco M treatment. Specific immunoassays indicate greater than 10-fold increases in the IL-6 content of culture supernatants as early as 6 h post-treatment with Onco M (ED50 = 17 pM). This stimulation of IL-6 production by Onco M is associated with a sevenfold increase in intracellular levels of IL-6 mRNA. IL-1 alpha and TNF-alpha are also potent inducers of IL-6 production in these cells, the order of potency being IL-1 alpha greater than Onco M greater than TNF-alpha. TNF-alpha, but not IL-1 alpha, synergizes with Onco M to augment IL-6 production in HEC. HEC are 10 to 20 times more responsive to Onco M than are other nonendothelial cell types. In addition, HEC express 10 to 20 times greater numbers of high affinity cell-surface receptors for Onco M than do other nonendothelial cell types. Based on these findings, we propose that Onco M may represent a new immunomodulator regulating cytokine-induced gene products in endothelial cells.     

Production of a retroviral P15E-related chemotaxis inhibitor by IL-1-treated endothelial cells. A possible negative feedback in the regulation of the vascular response to monokines

The effects of IL-1 on vascular endothelium result in a complex set of alterations which are potentially disruptive of vessel wall and underlying tissue integrity. The present study was aimed at investigating possible regulation of such potentially destructive responses elicited by IL-1 on endothelial cells. Culture supernatants of IL-1-treated human umbilical vein endothelial cells (HEC) were depleted of retroviral p15E-related Ag with immobilized anti-p15E mAb. The monocyte chemotactic and polarizing activity of supernatants of IL-1-treated HEC (presumably related to colony-stimulating factors being released by HEC) was markedly augmented by absorption on immobilized anti-p15E antibodies. Irrelevant IgG had no effect and anti-p15E antibodies did not affect the chemotactic activity of supernatants from unstimulated HEC. The material eluted from Sepharose-bound anti-p15E antibodies was devoid of chemotactic and polarizing activity and suppressed the polarization and migration of monocytes in response to chemoattractants. The alpha and beta molecular species of IL-1 were equally effective in inducing the production of p15E-related inhibitor. The production of a p15E-related inhibitor of chemotaxis induced by IL-1 in HEC may represent a negative signal in the regulation of the potentially destructive responses to pro-inflammatory cytokines.     

Cytokine regulation of interleukin 6 production by human endothelial cells

The influence of recombinant (r) human tumor necrosis factor alpha (rTNF-alpha), r human interleukin 1 beta (rIL-1 beta), and r human interferon gamma (rIFN-gamma) on the production of interleukin 6 (IL-6) by human endothelial cells (HEC) was investigated. The addition of 1-100 U/ml of either rTNF-alpha or rIL-1 beta to cultures of HEC monolayers caused a dose-related increase in IL-6 production as detected after 24 hr of incubation. In contrast to rIL-1 beta and rTNF-alpha, the use of up to 1000 U/ml of rIFN-gamma caused only a moderate increase in IL-6 production. However, significantly greater quantities of IL-6 were produced by HEC monolayers subjected to 1000 U/ml of rIFN-gamma in combination with 1-100 U/ml of rTNF-alpha. Furthermore, the addition of graded concentrations of human transforming growth factor beta (TGF-beta) to cultures resulted in a dose-related inhibition of rIL-1 beta- and rTNF-alpha-induced IL-6 production by HEC. The results demonstrate that rIL-1 beta and rTNF-alpha share the ability to stimulate HEC for production of IL-6 and indicate that TGF-beta may act as an immunosuppressive agent, at least partially, through its ability to inhibit the action of TNF-alpha and IL-1 on endothelial cells.     

A synergistic interaction of IL-6 and IL-1 mediates the thymocyte-stimulating activity produced by recombinant IL-1-stimulated fibroblasts

We characterized the ability of normal human lung fibroblasts to elaborate thymocyte-stimulating activity, spontaneously, and in response to rIL-1. Supernatants from unstimulated fibroblasts did not contain thymocyte-stimulating activity, whereas supernatants from fibroblasts incubated with rIL-1 alpha or rIL-1 beta contained more thymocyte-stimulating activity than could be accounted for by passively transferred rIL-1 alone. This heightened thymocyte-stimulating activity was mediated by fibroblast-derived IL-6 inasmuch as it was neutralized by anti-serum against human rIL-6, and rIL-1-stimulated fibroblasts to accumulate messenger RNA for IL-6 and produce soluble IL-6 protein. However, IL-6 alone could not account for the intensity of this effect because rIL-6 only weakly stimulated thymocyte proliferation. In addition, antisera against the rIL-1 moiety that was used to prepare the supernatant had different effects on supernatants that contained and did not contain active IL-6. In the presence of IL-6 these antisera caused a greater decrease in thymocyte-stimulating activity than could be accounted for by passively transferred rIL-1 alone. When the IL-6 was neutralized the remaining thymocyte-stimulating activity could be quantitatively accounted for and neutralized by antisera against the rIL-1 that was passively transferred. Furthermore, rIL-6 and rIL-1 (alpha or beta) synergized in stimulating thymocyte proliferation. Thus, rIL-1 stimulates fibroblasts to produce a thymocyte-stimulating activity that is largely mediated by a synergistic interaction of fibroblast-derived IL-6 and IL-1. These findings suggest that fibroblast production of IL-6 may mediate or amplify some of the tissue effects of IL-1. In addition they suggest that biologic effects previously attributed to IL-1 may be due to IL-6 alone or the concerted action of IL-1 and IL-6.     

Expression of IL-1 beta and IL-8 by human gingival epithelial cells in response to Actinobacillus actinomycetemcomitans

The interaction between epithelial cells and microorganisms is the most important step in bacterial infections. Epithelial cells in response to exposure to pathogenic bacteria produce cytokines that initiate inflammation. However, little is known about the cytokine response of gingival epithelial cells to periodontopathogenic bacteria. Actinobacillus actinomycetemcomitans is thought to play a significant role in the initiation of periodontitis because of its bacteriological characteristics. In the present study, we investigated the cytokine induction by human gingival epithelial cells (HGEC) following exposure to A. actinomycetemcomitans in comparison with human gingival fibroblasts (HGF) in culture. Northern blot analysis showed that mRNAs of interleukin 1beta (IL-1beta) and IL-8, but not IL-6, in HGEC were induced in response to A. actinomycetemcomitans. Secretion of IL-8 by HGEC was also increased following A. actinomycetemcomitans challenge, whereas production of IL-1beta could not be detected. The levels of IL-8 and its mRNA were increased depending on the concentration of A. actinomycetemcomitans. The co-culture with HGF and A. actinomycetemcomitans resulted in an increase in the levels of IL-6 and IL-8 mRNA in HGF. However, HGF exposed to A. actinomycetemcomitans, showed no expression of IL-1beta mRNA. These findings demonstrated that HGEC and HGF stimulated with A. actinomycetemcomitans have different profiles in cytokine mRNA expression. Furthermore, A. actinomycetemcomitans may play an important role in amplifying the local immune response and in initiating inflammatory reaction through release of IL-8 from gingival epithelial cells.     

Ionizing radiation enhances IL-6 and IL-8 production by human endothelial cells

Irradiation exposure is known to induce an inflammatory reaction. Endothelial cells play a crucial role both in the inflammatory process and in radiation damage. Therefore, supernatants and cell lysates of (60)Co-irradiated human umbilical vein endothelial cells (HUVEC) have been assessed for the presence of pro-inflammatory cytokines. After gamma irradiation, interleukin (IL)-1alpha, IL-1beta and tumor necrosis factor (TNF)-alpha remained undetectable in both cell supernatants and cell lysates. However, a dose-dependent increase in the production of IL-6 and IL-8 has been demonstrated up to 6 days after exposure. These data indicate that the pro-inflammatory cytokines IL-6 and IL-8 may be involved in the inflammatory response of vascular endothelium induced by exposure to ionizing radiation.     

Cutting edge: IL-17D,a novel member of the IL-17 family,stimulates cytokine production and inhibits hemopoiesis

A novel cytokine termed IL-17D was cloned using nested RACE PCR. It is a secreted cytokine with homology to the IL-17 family of proteins. IL-17D is preferentially expressed in skeletal muscle, brain, adipose tissue, heart, lung, and pancreas. Treatment of endothelial cells with purified rIL-17D protein stimulated the production of IL-6, IL-8, and GM-CSF. The increased expression of IL-8 was found to be NF-kappa B-dependent. rIL-17D also demonstrated an inhibitory effect on hemopoiesis of myeloid progenitor cells in colony formation assays.     

IL-2 stimulates the production of IL-1 alpha and IL-1 beta by human peripheral blood mononuclear cells

Human PBMC were cultured in medium containing human rIL-2, and the supernatants and cell lysates were analyzed for IL-1 alpha and IL-1 beta using specific RIA. IL-2, but not the excipient detergents included in the rIL-2 preparation, induced the synthesis of both cytokines. The concentrations of IL-1 alpha and IL-1 beta in the cell lysates and supernatants depended on both the concentration of rIL-2 in the culture medium and the duration of the incubation. After 24 h of stimulation, IL-2-induced IL-1 alpha remained almost entirely cell-associated. In contrast, IL-1 beta was present in both cell lysates and supernatants and was more abundant in the latter. SDS-PAGE analysis after radioimmunoprecipitation with anti-IL-1 antibodies indicates that cell-associated IL-1 resulting from IL-2 stimulation was in the form of the 35 kDa IL-1 precursor whereas secreted IL-1 was almost entirely in the form of the mature 18 kDa product. Depletion of monocytes from the PBMC culture substantially reduced IL-2-induced IL-1 production. In addition, Leu M3+ monocytes obtained through FACS, but not CD16+ NK cells, produced both IL-1 alpha and IL-1 beta in response to IL-2. The low level of endotoxin present in the IL-2 preparation used in our studies and the selective inhibition by polymyxin B of LPS-induced, but not IL-2-induced, IL-1 production by PBMC indicate that IL-2-induced IL-1 production was not due to endotoxin contamination. Furthermore, an anti-IL-2 antiserum selectively inhibited IL-1 production in response to IL-2 stimulation. We conclude that IL-2 is a potent inducer of IL-1 synthesis and secretion in vitro and propose that IL-1 may be generated in vivo in patients undergoing IL-2 immunotherapy.     

Evidence for IL-6 production by and effects on the pancreatic beta-cell

IFN-gamma and TNF-alpha injure the pancreatic beta-cell and may be involved in the pathogenesis of autoimmune type 1 diabetes. Because the induction of IL-6 appears to be an important host cell response to injury, we have examined whether IL-6 is produced by murine pancreatic islets or rat insulinoma (RIN-m5F) cells after their exposure to IFN-gamma and TNF-alpha. Islet culture supernatants contained detectable IL-6 activity which was increased 6-fold when islets were exposed to IFN-gamma and 40- and 115-fold when islets were exposed to TNF-alpha and TNF-alpha + IFN-gamma, respectively. A mAb against murine IL-6 abolished (control and IFN-gamma) or significantly reduced (TNF-alpha and TNF-alpha + IFN-gamma) the IL-6 activity in islet supernatants. The magnitude for the effects of IFN-gamma and TNF-alpha on the production of IL-6 from mouse islets was found to be both time and dose dependent. Northern blot hybridization analysis of islet total cytoplasmic RNA with a cDNA probe to murine IL-6 revealed a band at 1.3 kb, the intensity of which increased in islets exposed to IFN-gamma + TNF-alpha. IL-6 activity was also detected in culture supernatants from RIN-m5F cells exposed to TNF-alpha + IFN-gamma. Islets cultured with rIL-6 secreted higher levels of insulin compared with control islets. Pancreatic islet cells, in all probability beta-cells, produce IL-6, the expression of which is up-regulated by IFN-gamma and/or TNF-alpha. In addition to a possible role in regulating pancreatic beta-cell function we propose that IL-6 produced by the pancreatic beta-cell may act as a costimulator for autoreactive B and T lymphocytes in autoimmune diabetes.     

IL-6 is a potent cofactor of IL-1 in IgM synthesis and of IL-5 in IgA synthesis

In these studies we determined the capacity of IL-6 to act as a differentiation cofactor for murine Peyer's patch B cells producing different Ig classes and subclasses. In preliminary studies we determined that sufficient endogenous IL-6 was produced in LPS-induced cell systems to obscure responses to exogenous IL-6. We therefore studied IL-6 effects on Peyer's patch B cells (T cell-depleted cell populations) in the absence of LPS, relying on responses of in vivo-activated cells. rIL-1 alpha or purified IL-6 only slightly enhanced synthesis of IgM over minimal baseline levels in Peyer's patch T cell-depleted cell cultures; however, when IL-6 was added to cultures also containing rIL-1, IgM synthesis was very substantially increased. In addition, rIL-5 alone gave rise to a modest increase in IgM synthesis and its effect was not enhanced by either rIL-1 or IL-6. IgG production (mainly IgG3) followed a similar pattern. In contrast, IgA production was only modestly increased above baseline by rIL-1, rIL-5, or IL-6 alone or by rIL-1 and IL-6 in combination, but was greatly increased by rIL-5 and IL-6 in combination. The effect of IL-6 on Ig synthesis in the above studies was not due to an effect on cell proliferation. In summary, these data indicate that B cells differ in respect to the cytokines supporting maximal terminal differentiation and thus the class of Ig produced may depend on the presence of a particular combination of cytokines and lymphokines.     

Cutting edge: IL-1beta mediates the proangiogenic activity of osteopontin-activated human monocytes

Inflammation plays an important role in the onset of angiogenesis. In the present study, we show that osteopontin (OPN), a proinflammatory mediator involved in tissue repair, induces IL-1beta up-regulation in human monocytes. This was accompanied by the enhanced production of TNF-alpha, IL-8, and IL-6, a decreased release of IL-10, and increased p38 phosphorylation. The supernatants of OPN-treated monocytes were highly angiogenic when delivered on the chick embryo chorioallantoic membrane. The angiogenic response was completely abrogated by a neutralizing anti-IL-1 Ab, thus indicating that this cytokine represents the major proangiogenic factor expressed by OPN-activated monocytes. Accordingly, rIL-1beta mimicked the proangiogenic activity of OPN-treated monocyte supernatants, and IL-1R (type I) was found to be expressed in the chorioallantoic membrane. In conclusion, OPN-activated monocytes may contribute to the onset of angiogenesis through a mechanism mediated by IL-1beta.     

Recruitment of STAT3 for production of IL-10 by colon carcinoma cells induced by macrophage-derived IL-6

The immunosuppressive cytokine IL-10 is associated with poor prognosis in colon cancer. Although macrophages are involved in antitumor defenses, production of IL-10 by tumor cells may permit malignant cells escape to cell-mediated immune defenses. To investigate interactions between macrophages and tumor cells in humans, we cultured macrophages isolated from patients and tested the effect of these macrophages on the production of IL-10 by several tumor cell lines. Macrophages were isolated from pleural effusions of patients with malignancy and from noncancer control patients. We demonstrated that culture supernatants of macrophages from both sources strongly stimulated IL-10 production by the three different human colon adenocarcinoma cell lines, Colo 205, Colo 320, and HT29. Recombinant IL-6, but not IL-10, TNF-alpha, and IFN-alpha, stimulated the secretion of IL-10 by colon tumor cells. mAbs against IL-6 and IL-6R prevented the effect of macrophage culture supernatants and of rIL-6, respectively, on the production of IL-10 by the three cell lines. Cocultures of macrophages and colon cancer cells showed that these tumor cells first stimulated macrophages to produce IL-6, which was then followed by IL-6-induced IL-10 production by colon cancer cells. Finally, we showed that IL-10 gene regulation was mediated by STAT3, which was phosphorylated after the binding of IL-6 to IL-6R. This is the first demonstration that IL-6, secreted by macrophages, can induce a STAT3-mediated IL-10 production by colon tumor cells.     

IL-12 and IL-18 are increased and stimulate IFN-gamma production in sarcoid lungs

Sarcoidosis is a systemic chronic granulomatous disease of unknown cause. Recent investigations revealed that the cytokine profile in inflamed lesions of sarcoidosis is Th1 dominant. To obtain better immunopathologic understanding of sarcoidosis, we examined the expression of IL-12 and IL-18 and their roles in IFN-gamma production in pulmonary sarcoidosis. Sarcoid cases had significantly elevated levels of IL-12 (p40 and p70) and IL-18 in bronchoalveolar lavage (BAL) fluids compared with healthy subjects. IL-12 p70 and IL-18 were immunohistochemically expressed in the epithelioid cells and giant cells of sarcoid granulomas. Significant induction of IFN-gamma, IL-12 p70, and IL-18 was observed from sarcoid BAL fluid cells with LPS stimulation, whereas LPS tended to induce only IL-12 p70 in BAL fluid cells from healthy subjects. Sarcoid cases had significantly greater IFN-gamma induction with LPS stimulation than healthy subjects did. IL-18 mRNA expression was observed in freshly isolated sarcoid BAL fluid cells as well as in LPS-stimulated sarcoid BAL fluid cells, but IFN-gamma and IL-12 mRNA expression was observed only in LPS-stimulated BAL fluid cells. Treatment with anti-IL-12- and anti-IL-18-neutralizing Abs significantly inhibited IFN-gamma production from LPS-stimulated BAL fluid cells of sarcoid cases. Coadministration of rIL-12 or rIL-18 induced greater IFN-gamma production in sarcoid BAL fluid cells than in normal BAL fluid cells. We concluded that bioactive IL-12 and IL-18 were produced in sarcoid BAL fluid cells and synergistically induced IFN-gamma production, indicating important cytokines in the Th1 response of sarcoidosis.     

Iron chelation acutely stimulates fetal human intestinal cell production of IL-6 and VEGF while decreasing HGF: the roles of p38, ERK, and JNK MAPK signaling

Bacteria have developed mechanisms to sequester host iron via chelators such as deferoxamine (DFO). Interestingly, DFO has been shown to stimulate acute intestinal epithelial cell inflammatory cytokine production in the absence of bacteria; however, this mechanism has not been elucidated. Intestinal epithelial cell production of IL-6 and TNF-alpha is elevated in various gastrointestinal pathologies, including acute intestinal ischemia. Similarly, VEGF and HGF are essential to intestinal epithelial cell integrity. Therapeutic strategies that decrease IL-6 and TNF-alpha while increasing VEGF and HGF therefore have theoretical appeal. We hypothesized that 1) fetal human intestinal epithelial cells acutely produce increased IL-6, TNF-alpha, VEGF, and HGF during iron chelation and 2) the MAPK pathway mediates these effects. Fetal human intestinal epithelial cells were stimulated by iron chelation (1 mM DFO) with and without p38 MAPK, ERK, or JNK inhibition. Supernatants were harvested after 24 h of incubation, and IL-6, TNF-alpha, VEGF, and HGF levels were quantified by ELISA. Activation of MAPK pathways was confirmed by Western blot analysis. DFO stimulation resulted in a significant increase in epithelial cell IL-6 and VEGF production while yielding a decrease in HGF production (P<0.05). Unexpectedly, TNF-alpha was not detectable. p38 MAPK, ERK, and JNK inhibition significantly decreased IL-6, VEGF, and HGF production (P<0.05). In conclusion, DFO acutely increases fetal human intestinal epithelial cell IL-6 and VEGF expression while causing an unexpected decrease in HGF expression and no detectable TNF-alpha production. Furthermore, chelator-induced intestinal epithelial cell cytokine expression depends on p38, ERK, and JNK MAPK pathways.     

Natural and recombinant human IL-1 receptor antagonists block the effects of IL-1 on bone resorption and prostaglandin production

Inhibitory factors towards IL-1 have been identified in the urine and in the supernatants of human monocyte cultures and have been shown to act as receptor antagonists. We have investigated whether a natural inhibitor purified from human urine (uIL-1ra) and a recombinant molecule expressed using the gene for an IL-1 antagonist isolated from monocytes (rIL-1ra) can alter responses to human rIL-1 alpha in organ cultures of fetal rat long bones and neonatal mouse calvariae. The two preparations probably contained similar or identical molecules, because an antibody to rIL-1ra reacted with uIL-1ra by Western blot analysis. uIL-1ra and rIL-1ra specifically blocked stimulation of bone resorption by rIL-1 in both culture systems, as well as the increase in PGE2 production in cultured calvariae. Resorptive effects of parathyroid hormone and TNF-alpha were not blocked. The uIL-1ra preparation had some intrinsic resorbing activity, but on gel chromatography this appeared in fractions that eluted earlier than uIL-1ra. Concentration ratios of rIL-1ra to rIL-1 as low as 10 could block the resorptive response of fetal rat long bones, whereas concentration ratios of 100 to 1000 were required to block IL-1 action on neonatal mouse calvariae. The inhibitory effects appeared to be competitive, because increasing concentrations of IL-1 overcame the block of bone resorption in both systems and the inhibition of PGE2 production in calvariae.     

Helper-independent CD8+ cytotoxic T lymphocytes express IL-1 receptors and require IL-1 for secretion of IL-2

The purpose of this study was to examine the role of IL-1 on the activation of CD8+/CD4- class I-restricted helper cell-independent cytolytic T cell (HITc) clones known to produce IL-2 and proliferate in vitro after Ag stimulation with a Friend retrovirus-induced leukemia (FBL). The functional role of IL-1 in Ag-specific proliferation and IL-2 secretion was assessed by stimulating the T cell clones with FBL either in the presence or absence of macrophages (M phi), rIL-1, or rIL-2. Resting cloned HITc cells, purified from residual accessory cells, failed to proliferate in response to FBL alone, but proliferated in response to FBL plus M phi, rIL-1 or rIL-2. Stimulation with FBL alone in the absence of M phi or IL-1 was sufficient for induction of IL-2R expression, and rendered cells responsive to IL-2, but M phi or IL-1 were also required to induce production of IL-2. The activity of IL-1 was further examined by measuring the binding of [125I]rIL-1 alpha, which demonstrated that resting cloned HITc cells expressed IL-1R that increased in number after activation with Ag. This expression of IL-1R and requirement for IL-1 by CD8+ HITc was surprising because previous studies examining T cell populations after mitogen stimulation have not detected IL-1R on the CD8+ population. Therefore, the role of IL-1 in the activation of CD8+ CTL that do not secrete IL-2 after activation was assessed. By contrast to HITc, CD8+ CTL required exogenous IL-2 to proliferate in vitro and did not express IL-1R. These data demonstrate that the subset of CD8+ T cells responsible for IL-2 production express IL-1R and that triggering this receptor with IL-1 after Ag stimulation results in the production of IL-2 and subsequent proliferation.     

Activation of vascular endothelial cells by IL-1alpha released by epithelial cells infected with respiratory syncytial virus

Although pulmonary inflammation is a serious, sometimes life-threatening, consequence of respiratory syncytial virus (RSV) infection, the mechanisms involved are not well understood. Since the process of inflammation is initiated by a complex series of events including the activation of specific adhesion molecules on vascular endothelium, we searched for endothelial cell-activating factors released from RSV-infected epithelial cells. We demonstrate here that vascular endothelial cells exposed to culture supernatants from RSV-infected pulmonary epithelial A549 cells are activated to express increased cell surface ICAM-1, and to a lesser extent, VCAM-1 and E-selectin. IL-1alpha was identified as the predominant endothelial cell-activating factor by pretreating epithelial cell supernatants with anti-IL-1alpha antibody. The preferential upregulation of endothelial ICAM-1 (relative to VCAM-1 and E-selectin) by RSV-infected epithelial cell supernatants was replicated by recombinant IL-1alpha thus confirming IL-1alpha as a major endothelial cell-activating cytokine released by RSV-infected epithelial cells. Il-1alpha mediated endothelial cell activation is thus a likely contributory event in the initiation of leukocyte inflammation associated with RSV infection.     

Up-regulation of hepatocyte growth factor gene expression by interleukin-1 in human skin fibroblasts.

Hepatocyte growth factor (HGF) functions as a hepatotrophic and renotrophic factor for regeneration of the liver and kidney. When 1 ng/ml of interleukin-1 alpha (IL-1 alpha) or interleukin-1 beta (IL-1 beta) was added to cultures of human skin fibroblasts, the production of HGF was 5-6 fold higher than levels in the controls. HGF mRNA level in the cells was increased to 4-fold higher levels at 6 h after exposure to IL-1 alpha. Tumor necrosis factor-alpha and interferon-gamma but no other cytokine tested had slightly stimulatory effects on HGF production. The tumor promoter, tetradecanoylphorbol 13-acetate (TPA) markedly enhanced the stimulatory effect of IL-1 alpha and IL-1 beta on the production of HGF. The stimulatory effect of both IL-1 alpha and IL-1 beta and the synergistical stimulation with TPA were completely abrogated by 10 ng/ml TGF-beta 1 or 1 microM dexamethasone. These results suggest that IL-1 alpha and IL-1 beta are positive regulators for expression of the HGF gene and are likely have a role in regeneration of tissues following the occurrence of inflammatory diseases.