Macrophage colony-stimulating factor enhances monocyte and macrophage antibody-dependent cell-mediated cytotoxicity

In vitro culture of either human peripheral blood monocytes or murine peritoneal macrophages for 72 hr in the presence of macrophage colony-stimulating factor (M-CSF) dramatically increased their subsequent ability to mediate antibody-dependent cellular cytotoxicity (ADCC). The M-CSF-treated cells were more effective in ADCC at lower effector to target cell ratios and in the presence of lower concentrations of tumor-specific monoclonal antibody than the untreated control cells. Two other hematopoietic cytokines, granulocyte-macrophage colony-stimulating factor and interleukin-3, reported to enhance other macrophage effector functions were ineffective in promoting the development of ADCC by cultured human monocytes. All three hematopoietic growth factors were capable of enhancing the ability of the cultured monocytes to secrete TNF alpha; however, TNF alpha is unlikely to be an important cytotoxic factor in ADCC because neutralizing antibodies against TNF alpha had no affect on ADCC in vitro. Further, much higher concentrations of M-CSF were required to augment monocyte TNF alpha release (20-100 ng/ml) than ADCC capacity (1-10 ng/ml). These results suggest that M-CSF administration might prove effective in increasing the tumoricidal activities of tumor-specific monoclonal antibodies by enhancing the capacity of monocytes and macrophages to mediate ADCC.     

Tumor necrosis factor is an important mediator of tumor cell killing by human monocytes

The mechanism of human peripheral blood monocyte-mediated cytotoxicity for tumor cells was investigated, using the A673 human rhabdomyosarcoma and HT-29 human colon adenocarcinoma lines as target cells. A673 cells were shown to be susceptible to the cytotoxic action of purified recombinant human tumor necrosis factor (TNF). A673 cells were also highly sensitive to the cytotoxic action of peripheral blood monocytes. Clones of A673 cells sensitive and resistant to TNF were isolated and characterized for their sensitivity to monocyte killing. A good correlation was found between the sensitivity of these clones to the cytotoxicity of TNF and their susceptibility to killing by monocytes. A TNF-specific neutralizing monoclonal antibody (MAb) reduced monocyte killing of parental A673 cells and of a TNF-sensitive clone of A673 cells. Inhibition of monocyte killing by this MAb was particularly pronounced at a low effector to target cell ratio. HT-29 cells were relatively resistant to the cytotoxic action of recombinant TNF and to monocyte killing. Treatment of HT-29 cells with recombinant human IFN-gamma increased their susceptibility to both TNF cytotoxicity and monocyte killing. In addition, MAb to TNF inhibited monocyte killing in HT-29 cells sensitized by incubation with IFN-gamma. Our data show that TNF is an important mediator of the cytotoxicity of human monocytes for tumor cells and that IFN-gamma can increase monocyte cytotoxicity by sensitizing target cells to the lytic action of TNF.     

Role of interferon γ and tumour necrosis factor α in monocyte-mediated cytostasis and cytotoxicity against a human histiocytic lymphoma cell line

Summary In view of cellular adoptive immunotherapy we have studied monocyte-mediated cytostasis and cytotoxicity against U 937 cells, a human histiocytic lymphoma cell line. Highly purified human monocytes and monocytederived macrophages were activated with interferon (IFN) or tumour necrosis factor (TNF) to antileukemic immune effector cells. Antileukemic activity of human monocytes was dependent on monocyte differentiation into macrophages and on a dose- and time-dependent activation with IFN or TNF. Maximum cytostasis of 97.0±0.7% (mean ± SEM) (conventional [³H]dT uptake assay) and 81.9±5.3% cytotoxicity (modified MTT assay) of U 937 cells was obtained by monocytes activated with 100 U/ml IFN for at least 24 h at an effector-to-target-cell ratio of 10. U 937 cells premodified with IFN showed an increase in susceptibility to monocyte-mediated cytotoxicity. U 937 cells premodified with TNF were almost resistant to monocyte-mediated cytotoxicity while activated monocytes maintained their cytotoxic potential. These data show that IFN and TNF are potent activators of monocyte-mediated cytotoxicity. Furthermore, IFN and TNF might be involved in the regulation of the susceptibility of leukemic cells to lysis by interactions with monocytes or macrophages.     

The principal tumor necrosis factor receptor in monocyte cytotoxicity is on the effector cell, not on the target cell.

Several tumor target cell lines, prototypically K562 cells, are resistant to lysis by recombinant tumor necrosis factor (TNF alpha) but are killed by monocytes expressing membrane-associated TNF, suggesting that membrane TNF could account for monocyte-mediated cytotoxicity. Formaldehyde-fixed monocytes or extracted monocyte membrane fragments are cytotoxic to K562 target cells. Treatment of monocytes with interferon-gamma (IFN-gamma) increases cytotoxicity by live and fixed cells or by extracted monocyte membranes. Both TNF and TNF receptors are detectable on monocyte membranes by FACS analysis, and the levels of each are modulated by treatment with IFN-gamma. Cytotoxicity can be inhibited by either anti-TNF or anti-TNF receptor antibodies. Incubation of effector cells with exogenous soluble TNF prior to fixation or membrane preparation increases their cytotoxicity. In contrast, incubation of the target cells with exogenous TNF neither increases nor decreases killing by effector cell membrane fragments or intact effector cells. The data suggest that the TNF receptors on the effector cell, but not on the target cell, play a crucial role in TNF-mediated cytotoxicity.     

Cell surface tumor necrosis factor (TNF) accounts for monocyte- and lymphocyte-mediated killing of TNF-resistant target cells

WEHI164 cells are susceptible to cytotoxicity by soluble recombinant or monocyte-derived TNF alpha, as well as to cell-mediated cytotoxicity by monocytes or lymphocytes. In contrast, K562 cells are resistant to lysis by soluble recombinant or natural TNF alpha, but are killed by monocyte or lymphocyte effector cells. Cell-mediated cytotoxicity against both target cell lines is enhanced by treatment of monocyte effector cells with recombinant interferon gamma or lymphocyte effector cells with interleukin-2. However, treatment of monocytes with LPS, or of lymphocytes with PHA, although inducing secretion of soluble TNF alpha in the medium, does not increase cell-mediated cytotoxicity. Anti-TNF alpha neutralizing antibodies partially inhibit monocyte- as well as lymphocyte-mediated cytotoxicity against WEHI164 and K562 cells. Formaldehyde-fixed effector cells are cytotoxic to both target cell lines. Cytotoxicity by fixed effector cells can be inhibited by anti-TNF alpha antibodies. The extent of cell-mediated cytotoxicity induced by treatment of effector cells with stimulators prior to fixation corresponds to the expression of TNF on monocyte membranes, but not to the titers of secreted TNF. The data suggest that membrane-associated TNF alpha may be a mechanism of human monocyte- as well as lymphocyte-mediated cytotoxicity, regardless of whether the target cells are sensitive or insensitive to soluble TNF.     

The effect of RU 41.740 (Biostim) on the production of interleukin-1 by monocytes and enriched large granular lymphocytes in normals and patients with hepatocellular carcinoma

Summary The effect of RU 41.740 on natural killer (NK) cell cytotoxicity from normals and patients with advanced hepatocellular carcinoma (HCC) was studied. RU 41.740-treated normal enriched large granular lymphocytes (LGLs) showed increased cytotoxic activity against ⁵¹Cr-labelled K562 cells. Although the drug increased the cytotoxic activity of LGLs from HCC patients, these results were not statistically significant. As LGLs have been shown to release interleukin-1 (IL-1) after suitable stimulation the effects of RU 41.740 on production of this cytokine from both monocytes and LGLs was studied. The drug stimulated IL-1 release from normal cells but monocyte and LGL IL-1 production from HCC patients was not influenced by RU 41.740 by RU 41.740. It is concluded, therefore, that although RU 41.740 can stimulate natural cytotoxicity and IL-1 production by normal LGLs, it is unable to correct the defect which exists in these functions in patients with large mass tumours.     

Activation of human peripheral blood-derived monocytes by OK-432 (Streptococcus pyogenes): augmented cytotoxicity and secretion of TNF and synergy with rIFN-gamma

The biological response modifier OK-432 has been shown both to exert the enhancement of several immunological activities and to have a direct anti-tumor effect. The present study examines the immunopotentiating effect of OK-432 on peripheral blood monocytes (PBM) derived from normal humans. Monocyte activation was assessed by examining direct cell-mediated cytotoxic activity (CMC) and secretion of cytotoxic factors in the supernatant by the 51Cr release assay and secretion of tumor necrosis factor (TNF)-alpha detected by a sensitive radioimmunoassay. The OK-432-augmented activity was compared to that achieved by recombinant interferon-gamma (rIFN-gamma). Coculture of PBM with OK-432 overnight resulted in significant augmentation of CMC and secretion of cytotoxic factors and TNF in the supernatant. The effects observed were dose dependent and the resulting activity was much more pronounced than that achieved with an optimal concentration of IFN-gamma. The monocyte- and supernatant-mediated cytotoxic activities were in a large part attributed to TNF as both activities were inhibited by anti-TNF antibody. Several parameters of monocyte activation by OK-432 were examined. The kinetics of monocyte activation revealed that a short time exposure (2-6 hr) was sufficient for activation but maximal activation was detected after 18 hr. However, the kinetics of the cytotoxic assay were not shortened and 16-20 hr was necessary for optimal cytotoxic activity. Significant synergy was obtained when suboptimal concentrations of OK-432 and IFN-gamma were used. The synergy was noted in CMC, supernatant activity, and TNF concentration. These results demonstrate that OK-432 is a potent activator of monocyte cytotoxicity and also activates secretion of TNF. Also, OK-432 is a much more potent activator than rIFN-gamma. The synergy with OK-432 and IFN-gamma suggests that OK-432-mediated activation of monocytes takes place by a different mechanism than that mediated by rIFN-gamma. Thus, monocytes and products thereof may actively participate in the in vivo anti-tumor effect mediated by OK-432.     

Involvement of tumor necrosis factor in cytotoxicity mediated by human monocytes

Human monocytes cultured in a specially prepared medium free of lipopolysaccharide (LPS) constitutively produced a small, though significant, amount of tumor necrosis factor (TNF). Upon addition of LPS, the amount produced remained constant until the LPS concentration reached 1-10 ng/ml, whereupon the production of TNF dramatically increased, eventually becoming 100-fold greater than when the LPS concentration was below 1 ng/ml. Priming the monocytes with recombinant interferon-gamma (rIFN-gamma) before LPS exposure resulted in a 2- to 10-fold increase in TNF production, the highest relative increase being obtained at lower LPS concentrations and in the absence of LPS. Monocyte-produced TNF appears to be the effector molecule in monocyte-mediated killing of some target cell types, since antiserum against recombinant TNF inhibited killing of both actinomycin D-treated and untreated WEHI 164 cells by human monocytes. However, it also appears that TNF may not in all cases be an effector molecule in monocyte-mediated killing, since cytolysis of K562 cells mediated by IFN-gamma/LPS-activated monocytes was not inhibited by antiserum against recombinant TNF. Antiserum which was raised against a monocyte-derived cytotoxic factor and which neutralized recombinant TNF did, however, inhibit monocyte-mediated cytolysis of K562 cells, suggesting that an extracellular factor, perhaps related to TNF, was also involved in monocyte-mediated killing of K562 cells. A TNF-like activity was associated with the monocyte surface membrane, since paraformaldehyde-fixed monocytes expressed cytotoxic activity which was neutralized by antiserum against recombinant TNF. Fixed monocytes activated with rIFN-gamma in addition to LPS before fixation were generally more cytotoxic than those exposed to LPS alone, and those exposed to LPS were much more cytotoxic than those not exposed to LPS. Thus it is possible that high local TNF concentrations may be generated near the target cell upon direct contact between effector and target cells, and that also monocyte-associated TNF may in this way be involved in monocyte-mediated cytotoxicity.     

Tumor necrosis factor in human monocyte-mediated antitumor cytotoxicity

The WEHI-164 target cells pretreated with actinomycin D can be employed in a 7-hour 51Cr release assay that exhibits exquisite susceptibility for cytotoxic monocytes without contribution by natural killer cells. The system can be used either to detect cell-mediated monocyte cytotoxicity directly or to measure cytotoxic-factor activity in cell-free supernatants. Analysis of cytotoxic factor demonstrates molecular characteristics similar to tumor necrosis factor (TNF), and polyclonal as well as monoclonal antibodies specific for TNF can readily neutralize the monocyte-generated cytotoxic factor. In the cell-mediated approach, neutralization can be achieved as well, although somewhat higher amounts of antibody are required. Hence, the WEHT-164/actinomycin D system appears to detect monocyte cytotoxicity that is mediated by TNF.     

Induction of tumor necrosis factor expression by a lectin fromViscum album

Summary A purified lectin (MLI) fromViscum album was used to test whether peripheral monocytes from human blood can be activated for the production of tumour necrosis factor (TNF). Cytotoxic activity was detected in the supernatant of MLI-stimulated monocyte cultures. This cytotoxic activity was completely inhibited by monoclonal antibodies to TNF. Small amounts of soluble TNF protein were measured in a TNF-specific enzyme-linked immunospecific assay system. Strong expression of TNF mRNA was induced in human monocytes as well as in macrophage cultures from C3H/HeJ mice having a low response to endotoxin after 2 h of stimulation. Both chains of the MLI were found to induce TNF mRNA equally well in human monocytes. In macrophages of endotoxin-low-responder mice the toxic A chain was a better inducer of TNF mRNA than the galactose-specific lectin B chain. Thus, MLI has immunomodulating effects in activating monocytes/macrophages for inflammatory responses.     

Cytotoxicity of activated monocytes on endothelial cells

Unstimulated human monocytes did not express appreciable levels of cytotoxicity on normal human umbilical vein endothelial cells (EC) in a 24-48 hr TdR release assay. On activation with IFN-gamma and LPS, monocytes had appreciable cytotoxicity on EC. Monocyte cytotoxicity on EC was not dependent on the presence of contaminating lymphoid cells. Recombinant TNF, IL-1, and IL-6 as well as monocyte supernatants did not exert a cytotoxic effect on EC. Moreover, anti-TNF, anti-IL-1, and anti-IL-6 antibodies, as well as scavengers of reactive oxygen intermediates, did not affect the cytotoxicity of activated monocytes on EC. Antibodies against the beta-chain (CD18) of leukocyte integrins inhibited the adhesion and cytotoxicity of activated monocytes on EC. Pretreatment of EC with IL-1 augmented the adhesion of monocytes on EC. Normal monocytes were not cytotoxic on IL-1-pretreated EC and IL-1 treatment did not increase the susceptibility of EC to activated monocytes. Thus adhesion is necessary but not sufficient for monocyte killing of EC. Anti-alpha L (LFA-1) antibodies markedly reduced monocyte cytotoxicity on EC, although anti-alpha X (p150) antibodies had only a modest effect. Anti-alpha M (Mac-1/CR3) antibodies were intermediate inhibitors of EC killing by activated monocytes. Thus, alpha L, beta 2 (LFA-1), and, to a lesser extent, alpha M, beta 2 (Mac-1/CR3) and alpha X, beta 2 (p 150, 95) integrins are the main adhesive structures involved in the cytotoxic interaction of activated monocytes with EC. Monocyte-mediated damage of EC could play a role as a mechanism of tissue injury under conditions of local or systemic activation of mononuclear phagocytes.     

Endotoxic activity of lipopolysaccharides isolated from emergent potential cystic fibrosis pathogens

Improved antimicrobial therapies against the classical spectrum of pathogenic bacteria which colonise the lungs of cystic fibrosis (CF) patients has resulted in improved life expectancy and quality of life. Bacterial species that are resistant to a broad range of antibiotics including Stenotrophomonas maltophilia and Alcaligenes xylosoxidans have now emerged as potential new pathogens to fill the niche. At present, it is unclear from clinical data whether these microbes are commensal or pathogenic. In this study we have quantified the inflammatory potential of lipopolysaccharide (LPS) from eight species of Gram-negative organisms which have been cultured with increasing frequency from CF patients. Inflammatory responses induced by LPS from whole human blood and a human-derived monocyte cell line (THP-1) were assessed. Enzyme-linked immunosorbent assays were used to detect interleukin-6, interleukin-8, and tumour necrosis factor alpha (TNF). A bioassay was also used to assess TNF activity. With the exception of S. maltophilia, LPS extracted from all of the bacteria tested upregulated, by varying degrees, expression of each of the proinflammatory cytokines assayed. This study represents the first comprehensive report of the endotoxic potential of a new wave of microbes which are associated with CF.     

Membrane TNFα: Importance for the Effector Function of Dendritic Cells and Potential Ways of Its Targeted Modulation

Membrane TNFα (mTNFα) is expressed on many immune cell types and performs various biological functions. Dendritic cells (DC) of high-grade glioma patients exhibit impaired cytotoxic activity against TNFα-sensitive HEp-2 tumor cells. The mechanisms leading to the impairment of the TNFα- dependent tumoricidal activity of DC and the possibility of regulating the cytotoxic activity of DC mediated by the TNFα/TNF-R1 signaling pathway have been studied. The study was conducted on healthy donors and patients with newly diagnosed high-grade glioma. DC were generated by culturing the plastic-adherent peripheral blood mononuclear cell fraction in the presence of GM-CSF and interferon-α (IFN-DC). It was shown that the impairment of the cytotoxic activity of patient IFN-DC was associated with a low number of DC expressing mTNFα and a low level of TNFα mRNA expression in DC. IFN-DC of patients exhibited a tendency of high activity of the TNFα-converting enzyme (TACE), which accomplishes shedding of mTNFα from the cell membrane. An increased number of IFN-DC with mTNFα caused by TACE blocking enhanced cytotoxic activity of the patient’s IFN-DC against HEp-2 cells. It was established that exogenous interleukin-2 and extracellular DNA are up-regulators of the mTNFα expression on IFN-DC of the patients, but their effects are mediated by different mechanisms.     

Decreased monocyte-mediated cytostasis of human cancer cell in patients with lung cancer

Summary In vivo animal studies support the concept that monocytes and macrophages are important in the immune surveillance of oncogenesis and that in vitro activated murine macrophages are cytocidal for tumour cells. In this study, the tumour cell cytotoxic activity of human peripheral blood monocytes was examined by measuring the inhibition of ³H-thymidine uptake in the human cancer cell line, established in our laboratory from human squamous cell lung cancer. The monocytes from 8 of the 31 lung cancer patients (26%) showed a percentage growth inhibition of less than 69.8%, which exceeded the 95% confidence limits of the percentage growth inhibition observed with healthy control monocytes. On the other hand, among the 16 sarcoidosis and the 8 tuberculosis cases no value was below 69.8%. However, there was no significant difference between the growth inhibition and the clinical stages or histological type. When OK-432, a Streptococal agent, was administered in vivo to patients with lung cancer, an elevation of the growth inhibition was observed in 7 out of 8 patients. It was confirmed that the tumour cell cytostatic activity of the monocyte is suppressed in patients with lung cancer, and these monocyte deficits hinder the inhibition of tumour growth and metastasis.     

Spontaneous cytotoxicity and tumor necrosis factor production by peripheral blood monocytes from AIDS patients

Peripheral blood monocytes (PBM) from AIDS patients have exhibited defects in some but not all of the immune functions yet tested. This study has examined the capacity of AIDS PBM to lyse tumor target cells as well as their ability to secrete TNF. Untreated PBM from AIDS patients were significantly cytotoxic to U937 target cells and responded to IFN-gamma pretreatment with augmented cytotoxicity. Both the spontaneous and IFN-gamma-stimulated cytotoxic activity was significantly (p less than 0.01) higher than that observed with normal PBM. The cytotoxic activity depended on the E:T ratio used and was higher in AIDS PBM at all ratios tested (10:1 to 40:1). Because TNF has been implicated in macrophage cell-mediated cytotoxicity, we examined whether the elevated cytotoxic activity of AIDS PBM was associated with an increase in TNF production. Supernatants from PBM cultured overnight with or without IFN-gamma were tested in a bioassay measuring cytotoxicity against U937 target cells as well as in an RIA specific for TNF. Supernatants derived from either unstimulated or IFN-gamma-treated AIDS PBM exhibited significantly higher levels of cytotoxicity than supernatants from normal macrophages. Both normal and AIDS PBM produced higher levels of cytotoxic factors in response to IFN-gamma. As determined by the RIA, AIDS PBM spontaneously released high levels of TNF whereas little TNF was produced by normal PBM. Treatment with IFN-gamma augmented the level of TNF production in both AIDS and normal PBM. These results demonstrate that PBM from AIDS patients have undergone in vivo activation as manifested by both cytotoxicity against tumor target cells and production of TNF. Target cell lysis by both AIDS PBM and their supernatants was inhibited by monoclonal anti-rTNF, suggesting that the increase in PBM cell-mediated cytotoxicity was caused by an increase in TNF production. The significance of these findings in the pathogenesis of the disease is discussed.     

Destruction of tumor cells by monokines released from activated human blood monocytes: evidence for parallel and additive effects of IL-1 and TNF

Summary The incubation of human peripheral blood monocytes with endotoxins activates the cells to lyse tumorigenic targets directly and also induces the production and release into the culture medium of factors that produce lysis of mouse-transformed fibroblasts L-929 (tumor necrosis factor (TNF)-sensitive) and human A-375 melanoma cells (interleukin-1 (IL-1)- and TNF-sensitive). Immunoblotting analysis revealed that the culture medium of endotoxin-activated but not of control monocytes contained both IL-1 and TNF with a molecular weight of 17,000 daltons each. TNF activity was determined by lysis of L-929 cells, and IL-1 activity was measured by the proliferation of D-10 cells. The production of IL-1 and TNF was concentration-dependent, and the amounts of these monokines were paralleled. The antitumor activity of the culture supernates from endotoxin-treated monocytes was significantly decreased by incubation with heterologous antisera to IL-1, TNF, or both. Recombinant human IL-1 and TNF were used in parallel experiments and as positive controls. Each monokine used produced cytotoxic effects in susceptible targets. The combination of IL-1 and TNF, which more likely resembles culture supernates of activated macrophages, produced an additive antitumor cytotoxicity effect.     

Cytolysis of tumor necrosis factor (TNF)-resistant tumor targets. Differential cytotoxicity of monocytes activated by the interferons, IL-2, and TNF

Herein we demonstrate that IFN-alpha, IFN-gamma, and IL-2 can induce human peripheral blood monocyte-mediated lysis of tumor cells that are resistant to both the direct effects of TNF and to monocytes activated by TNF. Monocytes activated by TNF kill only TNF-sensitive tumor targets, whereas those activated by IFN and IL-2 can lyse both TNF-sensitive and TNF-resistant tumor targets. Monocyte cytotoxicity against TNF-sensitive lines induced by the IFN, IL-2, or TNF can be completely abrogated by the addition of anti-TNF antibodies. In contrast, anti-TNF antibodies have no effect on IFN- or IL-2-induced monocyte cytotoxicity against TNF resistant targets, confirming non-TNF-mediated lysis induced by lymphokine-activated monocytes. Neither induction of TNF receptors by IFN-gamma nor inhibition of RNA synthesis by actinomycin D increased the susceptibility of TNF-resistant tumor targets to TNF-mediated monocyte cytotoxicity. Thus, non-TNF-mediated modes of monocyte cytotoxicity are induced by IFN and IL-2, but not by TNF, indicating that different cytotoxic mechanisms are responsible for the lysis of TNF-sensitive and TNF-resistant tumor cells. In addition, these findings also suggest that TNF-sensitive lines are susceptible only to TNF-mediated killing and apparently insensitive to non-TNF-mediated monocyte cytotoxicity.     

Tumour-cell-induced production of tumour necrosis factor by monocytes of gastric cancer patients receiving BCG immunotherapy

Summary Human peripheral blood monocytes cocultured with tumour cells were used as an in vitro model of in situ interactions between tumour-infiltrating macrophages and the tumour. Tumour cells stimulated de novo expression of the human tumour necrosis factor (TNF) gene in monocytes and caused the release of TNF into the culture supernatant. A group of 14 patients with stage IVA gastric cancer receiving adjuvant chemotherapy (5-FU, Adriamycin, mitomycin C: FAM) or immunochemotherapy (BCG+FAM) was investigated for the ability of monocytes to produce TNF in vitro upon stimulation with tumour cells or purified protein derivative of tuberculin (PPD). Patients were followed at biweekly intervals, i.e. before each instillation of BCG epicutaneously over a period of 10 weeks. It was found that monocytes of some patients receiving BCG at the end of the observation period had an enhanced ability to produce TNF following stimulation with tumour cells. In contrast, such production was not substantially altered during the study period in patients on chemotherapy. PPD-induced TNF production was much weaker and was not significantly changed during this observation time. We infer that BCG immunotherapy may induce the subtle changes in some cancer patients that lead to an increased interaction between monocytes and tumour cells and result in enhanced production of cytokine(s) with antitumour properties.     

Interleukin-1 induced gene expression of neutrophil activating protein (interleukin-8) and monocyte chemotactic peptide in human synovial cells

We report here that human synovial cells stimulated by interleukin-1 alpha and interleukin-1 beta express mRNA for both IL-8 (neutrophil chemotactic peptide) and monocyte chemotactic protein. IL-1 stimulated synovial cells from both osteoarthritis and rheumatoid arthritis patients exhibited similar mRNA expression of interleukin-8 and monocyte chemotactic protein. A capacity to produce factors selectively chemotactic for neutrophils, lymphocytes and monocytes provides a mechanism whereby synovial cells can facilitate inflammatory arthritis.