Role of interleukin 1 in promoting human monocyte-mediated tumor cytotoxicity

Human peripheral blood monocytes from normal donors obtained by separation on a Percoll gradient showed considerable cytotoxicity against tumor cells when preincubated in vitro for 24 hr with human monocyte-derived interleukin 1 (IL 1). In contrast, monocytes after pretreatment in medium alone had low cytotoxic activity. All the IL 1 preparations, including IL 1 which was purified by high-performance liquid column chromatography (HPLC), as well as crude culture supernatant from human monocytes promoted monocyte-mediated cytotoxicity in the same dose-dependent manner as the thymocyte growth-promoting activity. There was no endotoxin or interferon (IFN) activity in the highly purified IL 1, suggesting that IL 1 itself was the active moiety. The effect of IL 1 on monocyte-mediated cytotoxicity was partially inhibited by indomethacin, whereas pretreatment of monocytes with prostaglandin (PG) E1 or E2 rather than IL 1 also resulted in substantial monocyte cytotoxicity. Thus, the effect of IL 1 on monocyte-mediated cytotoxicity is presumably mediated by PGE. Since fresh monocytes that were not preincubated exhibited levels of spontaneous cytotoxic activity similar to that of monocytes preincubated with IL 1, it seemed likely that the effect of IL 1 was to maintain the spontaneous level of activity rather than to induce cytotoxic activity. To elucidate this possibility, monocytes were first preincubated in medium alone for a longer period, and after losing their spontaneous activity they were further incubated with or without IL 1. Such "aged" monocytes did not develop cytotoxic activity in response to IL 1 but did in response to other agents known to induce macrophage cytotoxicity, such as endotoxin or lymphokine-containing supernatants. Therefore, the major effect of IL 1 actually seemed to prolong the cytotoxic state of monocytes. These results also suggest that IL 1 released by macrophages or monocytes may play a role in host defense against neoplastic cells by acting on monocytes as an autostimulating factor.     

Human interleukin 1 is a cytocidal factor for several tumor cell lines

Highly purified interleukin 1 (IL 1) obtained from stimulated human monocytes appeared to be growth inhibitory and cytocidal for a human melanoma cell line, A375. Although IL 1 did not have an immediate cytolytic effect, with time in culture the growth of the target cells was irreversibly inhibited. The cells eventually lysed and decreased markedly in number; the IL 1 effect can therefore be said to be cytocidal. IL 1 activity could not be separated from the cytocidal activity by a variety of chromatography procedures by using conventional and high-performance liquid chromatography (HPLC). The A375 melanoma cell line was also sensitive to another human cytokine alpha-lymphotoxin (alpha-LT) derived from a human B cell line. IL 1 also appeared to be partially growth inhibitory and cytocidal for a LT-sensitive mouse fibroblast cell line, L929; but not for LT-resistant cells, including a subline of L929; a human epithelial carcinoma cell line, HeLa; a human osteosarcoma cell line, HOS; and a mouse SV40-transformed kidney cell line, TU5. However, the LT-sensitive mouse fibroblast cell line, L-M, was resistant to IL 1. Therefore, the cytocidal activity of IL 1 only partially overlapped the target cell selectivity of alpha-LT. Although natural IFN-alpha and recombinant IFN-beta were appreciably growth inhibitory for the A375 cell line, natural and recombinant IFN-alpha and recombinant IFN-beta and IFN-gamma exhibited little cytocidal activity. Purified IL 1 did not have any antiviral activity, and conversely, IFN and alpha-LT were not co-mitogenic for thymocytes. Furthermore, by ELISA and radioimmunoassays, antibodies against human alpha-LT, tumor necrosis factor, and IFN-gamma did not react with IL 1, indicating that IL 1 is antigenically distinct from these other cytokines. These in vitro results suggest that IL 1 may play a role in host defense against some tumors as a cytocidal factor.     

Tumor necrosis factor and IL-1 associated with plasma membranes of activated human monocytes lyse monokine-sensitive but not monokine-resistant tumor cells whereas viable activated monocytes lyse both

The purpose of our study was to determine some of the mechanisms involved in macrophage-mediated lysis of tumorigenic cells. A375 human melanoma cells (A375-R) resistant to lysis mediated by TNF and IL-1 were selected from the TNF- and IL-1-sensitive A375 parental melanoma cells subsequent to continuous (2 mo) exposure to rTNF. Peripheral blood monocytes isolated by centrifugal elutriation from healthy donors were incubated with rIFN-gamma and muramyl dipeptide, with a lipoprotein derived from Escherichia coli (CG-31362) or with LPS for 24 h. These activated monocytes lysed both the A375 (monokine-sensitive) and A375-R (monokine-resistant) melanoma cells. Activated tumoricidal macrophages fixed in 2% paraformaldehyde lysed only the TNF- and IL-1-sensitive A375 cells. These fixed monocytes contained both IL-1 and TNF activities as determined by D10 cell proliferation and L929 cytolysis assays, respectively. Nearly identical results were obtained with preparations of plasma membranes from activated human monocytes. Anti-IL-1 and/or anti-TNF sera neutralized the cytolysis of tumor cells mediated by free monokines, by fixed monocytes, or by plasma membrane preparations. In contrast, anti-TNF and/or anti-IL-1 sera did not inhibit tumor cell lysis by viable activated monocytes. We conclude that IL-1 and TNF molecules associated with the plasma membranes of activated monocytes mediate lysis of susceptible target cells. However, because activated monocytes lysed IL-1-and TNF-resistant target cells, molecules other than these monokines must also be involved in the antitumor activity of monocytes.     

Monocyte- and natural killer cell-mediated spontaneous cytotoxicity against human noncultured solid tumor cells

Unstimulated human peripheral blood mononuclear cells from healthy donors exhibited spontaneous cytotoxicity against noncultured solid tumor targets in a 12- to 24-hr 51Cr release or 111In release assay. Both purified monocytes (greater than 99% monocytes) and natural killer (NK)-enriched lymphocytes exhibited comparable levels of spontaneous cytotoxicity against fresh melanoma tumor targets. This cytotoxicity was observed under endotoxin-free conditions. NK-depleted lymphocytes did not lyse the melanoma targets. Culture supernatants of monocytes incubated with the melanoma tumor cells did not exhibit cytotoxic activity against these targets. Purified monocytes lacked NK activity against the K562 targets in a 4-hr 51Cr release assay. Treatment of the monocytes with anti-Leu 1 1b and anti-Leu7 monoclonal antibodies plus complement did not reduce monocyte-mediated lysis of the melanoma targets, demonstrating that contaminating NK cells, if any, were not responsible for the lysis of noncultured melanoma targets by monocytes. In contrast, Leu 1 1b+ NK cells were responsible for the lysis of the melanoma targets by NK-enriched lymphocytes. The addition of recombinant interferon-gamma (rIFN-gamma), but not lipopolysaccharide, into the 51Cr release assay or pretreatment of monocytes with rIFN-gamma significantly increased their cytotoxicity against noncultured solid tumor cells. Monocytes cultured for 3 days with medium alone lost their cytotoxic activity. The addition of rIFN-gamma from the beginning of these cultures prevented the loss of the cytotoxic activity of monocytes. In summary, both unstimulated monocytes and NK-enriched lymphocytes exhibit comparable levels of spontaneous cytotoxicity against fresh solid tumor targets.     

Cytotoxic beta-dihydroagarofuran sesquiterpenoids from the fruits of Celastrus orbiculatus

Assay-guided fractionation led to the isolation of nine beta-dihydroagarofuran sesquiterpenoids from the fruits of Celastrus orbiculatus. All isolated beta-dihydroagarofuran sesquiterpenoids were tested for their cytotoxic activity against human melanoma A375-S2 and human cervical carcinoma Hela cell lines. Among them, compounds 1-5 and 7 showed cytotoxic activity. Compound 3 exhibited promising cytotoxicity against both human melanoma A375-S2 and human cervical carcinoma Hela cell lines. The structure-activity relationship was discussed briefly.     

Neutrophil chemotactic factor produced by lipopolysaccharide (LPS)-stimulated human blood mononuclear leukocytes: partial characterization and separation from interleukin 1 (IL 1)

LPS stimulated human blood mononuclear leukocytes to produce a chemotactic factor for human neutrophils. The effect of LPS was dose-dependent; 10 micrograms/ml was optimal for production of chemotactic factor. Chemotactic activity was detected 3 hr after LPS stimulation, and reached its peak at 12 hr. No activity was detected in culture supernatants of unstimulated cells, provided LPS-free media were selected. Isoelectric point of the factor, determined by chromatofocusing, was approximately 8 to 8.5. Molecular weight was approximately 10 kilodaltons by Sephacryl S-200 gel filtration or by HPLC gel filtration on TSK-2000 and -3000 columns in succession. The gel filtration fractions were also assayed for IL 1 activity. The elution position of IL 1 activity corresponded to a m.w. of 18. There was no chemotactic activity in the IL 1 activity peak. Furthermore, highly purified natural Il 1 alpha and -beta and recombinant Il 1 alpha and -beta did not exhibit chemotactic activity for neutrophils in our assay. Among mononuclear leukocytes, the monocyte was the principal producer of neutrophil chemotactic factor. These results suggest that a chemotactic factor for neutrophils, different from IL 1, is produced by LPS-stimulated blood monocytes.     

Tumor cytotoxicity and interleukin 1 production of blood monocytes of lung cancer patients

Summary The effects of lung cancer on the abilities of blood monocytes to produce interleukin-1 and to mediate antitumor activity were examined. The functional integrity of blood monocytes was determined by their capacity to respond in vitro to a variety of activating agents and become tumoricidal, as assessed by a radioactive release assay and ability to produce interleukin-1 in vitro. The results show that the presence of lung cancer significantly increased the number of harvested blood monocytes and that the spontaneous tumoricidal activity of these monocytes was slightly high as compared to monocytes obtained from healthy donors. The production of interleukin-1 by monocytes of healthy donors and lung cancer patients was similar. Blood monocytes obtained from lung cancer patients were less cytotoxic against allogeneic A375 melanoma cells as compared with those of healthy donors subsequent to incubation with a soluble muramyl dipeptide analog or lipopolysaccharide, but were as tumoricidal as those from healthy donors when activated with lipophilic muramyl tripeptide (MTP-PE) entrapped in multilamellar liposomes. The finding that monocytes of patients with lung cancer can respond to MTP-PE encapsulated in liposomes, recommends the use of these liposomes in therapy of human lung cancer.     

Tumor cytotoxicity of human monocyte membrane-bound interleukin-1α induced by synergistic actions of interferon-γ and synthetic acyltripeptide,FK-565

Summary Human blood monocytes were isolated by counter-flow centrifugal elutriation from healthy donors and these noncytotoxic monocytes were rendered tumoricidal to allogeneic melanoma (A375) cells by activation with a synthetic acyltripeptide (FK-565), as assessed by measuring release of [¹²⁵I]iododeoxyuridine in 72 h. When monocytes were treated with FK-565 for 16 h, and then fixed with paraformaldehyde, they showed cytotoxicity to A375 melanoma cells. The fixed-monocyte-mediated cytotoxicity to A375 cells was induced by the synergistic actions of FK-565 and recombinant interferon- (rIFN-), but not other cytokines [rIFN-A, rIFN-, tumor necrosis factor (TNF), interleukin (IL)-2, -3 and -6]. For synergistic activation of monocytes with induction of a membrane-associated antitumor monokine, the monocytes had to be incubated first with rIFN- and then with FK-565. FK-565 also acted synergistically with rIFN- to stimulate monocytes to produce membrane-associated IL-1 activity, which induced C3H/HeJ thymocyte blastogenesis in response to phytohemagglutinin P. The tumoricidal and thymocytestimulating activities of the fixed monocytes were almost completely inhibited by a specific anti-(IL-1) antiserum, but not by a specific anti-(IL-1) antiserum or monoclonal anti-TNF antibody. These results suggest that membrane-associated IL-1 of human blood monocytes can be induced by two activation signals (rIFN- then FK-565) at their suboptimal concentrations.Abbreviations IL interleukin - IFN interferon - TNF tumor necrosis factor     

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.     

Purification and biochemical characteristics of two distinct human interleukins 1 from the myelomonocytic THP-1 cell line

An effective induction protocol for the production of interleukin 1 (IL 1) by human myelomonocytic cell line (THP-1) cells was developed, and two biochemically distinct human IL 1 peptides were purified. Lipopolysaccharide, silica, and hydroxyurea by themselves did not induce IL 1 production, but these three stimulants in combination had a synergistic effect on the production of IL 1 by THP-1 cells. A 17-kilodalton (kDa) form of human IL 1 with a pI of 7.0 (IL 1-beta) was purified to homogeneity by sequential chromatography on DEAE-Sephacel, Sephacryl S-200, CM high-performance liquid chromatography (HPLC), and hydroxyapatite HPLC. The recovery of IL 1-beta activity was 45%, and the specific activity was 2.3 X 10(7) units/mg. Both IL 1-beta and a second 17-kDa IL 1 moiety with a pI of 5.0 (IL 1-alpha) were also extracted from stimulated THP-1 cells and purified to homogeneity by sequential chromatography on Sephacryl S-200, ion exchange HPLC, and hydroxyapatite HPLC. The recovery of IL 1-beta from cell extracts was 5.6%, and the specific activity was 3 X 10(7) units/mg. In contrast, only 0.85% of IL 1-alpha was recovered with a specific activity of 5.3 X 10(7) units/mg.(ABSTRACT TRUNCATED AT 250 WORDS)     

Generation of cytotoxic cells from murine bone marrow by human recombinant IL 2

Murine bone marrow (BM) cells were cultured in recombinant IL 2 (rIL 2) and interferon-alpha, -beta, and -gamma, and cytotoxic activity against YAC cells was determined in a 4-hr 51Cr-release assay. rIL 2 at 20 U/ml was the only lymphokine that consistently induced significant cytotoxic activity within 3 days of culture, peaking around 5 to 7 days. The cytotoxic cells generated are heterogeneous, consisting of at least two populations of cells: a) NK-1+, Qa-5+, AsGm-1+ Thy-1+/-, Lyt-2- cells, similar to natural killer (NK) cells, and b) NK-1-, Qa-5+, AsGm-1+ Thy-1+, Lyt-2+ cells, similar to cytotoxic T lymphocytes. The precursor/accessory cells of these BM cytolytic cells maintained in 20 U/ml of rIL 2 were Qa-2+, Qa-5+, Thy-1+/-, AsGM-1+/-, and NK-1+/- but Lyt-2-. They also lysed NK-resistant targets, P815 and BW5147, and the antigenic phenotypes of these cells were similar to those that lysed YAC cells. These studies indicate that IL 2 alone is adequate to generate cytotoxic activity from BM and that these cytotoxic cells were similar to splenic NK cells.     

Comparative analysis of the priming effect of human interferon-gamma, -alpha, and -beta on synergism with muramyl dipeptide analog for anti-tumor expression of human blood monocytes

Freshly isolated human peripheral blood monocytes from healthy volunteers were not cytotoxic to allogeneic A375 melanoma cells, but they were activated to the cytotoxic state by incubation in vitro with either des-methyl muramyl dipeptide (norMDP; minimal effective dose, 0.5 micrograms/ml) or recombinant human interferon-gamma (rIFN-gamma; minimal effective dose, 1 U/ml). A combination of subthreshold concentrations of these agents (norMDP, 0.5 micrograms/ml; rIFN-gamma, 10 U/ml) also induced significant cytotoxicity, indicating that the effects of norMDP and rIFN-gamma in monocyte activation are synergistic. Natural human IFN-gamma (nIFN-gamma) and norMDP also had similar synergistic effects. Pretreatment of rIFN-gamma with anti-IFN-gamma antibody completely inhibited its synergistic effect with norMDP in monocyte activation. Because pretreatment of rIFN-gamma and norMDP with polymyxin B did not interfere with their effects in monocyte activation, the preparations were not contaminated with lipopolysaccharide. Moreover, because pretreatment of monocyte monolayers with anti-Leu-11b antibody (anti-natural killer (NK) cell antibody) and complement did not interfere with the synergistic effects of norMDP and rIFN-gamma, whereas pretreatment with anti-Leu-M1 antibody (anti-monocyte antibody) caused complete inhibition of their effects, the observed tumor cytotoxicity of monocyte-rich monolayers was probably not due to a small number of adherent NK cells, but to the stimulation of the monocytes. Natural and recombinant IFN-alpha and IFN-beta at concentrations of greater than or equal to 100 U/ml also induced tumoricidal activity of monocytes, but unlike IFN-gamma, their effects were additive with norMDP, and they had less priming effect than IFN-gamma when they were added before norMDP to monocytes. These findings suggest that recombinant human IFN-gamma has much more synergistic potential with norMDP than IFN-alpha or IFN-beta, and this synergism of rIFN-gamma and norMDP for monocyte activation could be of clinical value in treatment of disseminated malignant diseases, because these compounds are readily available at standardized concentrations.     

Cytokine-induced enhancement of ICAM-1 expression results in increased vulnerability of tumor cells to monocyte-mediated lysis.

Pretreatment of the human melanoma cell line, A375, and the human colon carcinoma cell line, HT-29, with certain cytokines was found to increase the vulnerability of these cells to monocyte-mediated killing. This activity was found to correlate with increased expression of intercellular adhesion molecule-1 (ICAM-1) on the tumor cells and was blocked by anti-ICAM-1 antibodies. Both IFN-gamma and TNF induced large increases in the ICAM-1 expression on both cell lines and increased the susceptibility of the tumor cells to monocyte-mediated killing. IFN-alpha and IL-1 beta, however, induced only small increases in ICAM-1 expression and enhanced the lysis of the A375 cells but not the HT-29 cells by monocytes. These differences may be the result of a higher basal expression of ICAM-1 found on the A375 cells when compared with the HT-29 cells. These data indicate that regulation of ICAM-1 expression on tumor cells can alter the vulnerability of these cells to lysis by monocytes.     

Growth-promoting effect of recombinant interleukin 1 and tumor necrosis factor for a human astrocytoma cell line

IL 1 can exhibit dichotomous effects in the sense that it is cytotoxic for certain cells, although growth promoting for other cells. Because IL 1 is growth promoting for astrocytes, but cytotoxic for melanoma cells, the current investigation evaluated the effect of IL 1 upon astrocytomas. The human astrocytoma U373 was found to incorporate [3H]thymidine after exposure to recombinant human IL 1 alpha and IL 1 beta and murine IL 1 alpha. Surprisingly, U373 also incorporated [3H]thymidine after exposure to recombinant TNF. The response of the U373 to IL 1 may be used as a simple and sensitive assay for IL 1.     

Induction of mitochondrial manganese superoxide dismutase by interleukin 1

Interleukin 1 (IL 1) inhibits the growth of human melanoma A375 cells. To identify the subcellular events preceding inhibition of growth by IL 1, we have examined the effect of IL 1 on protein synthesis caused by A375 cells. IL 1 selectively and predominantly induced a 25-kDa polypeptide (p25) in A375 cells after 12 h. On subcellular fractionation, p25 was exclusively located in the 10,000 x g-pelleted (mitochondria-enriched) fraction. To identify the p25 moiety, it was purified to homogeneity by sequential chromatography on DEAE-Sephacel and reverse-phase, high-pressure liquid chromatography and its amino-terminal amino acid sequence was determined. The sequence of the 35 amino-terminal amino acids of the p25 moiety was identical to that of human manganese superoxide dismutase (Mn SOD). The enzymatic activities of SOD were induced only in the mitochondria-enriched fraction of IL 1-treated A375 cells. However, IL 1 also induced Mn SOD in normal human skin fibroblasts and peripheral blood mononuclear cells, whose growth was stimulated by IL 1. The results show that induction of Mn SOD by IL 1 is a common biochemical event in IL 1-responsive cells.     

Analysis of effector cells in human antibody-dependent cellular cytotoxicity with murine monoclonal antibodies

We examined purified human large granular lymphocytes, peripheral monocytes, and T cells for their ability to mediate antibody-dependent cellular cytotoxicity (ADCC) with murine monoclonal antibodies. We also evaluated the effects of pretreatment of cells with interleukin 2 and interferon to augment ADCC activity. MB3.6, a murine monoclonal antibody directed against the GD3 ganglioside, induced high levels of ADCC. This ADCC was mediated predominantly, if not completely, by human killer cells (large granular lymphocytes) whereas other effector cell populations demonstrated no significant cytotoxic activity in 6- or 18-hr assays. The IgG2a an anti-melanoma antibody 9.2.27 generated low or no ADCC with most normal donors or melanoma patients. IL 2 was a very potent booster of ADCC activity. Interferon alpha also was effective, whereas interferon gamma did not augment but rather inhibited reactivity. We tested a large panel of antibodies of various isotype against colon carcinoma cells and found that gamma-3 isotype antibodies more frequently generated ADCC and produced higher levels of cytotoxic activity than did IgG1 or IgG2 antibodies. It appears that a variety of parameters can affect ADCC reactions, including the type of effector cell and its level of activation, the isotype of the antibody, and properties of the target cell line such as its susceptibility to lysis.     

Hepcidin expression by human monocytes in response to adhesion and pro-inflammatory cytokines

Background

A previous urine proteomic analysis from our laboratory suggested that hepcidin may be a biomarker for lupus nephritis flare. Immunohistochemical staining of kidney biopsies from lupus patients showed that hepcidin was expressed by infiltrating renal leukocytes. Here we investigated whether inflammatory cytokines relevant to the pathogenesis of lupus nephritis and other glomerular diseases regulate hepcidin expression by human monocytes.

Methods

Human CD14+ monocytes were incubated with interferon alpha (IFNα), interferon gamma (IFNγ), interleukin-6 (IL6), interleukin-1 beta (IL1β), monocyte chemotactic factor-1 (MCP1), or tumor necrosis factor alpha (TNFα). Hepcidin expression was examined by real-time PCR and enzyme immunoassay.

Results

Monocyte hepcidin mRNA increased during adherence to the tissue culture wells, reaching a level 150-fold higher than baseline within 12 h of plating. After accounting for the effects of adhesion, monocytes showed time and dose-dependent up-regulation of hepcidin mRNA upon treatment with IFNα or IL6. One hour of incubation with IFNα or IL6 increased hepcidin mRNA 20 and 80-fold, respectively; by 24 h the mRNA remained 5- and 2.4-fold higher than baseline. IL1β, IFNγ, and MCP-1 did not affect monocyte hepcidin expression. TNFα inhibited hepcidin induction by IL6 in monocytes by 44%. After 24 h of treatment with IFNα or IL6, immunoreactive hepcidin production by monocytes increased 3- and 2.6-fold, respectively.

Conclusion

Human monocytes produce hepcidin in response to adhesion and the pro-inflammatory cytokines IFNα and IL6.

General significance

The appearance of hepcidin in the kidneys or urine during glomerular diseases may be from infiltrating monocytes induced to express hepcidin by adherence and exposure to pro-inflammatory cytokines found in the renal milieu.     

Properties of a specific interleukin 1 (IL 1) receptor on human Epstein Barr virus-transformed B lymphocytes: identity of the receptor for IL 1-alpha and IL 1-beta

The properties of specific human interleukin 1 (IL 1) receptors on human Epstein Barr virus-transformed B lymphocytes (EBV-B) were studied. Purified human IL 1-beta from a myelomonocytic cell line (THP-1) was labeled with 125I by the Bolton-Hunter method without detectable loss of biological activity. Among four EBV-B cell lines tested, a pre-B cell type (VDS-O) specifically bound the highest amount of 125I-IL 1-beta. Maximal binding was reached within 20 min at 4 degrees C. Scatchard plot analysis of the binding of 125I-IL 1-beta to VDS-O cells yielded a Kd (dissociation constant) of 2.4 to 5.9 X 10(-10) M with 110 to 220 binding (receptor) sites/cell. The binding of 125I-IL 1-beta to VDS-O cells was also inhibited by F(ab)'2 fragments of anti-human IL 1 and recombinant human IL 1-alpha, as well as by unlabeled human IL 1-beta but not by recombinant lymphotoxin, recombinant tumor necrosis factor, or phorbol myristic acid, suggesting that IL 1-alpha and IL 1-beta bind specifically to the same receptor. The m.w. of IL 1 receptor on human EBV-B cells was estimated to be 60,000 by both the chemical cross-linking method and high pressure liquid chromatography (HPLC) gel filtration analysis of receptor extracted from membrane enriched fraction by a non-ionic detergent (CHAPS). The isoelectric point of solubilized human IL 1 receptor was 7.3 on HPLC chromatofocusing. The evidence of existence of IL 1 receptor on human EBV-B cells additionally supports the hypothesis that IL 1 may be an autocrine signal for these cells.