Functional subsets of human monocytes defined by monoclonal antibodies: a distinct subset of monocytes contains the cells capable of inducing the autologous mixed lymphocyte culture

The induction of most immune responses requires the close cooperation between T cells and antigen-presenting cells (APC), presumably of monocyte/macrophage (M phi) lineage. To characterize human APC further, we used two monoclonal antibodies, OKM1 and OKM5, to isolate and identify M phi subsets. OKM1 has been described and recognizes cell surface antigens on most M phi and granulocytes. OKM5 recognizes cell surface determinants present on the majority of human M phi but does not recognize other hematopoietic cell types. A small subset of peripheral blood M phi is OKM1-OKM5+. Human peripheral blood E- cells were separated into OKM1+ and OKM1- subsets by a rosetting technique utilizing anti-Ig-coated red cells. The capacity to present self antigens in the autologous mixed lymphocyte culture (AMLC) resided predominantly within the E-OKM1- subset, even if surface membrane Ig-positive cells were eliminated. Similar experiments showed that the ability to stimulate in AMLC was contained in the E-OKM5+ population and in fact resided primarily within the E-OKM1-OKM5+ subset. All of these subsets were able to trigger allogeneic T cells to proliferate. The capacity of these APC subsets to present soluble antigens (mumps, tetanus toxoid) was also examined. The data demonstrated that although the majority of these APC are E-OKM1+, E-OKM1-OKM5+ cells can also present foreign antigen. Taken together, these data suggest OKM1 and OKM5 can be used to isolate two functionally distinct human M phi subsets. One subset (E-OKM1+) is capable of presenting soluble antigens but shows minimal ability to trigger AMLC. The other subset (E-OKM1-OKM5+) can also present soluble antigens but is the predominant subset that can trigger AMLC.     

Monoclonal antibodies to human tumor necrosis factor alpha: in vitro and in vivo application.

Three stable murine hybridoma cell lines, which secrete monoclonal antibodies (mAb) to human tumor necrosis factor alpha (TNF alpha), were established. None of the monoclonal antibodies cross-reacted with lymphotoxin, interleukin 2 (IL 2) or Interferon gamma (IFN gamma). The highly species-specific monoclonal antibody, designated as mAb 195, neutralizes the cytotoxic activity of human and chimpanzee TNF alpha. This antibody was further used during in vivo studies to neutralize human TNF alpha in a murine animal model. The mAb 114 is a weakly neutralizing antibody that binds to a different epitope of TNF alpha than mAb 195. mAb 114 shows a wide range of cross-reactivity with TNF alpha of the following species: dog, pig, cynomolgus, rhesus, baboon and chimpanzee. The mAb 199 binds to human TNF alpha, but does not neutralize the cytotoxic activity. The epitope recognized by this mAb is in close proximity to mAb 114. A reproducible, sensitive immunoassay for human TNF7 alpha has been developed using the antibodies mAb 199 and mAb 195. The test is performed within 6 hr and detects TNF7 alpha in serum samples, with a limit of detection of 5 to 10 pg/mL.     

A human macrophage hybridoma producing a cytotoxic factor distinct from TNF,LT, and IL-1

Summary A stable human macrophage hybridoma was established by somatic cell fusion between human peripheral blood monocyte-derived macrophages and an 8-azaguanine resistant clone of a human histiocytic lymphoma cell line U-937 (clone U-937-F9). The hybrid cell line (F9P) exhibited typical macrophage-like morphology and had 30 more chromosomes than U-937-F9 cells. Its macrophage characteristics were confirmed by the manifestation of intracellular nonspecific esterase, the detection of Mo-2 and LEU-M3 antigens on the cell surface, and the demonstration of phagocytic activity. Furthermore, when stimulated with lipopolysaccharide (LPS), this cell line could secrete a considerable amount of a cytotoxic factor (CTF). Distinct from the hybrid cell line, the parental U-937-F9 cells expressed neither Mo-2 nor LEU-M3 antigens on the cell surface, did not show phagocytic activity, and their culture supernatants did not show cytotoxic activity even after LPS stimulation. The activity of CTF in the culture supernatant of the LPS-stimulated hybrid cells could not be neutralized with anti-tumor necrosis factor, anti-interleukin-1, or anti-lymphotoxin antibodies. The CTF had a relative molecular mass of 45–60×10³ daltons as determined by gel filtration on a column of Superose 12, and an isoelectric point of 5.1. The cytotoxic activity was also induced when the hybrid cells were stimulated with the concentrated supernatants of a human T-cell hybridoma containing macrophage activating factor for cytotoxicity or with LP3 tumor cells which were used as target cells.     

Characterization of human large granular lymphocyte subpopulations: comparison of the phenotype of NK cells and of interleukin 2-dependent progenitors of cytolytic effector cells

Antigenically different subpopulations of human large granular lymphocytes (LGL) were identified according to their reactivity with monoclonal antibodies (MoAb). Antigen-positive and -negative subsets were isolated by immunoaffinity columns using a Sepharose 4B gel coupled with F(a')2 goat anti-mouse IgG or by flow cytometry cell sorting. The distinct LGL subsets were tested for natural killer (NK) activity against a panel of tumor targets: K562, Daudi, Alab; and for antibody-dependent cellular cytotoxicity (ADCC) against antibody-coated RL male 1 cells. LGL positively selected for any of the following phenotypic markers: B73.1+, OKM1+, OKT11+, and OKT10+ were highly cytotoxic, while B73.1- and OKM1- cells were completely devoid of NK activity. The OKT10- and OKT11- LGL subsets were occasionally cytotoxic, with low levels of reactivity. LGL subpopulations were also tested in a limiting dilution assay (LDA) for their capacity to proliferate in medium supplemented with interleukin 2 (IL-2) and to develop NK-like cytotoxic activity. The majority of proliferative progenitors have the following phenotype: OKT11+, OKM1-, B73.1-, and OKT10-, while the majority of progenitors for cytotoxic cells were OKT11+, OKM1+/-, OKT10+, and B73.1-. Results indicate that although B73.1+ cells can grow, the mature B73.1+ NK cells seem to be primarily derived in vitro from a small subset of less differentiated B73.1 pre-NK progenitors in the peripheral blood lymphocytes.     

Effect of interleukin 2, interferon-gamma, and mitogens on the production of tumor necrosis factors alpha and beta

Human peripheral blood mononuclear cells (PBMC) were induced by recombinant interleukin 2 and mitogens to secrete two distinct cytotoxic polypeptides, tumor necrosis factor-alpha (TNF-alpha) and tumor necrosis factor-beta (TNF-beta), previously called lymphotoxin. Treatment of PBMC with recombinant human interleukin 2 (rIL 2) or mitogens in combination with recombinant human interferon-gamma (rIFN-gamma) resulted in augmented production of both TNF-alpha and TNF-beta. rIFN-gamma alone had no effect on production of either cytotoxic polypeptide. TNF-alpha was produced within 2 to 3 hr after induction and was the major cytotoxin produced by PBMC during the first 48 hr of culture, after which time TNF-beta became the predominant species. TNF-beta was first secreted into the media after 8 hr of induction. Enhanced levels of both TNF-alpha and TNF-beta were seen when the PBMC were separated into adherent and nonadherent cells. Both TNF-alpha and TNF-beta were induced in different tumor cell lines of hematopoietic origin. The results demonstrate that the production of TNF-alpha and TNF-beta can be enhanced by two lymphokines, IL 2 and IFN-gamma.     

Mouse macrophage hybridomas secreting a cytotoxic factor and interleukin 1

Stable mouse macrophage hybridomas were produced by somatic cell fusion between proteose peptone-elicited peritoneal macrophages and NS-1 myeloma cells. Three cloned hybrid cell lines, designated as N/P-5-3, -6-2, and -7-1, exhibited typical macrophage-like morphology. Moreover, their macrophage characteristics were confirmed by the manifestation of intracellular nonspecific esterase, the detection of Mac-1 antigens and Fc-receptors on the cell surface, and the demonstration of phagocytic and antigen-presenting activities. Furthermore, these cell lines, stimulated with LPS, secreted considerable amounts of a cytotoxic factor and interleukin 1. Cultured cells of various tumor cell lines were sensitive to the cytotoxic factor, but normal thymocytes, spleen cells, and liver cells were not killed by the factor.     

Natural killing and antibody-dependent cellular cytotoxicity: characterization of effector cells by E-rosetting and monoclonal antibodies

Recent investigations have indicated that the OKM1 hybridoma monoclonal antibody reactive with cells of the myelomonocytic series identifies a subpopulation of human peripheral blood mononuclear cells (PBMNC) which mediate natural and antibody-dependent cellular cytotoxicity (ADCC). However, it was not clear whether this OKM1+ group was heterogeneous with regard to cytotoxic function or the presence of receptors for sheep erythrocytes. Thus, the purpose of the present study was to further define the phenotype of the ADCC effector cell and natural killer (NK) cell using a combination of reactivity with hybridoma antibodies and separation of subsets by sheep erythrocyte rosette (E+) formation. Furthermore, the phenotypes of the NK population were assessed directly by performing two-color immunofluorescent staining on tumor cell conjugates. These studies led to the following conclusions: (1) that NK activity is mediated by both E+ OKM1+ and E- OKM1+ cells; the E+ OKT3+ cell possessed essentially no ADCC or NK activity; (2) that E+ OKM1+ cells mediated more NK activity on a per cell basis than E- OKM1+ cells; this was verified by separating OKM1+ cells on a cell sorter into E+ and E- with the OKT11 monoclonal antibody (anti-E-receptor antibody); (3) that E+ OKM1+ cells mediated both ADCC and NK activity; (4) that the phenotypes of PBMNC forming tumor cell conjugates were (a) OKM1+ (both E-receptor positive and negative) and (b) OKM1- E-receptor positive.     

Characteristics of human NK clones: target specificity and phenotype

Clones derived from purified human large granular lymphocytes (LGL) of three different donors were expanded in culture medium supplemented with interleukin 2 (IL 2). Their cytotoxic activity was tested in a 51Cr-release cytotoxicity assay against a panel of three to five NK-susceptible tumor cell lines. Of 196 LGL clones tested, only 44 (22.4%) displayed significant cytotoxic activity. A heterogeneous pattern of reactivity was seen; 26 clones (59%) killed all the targets within the panel tested, whereas 18 clones (41%) had a more restricted specificity. Among these 18 clones, 12 lysed only one target (K562, six clones; ADCC, three clones; Daudi, two clones; MOLT-4, one clone), whereas the other six killed two different targets (ADCC and A1ab, one clone; K562 and MOLT-4, five clones). Clones derived from LGL preselected for positive reactivity with the monoclonal antibodies (MoAb) alpha OKM1, alpha OKT10 and alpha B73.1 also demonstrated either broad or restricted patterns of cytotoxicity. The LGL reactive with MoAb alpha B73.1 gave a high percentage of cytotoxic clones. Phenotype analysis showed that clones could express both antigens associated with T cells (i.e., OKT3, OKT4, and OKT8) and antigens shared by LGL (i.e., OKM1, OKT10, and B73.1). The pattern of surface markers varied considerably among the clones; however, no clear correlation between the pattern of antigenic phenotype and cytotoxic activity was seen. These data show that clones derives from purified preparations of LGL present different functional and antigenic characteristics, and support the hypothesis that the heterogeneity of the entire NK population is attributable, at least in part, to a mixture of clones that vary substantially in their target specificities and phenotypes.     

Subsets of human large granular lymphocytes (LGL) exhibit accessory cell functions

The present study shows that human large granular lymphocytes (LGL) depleted of OKT3 (T lymphocytes) and Leu-M1-positive (monocytes) cells exhibit accessory cell function for the T lymphoproliferative responses to the soluble stimulants Staphylococcus protein A (SpA) or Streptolysin O (SLO), as well as to surface antigens in the autologous and allogeneic mixed leukocyte reaction (MLR). Fractionation of LGL into subsets according to their reactivity with alpha OKT11, alpha DR, and alpha OKM1 MoAb led to the identification of the subset(s) of LGL with OKT11+, DR+, OKM1+ phenotype as the antigen-presenting cell (APC), whereas the DR-, OKM1- subset(s) of LGL was completely ineffective. Furthermore, virtually all the natural killer (NK) activity of LGL was associated with OKT11+ and OKM1+, DR+ LGL that exerted the observed APC function, suggesting that NK-active cells may also act as effective APC for T lymphocyte activation. These results indicate that human LGL with NK activity may exert other noncytotoxic functions and may play a major role in immunoregulation.     

Constitutive expression and role of the TNF family ligands in apoptotic killing of tumor cells by human NK cells.

Natural killer cells mediate spontaneously secretory/necrotic killing against rare leukemia cell lines and a nonsecretory/apoptotic killing against a large variety of tumor cell lines. The molecules involved in nonsecretory/apoptotic killing are largely undefined. In the present study, freshly isolated, nonactivated, human NK cells were shown to express TNF, lymphotoxin (LT)-alpha, LT-beta, Fas ligand (L), CD27L, CD30L, OX40L, 4-1BBL, and TNF-related apoptosis-inducing ligand (TRAIL), but not CD40L or nerve growth factor. Complementary receptors were demonstrated to be expressed on the cell surface of solid tumor cell lines susceptible to apoptotic killing mediated by NK cells. Individually applied, antagonists of TNF, LT-alpha1beta2, or FasL fully inhibited NK cell-mediated apoptotic killing of tumor cells. On the other hand, recombinant TNF, LT-alpha1beta2, or FasL applied individually or as pairs were not cytotoxic. In contrast, a mixture of the three ligands mediated significant apoptosis in tumor cells. These findings demonstrate that human NK cells constitutively express several of the TNF family ligands and induce apoptosis in tumor cells by simultaneous engagement of at least three of these cytotoxic molecules.     

Interleukin 2-dependent natural killer (NK) cell lines from patients with primary T cell immunodeficiencies

Bulk cultured cell lines with natural killer (NK) activity were derived by in vitro culture with interleukin 2-containing conditioned medium (IL 2-CM) of peripheral blood mononuclear leukocytes (PBL) from patients with primary T cell deficiencies. Lines were developed from three patients with severe combined immunodeficiency (SCID) and one patient with Nezelof's syndrome and contained several populations of cells with distinct phenotypes. All lines contained a cell population expressing the Leu-5 (50K) (sheep red blood cell receptor), 3A1 (40K), and OKT10 antigens, but lacking the pan T cell antigens Leu-1 (67K) and Leu-4 (19K) as well as the markers of T cell subsets Leu-2a (32K) and Leu-3a (56K). These cells failed to express the Leu-7 antigen and only weakly expressed OKM1. In addition, one line contained a population of Leu-5+, 3A1+, OKT10+, Leu-2a+, Leu 1-, and Leu 4- cells. Three of the lines also contained populations with classic T cell (Leu-1 and-Leu 4+) phenotypes. The lines were enriched in NK activity compared with the PBL from which they were derived. Their growth was strictly dependent on IL 2-CM. Highly purified IL 2, lacking any other detectable protein contaminants or lymphokine activities, was capable of supporting the growth of the Leu-5+, 3A1+ "null" cell populations from these lines without alteration in their functional activity or phenotype. Thus, studies of in vitro expanded cell lines from patients with severe disorders of T cell function and thymic involution indicate that this "null" cell population does not require thymic maturation to develop its effector function. This "null" cell population can be maintained in vitro in the presence of IL 2. This finding is analogous to the data obtained from study of NK cells in athymic (nude) mice.     

Cytotoxic effector function of B lymphoblasts

EBV-transformed B lymphoblastoid cell lines and clones were cytotoxic in vitro against Actinomycin D-pretreated WEHI 164 sarcoma cells, a system in which mononuclear phagocytes were previously identified as effectors. Similarly, unlike resting B cells, normal B lymphoblasts stimulated for 72 hr with Staphylococcus aureus Cowan I and purified according to the expression of the B cell surface marker B1, demonstrated appreciable cytolytic activity. B lymphoblastoid cells and derived supernatants were cytotoxic for Actinomycin D-pretreated WEHI 164 cells, and killing was inhibited by an anti-lymphotoxin but not an anti-tumor necrosis factor antiserum. Thus, B lymphoblasts have cytotoxic potential, mediated by lymphotoxin or a lymphotoxin-like soluble product.     

Production of B cell growth factor by a Leu-7+, OKM1+ non-T cell with the features of large granular lymphocytes (LGL)

The present study reports the characterization of a non-T cell from human peripheral blood which is capable of releasing BCGF. This BCGF-producing non-T cell had a T3-, T8-, Leu-7+, OKM1+, HLA-DR-, Leu-11- surface phenotype and was likely to belong to the so-called large granular lymphocyte (LGL) subset because: after fractionation of non-T cells according to the expression of Leu-7 or HLA-DR markers, it was found in the Leu-7+, HLA-DR- fractions that were particularly enriched in LGL; it co-purified with LGL on Percoll density gradients; and it expressed Leu-7 and OKM1 markers that are shared by a large fraction of LGL. Although co-purified with cells with potent NK capacities, the BCGF-producing cell was not cytotoxic, because treatment of Leu-7+ cells with Leu-11 monoclonal antibody and complement abolished the NK activity but left the BCGF activity unaltered. The factor released by this LGL subset was not IL 1 or IL 2 mistakenly interpreted as BCGF, because: a) cell supernatants particularly rich in BCGF activity contained very little or no IL 1 or IL 2; b) BCGF-induced B cell proliferation was not inhibitable by anti-Tac antibodies (this in spite of the expression of IL 2 receptor by a proportion of activated B cells); and c) BCGF activity was absorbed by B but not T blasts.     

Patterns of antigenic expression on human monocytes as defined by monoclonal antibodies

A series of seven monoclonal antibodies directed at determinants on human peripheral blood monocytes were produced and characterized. The antibodies were separated into three groups based on cell distribution and percentages of monocytes bearing antigen. Hybridoma antibodies, termed OKM1, OKM9, and OKM10, recognized antigen(s) expressed on the majority of adherent monocytes, null cells, and granulocytes. The second group, comprising OKM5 and OKM8, reacted with most adherent monocytes and platelets. OKM3 and OKM6, comprising a third group of antibodies, reacted with a subpopulation of adherent monocytes and platelets. OKM antibodies were not expressed on lymphocytes, thymocytes, and lymphoblastoid cells, with the exception of OKM3 which reacted with three B-cell lines. SDS gels of immunoprecipitates formed with OKM antibodies yielded the following tentative molecular weight results: OKM1 and OKM9 antigens appeared to be 160,000 (nonreduced) and 170,000 (reduced); OKM10 precipitated two polypeptides of 170,000 and 115,000 (reduced); OKM5 and OKM8 precipitated a single polypeptide of 88,000 (reduced, nonreduced); OKM6 antigen appeared to be 116,000 (nonreduced) and 130,000 (reduced).     

Characterization of the natural killer-like lymphocytes in rheumatoid synovial fluid

IgG Fc- cytotoxic cells found in the synovial fluid of patients with rheumatoid arthritis have natural killer (NK)-like characteristics but can kill NK-resistant cell lines as well. The phenotype of these cells was defined by complement-mediated lysis with monoclonal antibodies. The synovial fluid killer cell activity was significantly reduced by treatment with complement and OKT11 and 4F2, but the cytotoxic T cells did not express the NK-related antigens OKM1 and Leu-7, nor the cytotoxic T lymphocyte-specific antigen, OKT8. These results demonstrate that the synovial fluid killer cells resemble the activated T cells generated in an autologous mixed leukocyte reaction or in the treatment of peripheral blood mononuclear cells with interleukin 2, and they are distinct from the conventional NK cells found in blood.     

Characteristics of BALB/C T cell lymphomas grown as continuous in vitro lines.

Transplanted lymphomas (Thy 1.2+, Ig-) of BALB/c mice, induced by the injection of 1-ethyl-1-nitrosourea, were adapted for growth as in vitro lines to provide potential tools for investigation of T lymphocyte differentiation and functions. All these tissue culture lines maintained the same pattern of surface differentiation antigens (Ly, TL, and Thy-1 antigens) as they had expressed during in vivo passages: BALENTL 13 was Thy 1.2+, TL.2-, and Ly 1+2-. BALENTL 3, 4, 5, 6, 7, 8, and 14 were Thy 1.2+, TL.2+, and Ly 1-2+. P1798 and BALENTL 9 were Thy 1.2+, TL.2+, and Ly 1-2+. There were various levels of terminal transferase activity present among these T cell tumor lines. The range of variation was from 4.6 units/10(8) cells to 29.3 units/10(8) cells (normal thymocytes, 5.0 units/10(8) cells). This 6-fold variation in TdT activity was present even among those cell lines which were Ly 1-2+, TL+. Most cultures lines had chromosome numbers near 40 and generation times of 11 to 22 hr. There were no significant morphologic changes after the adaptation of these tumors in culture except an increase in cytoplasmic C-type virus particles.     

The relationship of CD16 (Leu-11) and Leu-19 (NKH-1) antigen expression on human peripheral blood NK cells and cytotoxic T lymphocytes

We examined the antigenic and functional characteristics of human peripheral blood lymphocytes that differentially express the CD16 (Leu-11) and Leu-19 (NKH-1) antigens. Leu-19 is a approximately 220,000 daltons protein expressed on approximately 15% of freshly isolated peripheral blood lymphocytes. Within the Leu-19+ subset, three distinct populations were identified: CD3-,CD16+,Leu-19+ cells; CD3+,CD16-,Leu-19+ cells; and CD3-,CD16-,Leu-19bright+ cells. Both the CD3+,CD16-,Leu-19+ and CD3-,CD16+,Leu-19+ populations mediated non-major histocompatibility complex (MHC)-restricted cytotoxicity against the NK-sensitive tumor cell K562 and were large granular lymphocytes. CD3-,CD16+,Leu-19+ NK cells were the most abundant (comprising approximately 10% of peripheral blood lymphocytes) and the most efficient cytotoxic effectors. The finding that CD3+,Leu 19+ lymphocytes mediated cytotoxicity against K562 unequivocally demonstrates that a unique subset of non-MHC-restricted cytotoxic CD3+ T lymphocytes are present in the peripheral blood of unprimed, normal individuals. However, CD3+,CD16-,Leu-19+ cells comprised less than 5% of peripheral blood lymphocytes, and the cytotoxic activity of this subset was significantly less than CD3-,CD16+,Leu-19+ NK cells. Most CD3+,Leu-19+ T cells co-expressed the CD2, CD8, and CD5 differentiation antigens. The antigenic and functional phenotype of peripheral blood CD3+,Leu-19+ cytotoxic T lymphocytes corresponds to the interleukin 2-dependent CD3+ cell lines that mediate non-MHC-restricted cytotoxicity against NK-sensitive tumor cell targets. A small population of Leu-19bright+ lymphocytes lacking both CD3 and CD16 was also observed. This population (comprising less than 2% of peripheral blood lymphocytes) contained both large agranular lymphocytes and large granular lymphocytes. CD3-,CD16-,Leu-19bright+ lymphocytes also mediate non-MHC-restricted cytotoxicity. The relationship of these CD3-CD16-,Leu-19bright+ lymphocytes to CD3+ T cells or CD16+ NK cells is unknown.     

Characterization of the antitumor activities of human tumor necrosis factor-alpha and the comparison with other cytokines: induction of tumor-specific immunity

We have investigated the in vitro and in vivo antitumor activities of recombinant human tumor necrosis factor-alpha (rHuTNF-alpha) against Meth A sarcoma. Meth A sarcoma cells were found to a) be relatively insensitive in vitro to rHuTNF-alpha, and b) express low numbers of TNF-alpha receptors. Intraperitoneally implanted Meth A sarcoma was insensitive to the antitumor effects of rHuTNF-alpha. In contrast, rHuTNF-alpha was highly efficacious against subcutaneously implanted Meth A sarcoma. Biodistribution studies with 125I- or 3H-labeled rHuTNF-alpha demonstrated that, after intravenous administration, the majority of the labeled rHuTNF-alpha localized in the kidney, lungs, and liver. Only low levels of radiolabel were found in subcutaneous Meth A implants. These results support the in vitro data on the low number of TNF-alpha receptors on Meth A sarcoma cells. The ability of rHuTNF-alpha to induce regression of established (7 days) subcutaneous Meth A implants, positively correlated with the degree of both macroscopic and microscopic tumor necrosis. In addition, recombinant human tumor necrosis factor-beta (lymphotoxin) and recombinant murine tumor necrosis factor-alpha induced similar levels of necrosis. Other lymphokines with known antitumor activities, recombinant human interferon-gamma, murine interferon-gamma, and human interleukin 1 alpha, failed to induce detectable necrosis of Meth A sarcoma. Mice which had rejected subcutaneous Meth A sarcoma implants after rHuTNF-alpha treatment and which were later challenged subcutaneously with Meth A sarcoma or other noncross-reacting chemically induced sarcomas were found to be specifically immune to Meth A sarcoma. In addition, low levels of cytotoxic antibodies reactive to Meth A sarcoma were detected in the sera of 21 of 30 Meth A immune mice. Histological evaluation of the hemorrhagic tumor necrosis induced by rHuTNF-alpha suggests that the primary lesion is vascular, possibly directly on the endothelial cells. The mechanisms involved in the generation of specific cell-mediated antitumor immunity in this model are at present unknown.     

Natural killer-sensitive targets stimulate production of TNF-alpha but not TNF-beta (lymphotoxin) by highly purified human peripheral blood large granular lymphocytes

Highly purified populations of large granular lymphocytes (LGL) have been shown to mediate natural killer (NK) cell activity. The mechanism of target cell killing by NK cells is as yet undefined; however, it has been postulated that such killing may involve soluble cytotoxic factors produced and secreted by NK cells. The data presented show that NK-sensitive, but not NK-resistant, tumor cell lines induce highly purified populations of human LGL to produce factors with cytotoxic and/or cytostatic activities. We have identified one of these factors as tumor necrosis factor-alpha (TNF-alpha), and have shown that production of this factor is enhanced by recombinant human interferon-gamma (rHuIFN-gamma). We have also examined the role of TNF-alpha in the cytotoxic function of NK cells. The data show that although highly purified LGL populations produce low levels of TNF-alpha, the cytotoxic/cytostatic activity of this lymphokine on tumor target cells does not correlate with the cytotoxic activity of highly purified populations of LGL on tumor target cells. Furthermore, NK cell-mediated cytotoxicity is not reliably inhibited by antibodies directed against various epitopes of recombinant human TNF-alpha and/or recombinant TNF-beta (lymphotoxin) or rHuIFN-gamma. These data show that although TNF-alpha is produced by highly purified NK-containing LGL cell populations, this factor does not appear to be responsible for NK cell cytotoxicity against classical NK target cells such as Molt-4 or K562. We suggest that NK function can be attributed to a combination of factors rather than to a single factor alone, and that at least two major phenomena are involved in LGL function: the rapid cytotoxic events which lead to the cell lysis measured in classical in vitro NK assays such as against K562; and the release of factors such as TNF-alpha with cytotoxic/cytostatic activities which would inhibit the growth of invading tumor cells in vivo.     

Characterization of IL-2-dependent cytotoxic T-cell clones. II. Cell-surface phenotypes, histochemical and ultrastructural properties

This report examines the histochemical staining patterns, ultrastructure, and cell-surface phenotypes of six antigen-specific T-cell clones. Histochemical analyses indicated that all cell lines expressed alpha-napthyl butyrate esterase characteristic of the monocytic isoenzyme, intense napthol AS-D chloroacetate reactivity characteristic of granulocytes, and were negative for leucoperoxidase, alkaline phosphatase, and Sudan black. Only one clone stained weakly for acid phosphatase. The esterase staining patterns became evident in newly established cell lines after growth for only 1 week in interleukin 2-conditioned medium. Ultrastructurally, the outstanding feature was numerous membrane-bound granules containing a complex-appearing globular material. The cell-surface phenotypes of the lines as determined by protein A-sheep red blood cell rosetting and indirect immunofluorescence was Ly-5+, T200+, Qa-5-, MAC-1-, and Lyt-1+,2,3- for the helper line and Lyt-1-2,3+ for the five cytotoxic lines. By quantitative absorption analyses, low levels of Lyt-1 antigens were detected on all examined cytotoxic lines. The results strengthen the view that long-term T-cell lines can retain normal T-cell characteristics while also expressing markers that are either absent or in undetectable levels on uncultured T lymphocytes. The presence of the esterases may be associated with an expanded functional role in the T-cell lines.