Red cell membrane alterations in human chronic fluoride toxicity.

Red cells from humans exposed chronically to toxic levels of fluoride through drinking water showed significant increase in lipid peroxidation and membranous cholesterol and phospholipids. Additionally, electrophoretic patterns of ghost membrane proteins revealed the presence of a new band in the range of congruent to 66 Kd and increase in the high molecular weight protein and predominance of bands with a molecular weight of congruent to 93 Kd and congruent to 20 Kd. The activities of total, Na(+)-K(+)-, Mg(2+)- and Ca(2+)-ATPases were significantly decreased in the red cell ghosts of fluorotic patients.     

Binding and endocytosis of heparin by human endothelial cells in culture

Binding of heparin and low molecular weight heparin fragments (CY 222, Mr range 1500-8000) to human vascular endothelial cells was studied. Primary culture of human umbilical vein endothelial cells and either 125I or 3H-labeled heparin or [125I]CY 222 were used. Slow, saturable and specific binding was found. No other tested glycosaminoglycan, excepting a highly sulfated heparan fraction, was able to compete for heparin binding. Two groups of binding sites for [3H]heparin could be distinguished: one with high affinity (Kd = 0.12 microM) and another with lower affinity (Kd = 1.37 microM) and a relative large capacity of binding (1.16 X 10(7) molecules/cell) was calculated. The Kd for unlabeled heparin, as calculated from competition experiments, was 0.23 microM. Much lower affinity was calculated for unlabeled low molecular weight heparin fragments CY 222 (Kd = 4.3 microM) from competition experiments with [125I]CY 222. The binding reversibility was only partial for unfractionated heparin. Even by chasing with unlabeled compound, a fraction of 25-30% was not dissociable from endothelial cells. This fraction was much lower if incubation was carried out at 4 degrees C. The addition of basic proteins (histones) to the incubation medium greatly enhanced the undissociable binding at 37 degrees C, but not at 4 degrees C. The undissociable fraction of heparin was not available to degradation by purified microbial heparinase. These results suggest that a fraction of bound heparin is internalized by the vascular endothelium.     

Characterization of specific high-affinity receptor for human lymphotoxin

The specific cell surface receptors for lymphotoxin (LT) which are expressed on murine fibroblast L.P3 cells, a subline of L929 cells, were found to consist of a single class of specific high-affinity receptors with a dissociation constant (Kd) of 3.8 X 10(-10) M and a density of 5.8 X 10(3) sites/cell. Similarly, murine fibroblast L929 cells, human melanoma A375 cells and human cervical carcinoma HeLa-S3 cells had about 7.2 X 10(3), 3.5 X 10(3), and 6.6 X 10(3) sites/cell with Kd values of 1.4 X 10(-10), 0.5 X 10(-10), and 1.1 X 10(-10) M, respectively. Among the LT receptor-positive cell lines, there was no direct correlation between the level of specific LT binding and the sensitivity to the cytotoxic or cytostatic effect of LT. Cross-linking of 125I-LT to the cell surface receptors with disuccinimidyl suberate, followed by two-dimensional gel electrophoresis of the cell lysate, revealed two kinds of LT-LT receptor complexes with molecular weights of 70 and 97 kDa, and having the same pI value of 6.8. Cell-bound 125I-LT was internalized within 1 h and degraded intracellularly, and finally secreted into the medium within a few hours. Appropriate concentrations of LT and interferon gamma (IFN gamma) showed synergistic cytotoxicity toward murine fibroblast L.P3 cells and human monocytoma U937 cells, but these cytokines were only slightly cytotoxic individually. Preincubation of these cells with IFN gamma increased the total number of LT receptors without any significant change in the dissociation constant or in the molecular weight.(ABSTRACT TRUNCATED AT 250 WORDS)     

Studies on the mechanism of activation of human natural killer function by interferon and inhibitors of thymidylate synthesis

Previous publications from this laboratory have demonstrated that agents such as methotrexate (MTX), 5-fluorodeoxyuridine (FUdR), trimethoprim, and D-glucosamine (D-GlcN), which are known to inhibit thymidylate synthesis, can augment human NK activity in vitro. Furthermore, this augmentation was inhibited by exogenous thymidine (TdR) at concentrations of 10(-6) to 10(-7) M. In this report, underlying mechanisms of action of FUdR, D-GlcN, and IFN are compared. Each of these agents increased the lytic activity of effector cells bound to targets but did not increase the percentage of conjugates formed. The augmentation could be induced in a population highly enriched for NK cells (Leu-1 lb positive in phenotype). FUdR and D-GlcN could not induce any augmentation in a Leu-1 lb-negative subpopulation whereas IFN could induce significant lytic activity. alpha-Amanitin, an inhibitor of RNA polymerase II, blocked the activation of NK activity by all three reagents; hence gene expression was required. Comparison of [35S]methionine-labeled proteins by two-dimensional gel electrophoresis revealed that six new proteins were induced in IFN-treated cells. Three of these were similar in pI and molecular weight to the newly synthesized proteins in the D-GlcN-treated cells. One protein was synthesized in increased amounts in the FuDR-treated cells and it was not common to either of the other treatments. Evidence to date is consistent with the hypothesis that separate mechanisms underlie the activation of NK cells by IFN and thymidylate synthesis inhibitors, although the existence of a final common pathway for all NK response modulators cannot be excluded at the present time.     

Enhancement of a human antibody response in vitro mediated by interaction of interferon-alpha with T lymphocytes

This study describes the effects of human recombinant IFN-alpha 2 on antibody production in vitro. Whereas the inclusion of IFN-alpha 2 in cultures for 7 days had a relatively minor effect on pokeweed mitogen (PWM)-induced antibody production, it resulted in a dose-related enhancement of a hapten-specific primary antibody response. Comparison of PWM and IFN-induced [3H]thymidine uptake indicated that the observed IFN activation was not polyclonal. Pretreatment of T cells with IFN for 1 hr before recombination with untreated autologous B lymphocytes increased the anti-TNP response four-fold, whereas similar pretreatment of B lymphocytes had no effect. Furthermore, 2000 R x-irradiation of T cells before coculture with autologous B lymphocytes and IFN abrogated the TNP-specific response. These results indicate that IFN modulates TNP-specific antibody production via a radiosensitive T-helper function. Further subfractionation by panning suggests that the enhancement is mediated by the Leu-3a+ helper/inducer T cell subset. Evidence that a 1-hr exposure to IFN was sufficient to modulate antibody production prompted the examination of T cells for possible receptor mechanisms. Scatchard analysis of 125I-IFN-alpha 2 binding revealed approximately 65 high affinity IFN receptors per cell with an apparent dissociation constant (Kd) of 4.4 X 10(-10) M. This paper is the first demonstration of the role of T cells in mediating the effects of recombinant IFN-alpha 2 on human primary antibody responses in vitro. These data further suggest that the observed modulation of hapten-specific antibody production in vitro by IFN may involve the binding of IFN to specific cellular receptors expressed by T lymphocytes.     

Intermolecular association of the p185neu protein and EGF receptor modulates EGF receptor function

We have used cross-linking reagents on cell lines expressing both p185neu and EGFR. The lysates of the cells were precipitated with anti-p185neu or anti-EGFR antibodies. These precipitates included a high molecular weight complex that was identified as an EGFR-p185neu heterodimer. Heterodimerization was found to be induced by exposure to EGR. The EGFR of these cells displayed three affinity states for EGF: low (Kd, approximately 10(-9) M), high (Kd, 10(-9) to 10(-10) M), and very high (Kd, 10(-11) M), as determined by Scatchard analyses. Relatively small levels of EGF had a dramatic biological effect on cells expressing very high affinity EGFR. The very high affinity EGFR disappeared after the cells were treated with anti-p185neu monoclonal antibodies that selectively down-regulated p185neu. EGF and TPA had differential effects on down-modulation of the EGFR in cells that express either one or both species of receptor proteins.     

Constitutive production and characterization of interferon-gamma in a human T-lymphoblastoid cell line transformed by a human retrovirus

A human T-lymphoblastoid cell line, TCL-Fuj, constitutively produced a large amount of human gamma interferon (IFN) in culture fluids and has sustained stable IFN production for more than two years. When cells were incubated in RPMI-1640 medium with 10% fetal calf serum for three days, IFN activity was detectable at a cell density of 6 X 10(4) cells/ml, whereas 2,000-16,000 units of IFN per ml were produced at 5-10 X 10(5) cells/ml. IFN production was also detected even in serumfree medium and as early as 2 hr after cultivation in fresh medium. IFN was inhibited by treatment of cells with either actinomycin D or cycloheximide, indicating the requirement of IFN-mRNA and protein for de novo synthesis. The molecular weight of the IFN was 45,000-60,000 as determined by Sephacryl S200 gel filtration. Two activity peaks corresponding to molecular weights of 22,000 and 39,000 were obtained by SDS-polyacrylamide gel electrophoresis. Analysis by isoelectric focusing revealed charge heterogeneity with four species at pIs of 6.0, 7.1, 8.6, and 9.3. Conventional IFN-gamma inducers, concanavalin A and 12-O-tetradecanoyl-phorbol-13-acetate, further enhanced the production of IFN in this cell line.     

Suppressor T cell activation by human leukocyte interferon

Murine fibroblast interferon (IFN beta) activates murine suppressor T lymphocytes in vitro, which suppress plaque-forming cell responses by spleen cells. Suppression of human in vitro immune responses by IFN was investigated to determine whether human IFN also activates suppressor T cells. Human leukocyte IFN (IFN alpha) suppressed pokeweed mitogen-induced polyclonal immunoglobulin production by human peripheral blood mononuclear cells (PBMC) by 80 to 90% at doses of 200 to 350 U/ml. Responses by IFN alpha-treated PBMC were suppressed in a dose-dependent manner; control cultures had maximal responses on day 7. PBMC incubated with 10,000 U/ml of IFN alpha contained activated suppressor cells that decreased pokeweed mitogen-stimulated, polyclonal immunoglobulin production by autologous cells by 70 to 80%. Suppression mediated by these cells was prevented by catalase, ascorbic acid, and 2-mercaptoethanol (2-ME). In murine systems, these reagents interfere with expression of suppressor T cell activity by preventing activation of soluble immune response suppressor. Selection procedures with monoclonal antibodies identified the suppressor cell as an OKT8+ (suppressor/cytotoxic) T lymphocyte. Selected OKT8+ cells required less IFN alpha (1000 U/ml) for activation and were effective in smaller numbers than unfractionated activated PBMC. IFN alpha-activated suppressor cells also inhibited proliferation in mixed lymphocyte and mitogen-stimulated PBMC cultures; again, catalase and 2-ME blocked suppression. These results indicate that IFN alpha activates suppressor T cells in human PBMC cultures; the ability of catalase, 2-ME, and ascorbic acid to block suppression suggests that these suppressor T cells have certain similarities to IFN beta or to concanavalin A-activated murine suppressor T cells.     

Detection of glucocorticoid sensitive secretory proteins from human melanoma cells

Summary NEL-M1 human melanoma cells have been established to grow in Ham's F12 medium in the absence of serum, hormones, and exogenous growth factors. Conditioned medium from NEL-M1 cultures stimulates growth of these same cells whereas glucocorticoids retard growth in the presence and absence of conditioned medium. Because recent reports indicate that glucocorticoids inhibit the synthesis of growth factors from a variety of cell types, we hypothesized that glucocorticoids may be inhibiting growth of NEL-M1 cells by either suppressing the synthesis of the autocrine growth factor or regulating other secretory proteins that may inhibit the activity of the autocrine growth factor. Initial studies were done to clearly show that NEL-M1 cells were growth inhibited, both in vivo and in vitro, when exposed to the synthetic glucocorticoid, triamcinolone acetonide (TA). When NEL-M1 cells were injected into nude mice and treated with TA (100 μg per mouse per week) a 67% reduction in tumor mass was observed compared to the control group over a 5-wk growth period. Additional studies show that in a serum-free defined medium TA (100 nM) inhibited growth of MEL-M1 cells by 56% after 6 d in culture. At this same time TA was shown to affect the expression of several proteins secreted from these cells. TA treatment resulted in the appearance of a 125 000 molecular weight protein, suppression of the synthesis-secretion of three proteins (37 000, 57 000, and 76 000 molecular weight) and enhanced expression of a 60 000-molecular weight protein. However when NEL-M1 cells were cultured in conditioned medium from TA-treated cells, a stimulation in both [³H]thymidine incorporation into DNA and cell proliferation was observed. When the conditioned medium was fractionated by Amicon ultrafiltration, the growth stimulatory activity was found in the <10 000 molecular weight fraction. These results demonstrate that glucocorticoids, as a single agent, inhibit the growth of NEL-M1 human melanoma cells. However, this growth inhibition by glucocorticoids may not be through the regulation of the synthesis-secretion of the autocrine growth factor. Furthermore, the data suggest that the glucocorticoid-sensitive secretory proteins may not be directly involved in the in vitro regulation of NEL-M1 cellular growth.     

Differential human interferon alpha receptor expression on proliferating and non-proliferating cells

The expression of interferon-alpha (IFN-alpha) receptors was studied on a variety of human cells, using monoiodinated IFN-alpha 2 probes. Steady-state binding at 4 degrees C revealed a single class of non-interacting IFN receptor on peripheral blood lymphocytes, and tonsillar B lymphocytes, which are both known to be G0/G1 resting cell populations. The binding affinity of this class of receptor was found to be on the order of 5 X 10(-10) M, expressed as an apparent dissociation constant (Kd). However, cells proliferating either in culture or in vivo were found to express a heterogeneity in IFN-alpha 2 binding. Such binding could be objectively resolved (by a version of the LIGAND program of P. Munson) into a two-site receptor model. Hill plots of binding to proliferating cells indicated a negative cooperativity in the interaction of IFN and receptor. The high-affinity component, expressed on proliferating cells, typically exhibits a Kd of (1-10) X 10(-11) M, while the lower-affinity component indicates a Kd of (1-10) X 10(-9) M. Furthermore, the low-affinity component is apparently expressed on the order of 10-200 times the copy number, per cell, of the high-affinity site. Affinity-labeling experiments revealed that, in addition to the 140-160-kDa IFN-binding complex reported by others, both the proliferating and non-proliferating cell populations possess a novel IFN-binding component of 60 kDa.     

Hyperproduction of human interferon gamma by rat cells maintained in low-serum medium using the fibronectin gene promoter.

An expression vector, pF1900M, which expresses a cloned gene at a high level in quiescent mammalian cells was constructed using the rat fibronectin (FN) promoter. Human interferon gamma (HuIFN-gamma) cDNA inserted downstream of the FN promoter in pF1900M was introduced into rat 3Y1 cells and several IFN-producing cell lines were established. These cells secreted a low level of IFN when they were growing but secreted at a high level after they had reached confluence. The level was further increased when the confluent cells were maintained in low-serum medium and a cell line, I7, produced 4 x 10(5) IU/ml of IFN, comparable to that produced by genetically engineered Escherichia coli in 2 days. The IFN-producing ability of I7 cells could be maintained by successive replacements of low-serum medium for at least 2 weeks. HuIFN-gamma secreted into the medium had a molecular weight range of 22,000 to 25,000, similar to that of IFN-gamma produced by human lymphocytes. The N-linked glycosylation of HuIFN-gamma seemed to occur properly, since treatment of the IFN with N-glycanase resulted in a reduction of molecular weight to 17,000, which corresponds to that calculated from the deduced amino acid sequence of HuIFN-gamma.     

Effect of in vitro interferon treatment on the rapid clearance of murine leukemia cells in vivo.

Previous work showed that interferon (IFN) can protect target cells from NK mediated lysis in vitro. In the present study we investigate the effect of IFN alpha/beta or IFN gamma treatment of three different murine leukemia cell lines. For this purpose FLC-745 (susceptible to the antiproliferative activity of IFN alpha/beta and gamma), FLC-3C18 (IFN alpha/beta -resistant and IFN gamma - susceptible) of DBA/2 origin and EL-4 (IFN alpha/beta - susceptible and IFN gamma - resistant) leukemia of C57B1/6 origin were treated with IFN alpha/beta or gamma in vitro and assayed for their susceptibility to natural resistance measured in vivo as organ rapid clearance 4 hr after iv injection into syngeneic mice. Using young or Poly I:C stimulated hosts, but not mice with low levels of natural resistance (i.e. older animals or mice treated with cyclophosphamide), slower elimination of treated cells was observed with: (a) FLC-745 cells treated with IFN alpha/beta and IFN gamma and (b) FLC 3C18 treated with IFN gamma. Such a delayed clearance was not observed with: (a) FLC-3C18 cells treated with IFN alpha/beta and (b) EL-4 leukemia cells preincubated with IFN alpha/beta or IFN gamma. These results suggest that under selected conditions IFNs can protect leukemic cells from in vivo natural reactivity.     

Characterization of the human granulocyte-macrophage colony-stimulating factor receptor

Human granulocyte-macrophage colony-stimulating factor (GM-CSF) is a cytokine derived from activated T cells, endothelial cells, fibroblasts, and macrophages. It stimulates myeloid and erythroid progenitors to form colonies in semisolid medium in vitro, as well as enhancing multiple differentiated functions of mature neutrophils, macrophages, and eosinophils. We have examined the binding of human GM-CSF to a variety of responsive human cells and cell lines. The most mature myelomonocytic cells, specifically human neutrophils, macrophages, and eosinophils, express the highest numbers of a single class of high affinity receptors (Kd approximately 37 pM, 293-1000 sites/cell). HL-60 and KG-1 cells exhibit an increase in specific binding at high concentrations of GM-CSF; computer analysis of the data is nonetheless consistent with a single class of high affinity binding sites with a Kd approximately 43 pM and 20-450 sites/cell. Dimethyl sulfoxide induces a 3-10-fold increase in high affinity receptors expressed in HL-60 cells, coincident with terminal neutrophilic differentiation. Finally, binding of 125I-GM-CSF to fresh peripheral blood cells from six patients with chronic myelogenous leukemia was analyzed. In three of six cases, binding was similar to the nonsaturable binding observed with HL-60 and KG-1 cells. GM-CSF binding was low, or in some cases, undetectable on myeloblasts obtained from eight patients with acute myelogenous leukemia. The observed affinities of the receptor for GM-CSF are consistent with all known biological activities. Affinity labeling of both normal neutrophils and dimethyl sulfoxide-induced HL-60 cells with unglycosylated 125I-GM-CSF yielded a band of 98 kDa, implying a molecular weight of approximately 84,000 for the human GM-CSF receptor.     

Growth inhibition of human nasopharyngeal carcinoma in athymic mice by anti-epidermal growth factor receptor monoclonal antibodies

Monoclonal antibodies (MoAbs) were developed against epidermal growth factor (EGF) receptor on the human epidermoid carcinoma cell line A431. The A431 antigen recognized by the MoAbs has an apparent molecular weight of approximately 170,000, with the same molecular weight as the CNE-2 cell line (poorly differentiated nasopharyngeal carcinoma). Administration of anti-EGF receptor MoAbs inhibited tumor formation, caused by the CNE-2 and A431 cell lines, in athymic mice. When the same MoAbs were used in therapy against Tca8113 (a human tongue carcinoma) and HeLa cells (a human cervical carcinoma), tumor growth was not affected. The number of EGF receptors and the apparent dissociation constants for 125I-EGF on CNE-2 and A431 were 1.3 x 10(5)/cell (Kd 7.7 x 10(-8) M) and 1.4 x 10(6)/cell (Kd 2.4 x 10(-9) M), respectively. Three anti-EGF receptor MoAbs were used in these studies. MoAbs 3 and 176, capable of competing with EGF for receptor binding, showed significant tumor growth inhibition. MoAb 101 was incapable of blocking the binding of EGF to its receptor and was not as effective as MoAbs 3 and 176 in tumor growth inhibition. Our observation is that in vitro, MoAb anti-EGF receptor is cytostatic, rather than cytocidal, against CNE-2 and A431.     

Constitutive, long-term production of human interferons by hamster cells containing multiple copies of a cloned interferon gene.

Hybrid plasmids containing the mouse dihydrofolate reductase (dhfr) and a human interferon (either IFN-alpha 5 or IFN-gamma) coding sequence under the control of viral promoters were transfected into dhfr- Chinese hamster ovary (CHO) cells. dhfr+ colonies produced IFN at 10-1000 units X ml-1 X day-1. Clones selected in methotrexate had a 20-50-fold increase in the IFN-alpha 5 and dhfr DNA and mRNA content and secreted IFN at 20,000-100,000 units X ml-1 X day-1. SDS-polyacrylamide gel electrophoresis of partially purified 35S-HuIFN-gamma from CHO cells showed a multiple of labeled bands with a mobility corresponding to 22,400 to 23,400 daltons which was absent in the supernatants of non-transformed CHO cells. The higher apparent molecular weight of human IFN-gamma from CHO cells as compared to that of human IFN-gamma from E. coli (about 18,800) suggests that the former was glycosylated.     

Effects of 2,5-hexanedione on calpain-mediated degradation of human neurofilaments in vitro

2,5-Hexanedione (2,5-HD), the neurotoxic metabolite of n-hexane, can structurally modify neurofilaments (NF) by pyrrole adduct formation and subsequent covalent cross-linking. 2,5-HD also induces accumulations of NF within the pre-terminal axon. We examined whether exposure of NF to 2,5-HD affected NF degradation. Two different models were used: (1) NF-enriched cytoskeletons isolated from human sciatic nerve were incubated with 2,5-HD in vitro and (2) differentiated human neuroblastoma cells (SK-N-SH) were exposed to 2, 5-HD in culture prior to isolation of cytoskeletal proteins. The cytoskeletal preparations were subsequently incubated with calpain II. The amount of NF-H and NF-L remaining after proteolysis was determined by SDS-PAGE and quantitative immunoblotting. NF-M proteolysis could not be quantified. Incubation of sciatic nerve cytoskeletal preparations with 2,5-HD resulted in cross-linking of all three NF proteins into high molecular weight (HMW) material with a range of molecular weights. Proteolysis of the NF-H and NF-L polypeptides was not affected by 2,5-HD-exposure. Degradation of the HMW material containing NF-H or NF-L was retarded when comparing with degradation of the NF-H and NF-L polypeptides, respectively, from control samples, but not as compared to the corresponding NF polypeptides from 2,5-HD-treated samples. Exposure of SK-N-SH cells to 2,5-HD also resulted in considerable cross-linking of NF. No differences were found between the proteolytic rates of NF-L and NF-H from exposed cells as compared with those subunits from control cells. Moreover, degradation of cross-linked NF-H was not different from monomeric NF-H. In conclusion, whether 2,5-HD affects calpain-mediated degradation of cross-linked NF proteins will depend on which model better reflects NF cross-linking as occurring in 2, 5-HD-induced axonopathy. However, with both models it was demonstrated that exposure of NF proteins to 2,5-HD without subsequent cross-linking is not adequate to inhibit NF proteolysis in vitro by added calpain.     

Molecular cloning and characterization of an interferon induced human cDNA with sequence homology to a mammalian peptide chain release factor.

Here we report the molecular cloning of several related human cDNAs from which a full-length sequence can be determined. The cDNAs encode a 2.8 kb mRNA that is strongly induced by interferon (IFN) gamma and the expression of which is not cell-restricted but observed in fibroblasts, macrophages and epithelial cells. The deduced amino acid sequence predicts a protein of 471 amino acids with high sequence similarity to a previously identified rabbit peptide chain release factor. Functional studies to demonstrate release factor activity showed that the protein encoded by this cDNA inhibited the readthrough activity of a yeast UGA suppressor tRNA in an in vitro translation system. The identification of this novel cDNA implies that translational control by IFN induced proteins may not be restricted to the initial steps of protein synthesis but may also act by regulation of peptide chain termination.     

High-speed gel filtration of polypeptides in sodium dodecyl sulfate

The separation of polypeptides treated with SDS was studied using G3000SW packing prepared from silica for high-speed gel filtration. The peaks of ovalbumin, chymotrypsinogen A, cytochrome c, aprotinin, and insulin B chain were completely separated in the presence of 0.1% SDS and 0.05 M sodium phosphate buffer (pH 7.0). A plot of the logarithm of molecular weight of polypeptides versus Kd was linear over a molecular weight range of 3,000 to 50,000 at the above concentrations of SDS and sodium phosphate. The slopes of the plots of log molecular weight versus Kd depend to a significant extent on the concentration of the sodium phosphate buffer (pH 7.0).     

In vivo and in vitro activation of pulmonary macrophages by IFN-gamma for enhanced killing of Paracoccidioides brasiliensis or Blastomyces dermatitidis

The fungicidal capacity of murine pulmonary macrophages (PuM) activated in vitro with IFN or lymphokines or in vivo with IFN was studied. PuM treated overnight with IFN (1000 U/ml), Con A-stimulated spleen cell culture supernatants, or lymph node cells plus Con A significantly killed yeast cells of the Gar w isolate of Paracoccidioides brasiliensis 45.5 +/- 2.1%, 72.0 +/- 4.2%, and 51.5 +/- 0.7% respectively. Two other isolates of P. brasiliensis (Ru and LA) were also killed (45 and 34%) by PuM activated by lymph node cells plus Con A. Control PuM had lesser but significant capacity for killing of P. brasiliensis isolates, ranging from 15 to 22%. Killing of P. brasiliensis by PuM activated by Con A-stimulated spleen cell culture supernatants could not be significantly inhibited by superoxide dismutase, catalase, or azide. When mice were treated in vivo with 4 X 10(5) IFN U i.p. and PuM isolated 24 h later, the PuM had significantly enhanced ability to kill P. brasiliensis (47.0 +/- 6.3%) compared with PuM from control mice (25.0 +/- 4.2%). PuM thus activated also showed enhanced killing (43%) of a second isolate compared with control PuM (22%). PuM from IFN-treated mice were able to significantly kill Blastomyces dermatitidis (37.5 +/- 0.7%) compared with control PuM (4.5 +/- 6.3%). These results show that PuM can be activated in vitro and in vivo by IFN for enhanced fungicidal activity against two pulmonary fungal pathogens and suggests that immunologic production of IFN could be an important factor in host defenses against these diseases.