A hypoxia-responsive element mediates a novel pathway of activation of the inducible nitric oxide synthase promoter.

Picolinic acid, a catabolite of L-tryptophan, activates the transcription of the inducible nitric oxide synthase gene (iNOS) in IFN-gamma-treated murine macrophages. We performed functional studies on the 5' flanking region of the iNOS gene linked to a CAT reporter gene to identify the cis-acting element(s) responsible for the activation of iNOS transcription by picolinic acid. Transient transfection assays showed that the full-length iNOS promoter in the murine macrophage cell line ANA-1 was activated by the synergistic interaction between IFN-gamma and picolinic acid. Deletion or mutation of the iNOS promoter region from -227 to -209, containing a sequence homology to a hypoxia-responsive enhancer (iNOS-HRE), decreased picolinic acid- but not LPS-induced CAT activity by more than 70%. Functional studies using a tk promoter-CAT reporter gene plasmid demonstrated that the iNOS-HRE was sufficient to confer inducibility by picolinic acid but not by IFN-gamma or LPS. Electrophoretic mobility shift assays confirmed that picolinic acid alone induced a specific binding activity to the iNOS-HRE. Furthermore, we found that the iNOS-HRE activity was inducible by hypoxia and that hypoxia in combination with IFN-gamma activated the iNOS promoter in transient transfection assays and induced iNOS transcription and mRNA expression. These data establish that the iNOS-HRE is a novel regulatory element of the iNOS promoter activity in murine macrophages and provide the first evidence that iNOS is a hypoxia-inducible gene.

Regulation of JAK3 expression in human monocytes: phosphorylation in response to interleukins 2, 4, and 7.

The Janus family of kinases (JAKs) has been shown to be involved in the signal transduction of a number of cytokine receptors. Recently, we have cloned a novel JAK family member, JAK3, that is expressed in natural killer and activated T cells and is coupled functionally and physically to the interleukin 2 (IL-2) receptor in these cells. Here we report that JAK3 was expressed at low but detectable levels in human monocytes. In contrast, JAK3 expression was strongly induced during activation by interferon gamma (IFN-gamma) or lipopolysaccharide. Moreover, JAK3 became tyrosine phosphorylated in response to IL-2, IL-4, and IL-7 but not response to IFN-gamma or granulocyte/macrophage colony-stimulating factor. Together, these findings suggest that JAK3 is functionally important in activated monocytes and cells of the myeloid lineage and is involved in signaling responses of cytokines that use the common gamma-chain of the IL-2 receptor.

IL-4 and IL-13 induce Lsk, a Csk-like tyrosine kinase, in human monocytes.

Lsk is a protein tyrosine kinase with homology to the COOH-terminal Src kinase (Csk). Unlike Csk that is ubiquitously expressed, Lsk has limited tissue distribution. Here we have examined the expression and regulation of Lsk and Csk in peripheral human monocytes. We have found that Lsk mRNA and protein were not expressed in resting monocytes but were induced by treatment with interleukin 4 (IL-4) or IL-13 but not by interferon gamma (IFN-gamma) or IL-2. In fact, IFN-gamma, but not IL-2, efficiently blocked Lsk induction by IL-4 or IL-13. In contrast, Csk was constitutively present in human monocytes and was upregulated by IFN-gamma but not by IL-4 or IL-13. These results suggest that despite their structural similarities, Lsk and Csk may play distinct regulatory roles in monocyte functions elicited by cytokines, with Lsk functioning specifically within the context of a Th2-type immune response.

Expression and role of p75 interleukin 2 receptor on human monocytes.

We investigated the expression of IL-2R subunits in human monocytes using the TU27 mAb, which recognizes the p75 chain, and anti-Tac mAb, which recognizes the p55 moiety of the IL-2R. We found that p75 but not p55 is constitutively expressed in more than 90% of fresh human monocytes. Antibody to p75, but not to p55, inhibited the activation of monocytes to a cytotoxic stage induced by IL-2 but did not block IFN-gamma-induced cytotoxicity. Our data demonstrate that the p75 chain is expressed on human monocytes and is involved in the activation of monocytes by IL-2.

c-fos mRNA expression in macrophages is downregulated by interferon-gamma at the posttranscriptional level.

Treatment of macrophages with interferon-gamma (IFN gamma) strongly decreased the induction of c-fos mRNA by 12-O-tetradecanoylphorbol-13-acetate (TPA), lipopolysaccharide, or calcium ionophore A23187 in macrophages. Under the same experimental conditions, IFN gamma induced oligo(A) synthetase mRNA and did not affect the constitutive expression of transforming growth factor beta mRNA, indicating that IFN gamma did not induce general degradation of mRNAs. Run-on experiments indicated that c-fos was constitutively transcribed at low levels and that TPA augmented c-fos transcription. IFN gamma did not inhibit constitutive or TPA-induced c-fos transcription. However, IFN gamma decreased c-fos mRNA stability, as assessed by measuring the half-life of c-fos mRNA in actinomycin D-treated cells. These results indicated that IFN gamma inhibited c-fos mRNA induction by TPA at the posttranscriptional level.

Augmentation of c-fos mRNA expression by activators of protein kinase C in fresh, terminally differentiated resting macrophages.

Expression of c-fos mRNA was investigated in fresh, normal peritoneal macrophages (M phi), which are terminally differentiated, nonproliferating cells. The levels of c-fos mRNA were dramatically increased by stimulation with phorbol myristate acetate (PMA), calcium ionophore, or 1-oleoyl-2-acetoyl glycerol (OAG). Induction of c-fos mRNA by all the above agents followed similar kinetics, with a peak of mRNA 30 min after stimulation. These results demonstrate that c-fos mRNA can be augmented in fresh, terminally differentiated cells. Since the stimuli increasing c-fos mRNA are direct or indirect activators of protein kinase C, our data suggest that in M phi c-fos mRNA is controlled by protein kinase C activation. PMA, calcium ionophore, and OAG were biologically active in M phi. PMA and calcium ionophore induced respiratory burst and tumoricidal activity, respectively, whereas OAG and PMA were chemotactic for M phi. Interferons beta and gamma, potent M phi activators eliciting tumoricidal activity, did not alter the levels of c-fos mRNA. These results indicate that c-fos mRNA augmentation is a stimulus-specific rather than a function-specific response connected to activation of protein kinase C.

Posttranscriptional control of human gamma interferon gene expression in transfected mouse fibroblasts.

Human gamma interferon genomic DNA was introduced into NIH 3T3 fibroblasts by calcium phosphate precipitation and was not expressed in these cells at the cytoplasmic mRNA or protein level. Treatment of the transfected cells with cycloheximide (1 microgram/ml) induced the accumulation of cytoplasmic gamma interferon mRNA and biologically active human gamma interferon. Analysis of the nuclear enriched RNA from untreated cells indicated that human gamma interferon mRNA was present, suggesting that cycloheximide may act by inhibiting a specific nuclease or may enhance the processing or transport of the RNA from the nucleus to the cytoplasm.

Induction of macrophage glutamine: fructose-6-phosphate amidotransferase expression by hypoxia and by picolinic acid.

We studied the expression of glutamine: fructose-6-phosphate amidotransferase (GFAT), the rate limiting enzyme in the hexosamine biosynthetic pathway controlling protein glycosylation. We obtained the first evidence that the GFAT mRNA and protein are constitutively expressed in murine mononuclear phagocytes (Mf) and inducible by picolinic acid (PA), a catabolite of tryptophan, hypoxia and desferrioxamine (DFX). These stimuli share the property to transactivate gene expression through the Hypoxia Responsive Element (HRE). The promoter of GFAT contains the consensus sequence of HRE in position 74/-65 (GFAT-HRE), and we studied the role of HRE on the activation of the promoter utilizing appropriate expression vectors. We found that GFAT-HRE is essential for the response to hypoxia, PA or DFX and that Hypoxia Inducible Factor-1alpha (HIF-1alpha) can augment this response. Finally, we demonstrate that iron chelation is part of the mechanism by which PA and DFX activate GFAT expression. Our results provide the first indication that hypoxia, PA or DFX induce the transcription of GFAT gene in murine Mf cell lines and that the HRE of the promoter is essential for this response.

Heterogeneity of hematopoietic cells immortalized by v-myc/v-raf recombinant retrovirus infection of bone marrow or fetal liver.

The J2 recombinant retrovirus expressing v-myc/v-raf (also known as MYC/RAF1) immortalized macrophages from the bone marrow of lipopolysaccharide-responsive mouse strains, producing the ANA-1 cell line from C57BL/6 mice and the INF-3A cell line from C3H/HeN mice. In contrast, J2 recombinant retrovirus infection of the fetal liver from C57BL/6-Ly-5a mice immortalized a cell line (GGD) that did not exhibit the characteristics of mature macrophages. The GGD cell line was classified as leukocytic on the basis of its expression of the Ly-6B.2, Fc gamma R, and Ly-5.2 antigens. Our results indicate that the J2 recombinant retrovirus selectively immortalizes macrophages from the bone marrow of C57BL/6 and C3H/HeN mice but immortalizes cells without definitive macrophage characteristics from murine fetal liver under the same culture conditions.

Inhibition of replication of virus-transformed fibroblasts by antibodies to RNA.

The activity of 7S immunoglobulins (Ig) antibody to RNA, obtained in rabbits after a prolonged immunization with RNA-methylated bovine serum albumin complex was evaluated in vitro on normal (3T3) and simian virus 40-transformed (SV 3T3) mouse fibroblasts. The presence of anti-RNA antibody in the culture medium inhibited both the SV 3T3 cell proliferation and the [3H]thymidine incorporation. In contrast, an increased [3H]uridine incorporation was evident within 48 and 96 hr of culture. No significant modification in these 3 parameters was observed in 3T3 cultures treated in the same manner. Both 3T3 and SV 3T3 showed cytoplasmic fluorescence when cultured in the presence of fluoresceinated anti-RNA Ig. However, with the indirect fluorescence technique anti-RNA Ig were detected in SV 3T3 cytoplasm only. These data suggest that anti-RNA Ig were taken up by both 3T3 and SV 3T3, but only in SV 3T3 did the anti-RNA Ig retain their antigenic properties and block cellular proliferation.

Erythroid differentiation and modulation of c-myc expression induced by antineoplastic drugs in the human leukemic cell line K562.

The human leukemia cell line K562 expresses constitutively high levels of c-myc mRNA and can be induced to differentiate along the erythroid lineage. Treatment of K562 cells with the antineoplastic drugs 1-beta-D-arabinofuranosylcytosine and daunomycin causes differentiation into hemoglobin-producing cells. The differentiation process is associated with an early block of cellular proliferation occurring during the first 24 h of treatment. RNA synthesis is progressively reduced to 20 to 30% of the control levels after 3 days of exposure to the drugs. Dot and Northern blot analyses were performed to evaluate the levels of c-myc or globin mRNA during the differentiation of K562. Daunomycin and 1-beta-D-arabinofuranosylcytosine, despite their distinct chemical nature, induced similar modulation of mRNA levels. Globin mRNA did not change during the first 24 h of culture and began to increase after 48 h of treatment with drugs, reflecting the kinetic of appearance of hemoglobin-producing cells. In contrast, a transient decrease of c-myc mRNA was observed after the first 24 h of drug treatment, followed by a return to normal levels of c-myc mRNA after 48 h of treatment. Thus, the expression of c-myc mRNA in K562 did not reflect their proliferative activity nor their stage of differentiation. We speculate that the transient down-regulation of c-myc mRNA may be an initial event in the erythroid differentiation of K562.

Potent activation of mouse macrophages by recombinant interferon-gamma.

The ability of recombinant interferon-gamma (IFN-gamma) to activate mouse macrophages was investigated. The use of recombinant IFN-gamma has the advantage of being devoid of contaminating lymphokines. Two preparations of IFN-gamma were utilized, one which was not glycosylated and which was highly purified from Escherichia coli another which was glycosylated and which was from transfected COS-7 monkey cells. Both preparations of recombinant IFN-gamma activated murine macrophages to kill lymphoma and melanoma tumor targets, suggesting that glycosylation of the protein or the presence of other mammalian proteins is not essential for activation. Significant levels of cytolytic activity were induced from IFN-gamma (1 to 10 units/ml). This activity was undiminished by treatment of the IFN-gamma preparations with polymixin B at doses which neutralized endotoxin (50 micrograms/ml). Similarly, IFN-gamma, at low concentrations, induced an inhibition of migration by macrophages. Based on antiviral activity, IFN-gamma was shown to be 100 to 1000 times more potent than was IFN-beta as a macrophage-activating agent. Taken together, these results demonstrate that murine IFN-gamma is a macrophage-activating factor which is effective at physiological concentrations. Of particular interest is the observation that the nonglycosylated E. coli-derived IFN-gamma is active and therefore may be of value for therapeutic studies, since it can be easily produced in large amounts.

Cytokine gene expression during the generation of human lymphokine-activated killer cells: early induction of interleukin 1 beta by interleukin 2.

Culture of human peripheral blood leukocytes with interleukin 2 (IL-2) stimulates their differentiation into lymphokine-activated killer (LAK) cells, with a broad range of cytotoxicity against fresh tumor cells and tumor cell lines (Grimm et al., J. Exp. Med., 155: 1823-1841, 1982). We chose to utilize a molecular approach to determine whether IL-2 stimulates the expression of cytokine genes by the mixed cell population which may be involved in the generation or regulation of lytic activity. Northern blot analysis performed with total cellular RNA from LAK cells cultured for varying periods of time with IL-2 revealed that the genes which code for cytokines [interleukin 1 (IL-1)alpha and beta, gamma-interferon, tumor necrosis factor alpha, and lymphotoxin] were not spontaneously expressed. As soon as 2 h after IL-2 treatment, IL-1 alpha and IL-1 beta mRNAs were expressed. Both nonadherent and adherent populations of LAK cells express IL-1 beta mRNA; however, the adherent population produced more IL-1 beta mRNA and maintained its expression for a prolonged period of time. Other cytokine mRNAs (gamma-interferon, tumor necrosis factor alpha, and lymphotoxin) were expressed later than the IL-1 mRNAs with maximal levels between Days 2 through 7. Our results indicate that LAK cell populations can generate a variety of cytokines which may be involved in the generation of lytic activity.

Flavopiridol, a protein kinase inhibitor, down-regulates hypoxic induction of vascular endothelial growth factor expression in human monocytes.

We have investigated the effects of flavopiridol, a novel protein kinase inhibitor that is selective for cyclin-dependent kinases, on hypoxia-induced vascular endothelial growth factor (VEGF) expression in human monocytes. We found that hypoxia induces a time-dependent increase of VEGF mRNA expression and protein levels in human monocytes. Flavopiridol showed a minimal effect on the constitutive levels of VEGF mRNA but completely blocked hypoxia-induced VEGF mRNA and protein expression. The inhibitory effects of flavopiridol on VEGF mRNA induction also occurred in the presence of cycloheximide. The transcriptional activation of either a VEGF promoter-luciferase construct or a hypoxia-inducible factor 1 reporter plasmid was not affected by addition of flavopiridol in transient transfection experiments. In contrast, actinomycin D experiments demonstrated that flavopiridol dramatically decreased VEGF mRNA stability. These data provide the first evidence that flavopiridol can affect gene expression by altering mRNA stability. We propose that flavopiridol may interfere with one or more signaling events, leading to hypoxia-induced, protein kinase-modulated, RNA protein binding activity. An important clinical implication of our results is that flavopiridol, presently under investigation in clinical trials, might have antiangiogenic as well as direct antiproliferative effects.

Human Harvey-ras is biochemically different from Kirsten- or N-ras.

The biochemical effects of the human H-, N- and K-ras oncogenes were studied. We analysed the induction of c-fos mRNA and protein by the protein kinase C (PKC) activator 12-O-tetradecanoyl-phorbol-13-acetate (TPA) in exponentially growing NIH3T3 fibroblasts transformed by transfection with ras oncogenes. We found that H-ras has the unique ability to inhibit c-fos induction by TPA. In contrast, normal c-fos expression was induced by TPA in fibroblasts transformed by N- or K-ras or by the ras-unrelated oncogenes dbl and trk. The inhibition of c-fos induction by H-ras was not due to alteration in the binding of TPA to the transformed cells or to the selection of idiosyncratic clones. These results provide clear evidence that H-ras is functionally different from K- or N-ras.

The strain of mouse and assay conditions influence whether MuIFN-gamma primes or activates macrophages for tumor cell killing.

Investigators from two different laboratories have compared several variables in the short-term macrophage-mediated cytotoxicity assays used by each group to study the role of MuIFN-gamma in macrophage activation. The findings suggest that the capacity of MuIFN-gamma to activate macrophages without the need for a second triggering stimulus is related to assay conditions and, most especially, the strain of mouse used to provide the macrophages.

Genetic resistance/susceptibility to mycobacteria: phenotypic expression in bone marrow derived macrophage lines.

Congenic strains of mice susceptible (B10A.Bcgs) or resistant (B10A.Bcgr) to BCG were established. Here we describe the model system which has been established to analyze the functional activities of macrophages in the two strains. We have immortalized bone marrow macrophages from B10A.Bcgs and B10A.Bcgr congenic strains of mice and derived cloned macrophage lines designated B10S and B10R, respectively. B10R and B10S cell lines exhibited surface markers and morphology typical of macrophages. B10S and B10R were similar in their phagocytic activity, in their level of c-fms, in their transforming growth factor beta (TGF beta) mRNAs expression, and in their expression of tumoricidal activity in response to interferon-gamma (IFN gamma) plus lipopolysaccharides (LPS). However, B10R macrophages expressed a higher level of la mRNA when activated with IFN gamma compared with B10S macrophages. Analysis of the bacteriostatic activity of the two cell lines revealed that B10R macrophages were much more active in inhibiting Mycobacterium smegmatis replication than B10S. To measure the intracellular destruction of bacilli, a bactericidal assay based on hybridization with an oligonucleotide probe specific for mycobacterial ribosomal RNA was designed. The results demonstrated that B10R macrophages were endowed with enhanced constitutive bactericidal activity as compared with B10S. In conclusion we have obtained macrophage lines from bone marrow of B10A.Bcgs and B10A.Bcgr mice that express to a similar extent functional and phenotypic characteristics of macrophages. However, we demonstrate that relative to B10S macrophages, the B10R macrophages have higher expression of la mRNA and that they are constitutively more active in expressing mycobactericidal activity.

Interleukin-2 and human monocyte activation.

The recognition of the monocyte/macrophage-activating properties of IL-2 has broadened our image of the biological effects of this lymphokine from those of a T cell growth factor to those of a molecule with pleiotropic effects. The detailed analysis of the mechanisms of action of IL-2 including its biological effects on different cell types and the regulation of its receptors has increased dramatically the spectrum of the biological responses that can be modified by IL-2. The regulation of the expression of the IL-2 receptor subunits differs in terms of response to extracellular stimuli and intracellular control, suggesting that the response to IL-2 will vary depending on the nature and extent of environmental stimulation. Furthermore, the fact that the IL-2R gamma chain can be part of the receptor for IL-4, IL-7, and perhaps other cytokines indicates that IL-2 may modulate the response of monocytes simply by binding or releasing the IL-2R gamma chain and thus modulating the responsiveness to IL-4 or IL-7. Conversely, the extent of utilization of IL-2R gamma chain by various cytokines may dictate the monocytic response to IL-2. In fact, the availability of IL-2R gamma chain seems to be the limiting factor in the response of monocytes to IL-2. Modulation of cytokine receptors is an integral part of the control of the IL-2 response. The induction of CSF-1 receptor by IL-2 and the positive effect of CSF-1 on the duration of the cytotoxic response in IL-2-stimulated monocytes are an interesting example of a synergistic interaction of potential physiological relevance. The response of monocytes to IL-2 can also be modulated by inhibitory circuits, such as those involving TGF-beta 1, IFN-gamma, and IL-4. However, IFN-gamma and IL-4 can also activate monocytes and the timing and relative concentrations of the various cytokines may be critical variables in determining the ultimate monocyte phenotype. These studies have given us a glimpse of a very complex picture composed of multiple backgrounds and several players. However, the present information is not sufficient to make meaningful predictions of the resulting monocyte phenotype in an inflammatory reaction in which multiple cytokines are involved.(ABSTRACT TRUNCATED AT 400 WORDS)

Comparison of five short-term assays that measure nonspecific cytotoxicity mediated to tumor cells by activated macrophages.

Five different short term assays (less than 48 h) used to measure macrophage-mediated, nonspecific cytotoxicity were compared under similar conditions in the same laboratory using the same reagents. The purpose was to determine the extent to which results were comparable. Three of the assays were dependent on the release of a radioisotope to measure cytotoxicity, one was dependent on cell counting, and the last was dependent on flow cytometric quantification of remaining viable tumor target cells after they had been exposed to macrophages. The variables examined were the following: three different populations of macrophages; four different kinds of target cells; two types of radioisotopes; and two different agents that trigger the expression of cytolytic activity by primed macrophages. Recombinant gamma interferon was used as the priming agent in all the experiments. There was unexpectedly good agreement between the results of the various assays. No differences were found among the different macrophage populations, the isotopes or the triggering agents. Perhaps the most important finding was that differences in target cell susceptibility to killing by activated macrophages, which were apparent in assays of less than 24 h duration, disappeared when the same kinds of targets were compared in assays of greater than 40 h duration. The results of this study are an important first step toward standardizing the way in which macrophage-mediated, nonspecific cytotoxicity is measured in short-term assays, laboratory to laboratory.

LPS-inducible nuclear factor in human monocytes that binds the negative regulatory element of the HIV LTR.

We studied the constitutive and lipopolysaccharide (LPS)-induced expression of nuclear protein binding to the negative regulatory element (NRE) of the human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR) in fresh human monocytes. We demonstrated the existence of a constitutive factor binding to the NRE 73-bp HpaII/HpaII fragment (-216 to -143) whose expression is up-regulated by LPS treatment. Competition experiments with overlapping oligonucleotides covering the HpaII/HpaII fragment and with mutated oligonucleotides mapped the binding within the TTTCATCAC region (-171 to -163). This binding pattern is unique to human monocytes.