Showing papers on "Interferon published in 1985"

Characterization of receptors for human tumour necrosis factor and their regulation by γ-interferon

Abstract: Tumour necrosis factors, TNF-α and TNF-β (previously called lymphotoxin), are the products of activated monocytes and lymphocytes, respectively, and both have recently been purified, sequenced and cloned by recombinant DNA methods1–5, revealing 35% identity and 50% homology in the amino-acid sequence. Both proteins have been found to be specifically toxic to many tumour cells. Furthermore, it has been reported that various interferons are synergistic with TNF for anti-tumour effects in vitro6–8, while activities attributed to the two proteins have also been shown to necrotize various tumours in vivo2,3,9. We have now prepared 125I-labelled highly purified recombinant human TNF-α to study in detail its binding to the human cervical carcinoma cell line ME-180. Our results indicate that there is a single class of specific high-affinity receptors for TNF on this cell line which has a Kd of about 0.2 nM and an average of 2,000 receptor sites per cell. The binding of labelled TNF-α to these cells can be inhibited by both TNF-α and TNF-β but not by γ-interferon (IFN-γ). However, preincubation of cells with IFN-γ increases the total number of TNF receptors two to threefold without any significant change in the affinity constant. This is the first report that TNF-α and -β share a common receptor and that the receptors can be up-regulated by interferon. Our results may explain previous observations regarding similar biological activities observed for these two cytotoxic proteins and also their synergistic action with interferons.

Gamma interferon is spontaneously released by alveolar macrophages and lung T lymphocytes in patients with pulmonary sarcoidosis.

Abstract: Gamma interferon (IFN gamma) is a potent immune mediator that plays a central role in enhancing cellular immune processes. This study demonstrates that while lung mononuclear cells from normal individuals spontaneously release little or no interferon (less than 10 U/10(6) cells per 24 h), those from patients with pulmonary sarcoidosis spontaneously release considerable amounts (65 +/- 20 U/10(6) cells per 24 h, P less than 0.02 compared to normals). Furthermore, cells from patients with active disease release far more interferon than those from patients with inactive disease (101 +/- 36 compared to 24 +/- 8 U/10(6) cells per 24 h, P less than 0.02). Characterization of this interferon using acid sensitivity, specific antibody inhibition, and target cell specificity criteria demonstrated that it was almost entirely IFN gamma. This spontaneous release of IFN gamma appeared to be compartmentalized to the lung of these patients in that their blood mononuclear cells spontaneously released little or no IFN gamma (P less than 0.02, compared to sarcoidosis lung mononuclear cells) and no IFN gamma was detected in their serum. Both lung T lymphocytes and alveolar macrophages contributed to the spontaneous release of IFN gamma by lung mononuclear cells from sarcoid patients; purified preparations of T lymphocytes and alveolar macrophages from these patients spontaneously released similar amounts of IFN gamma (56 +/- 21 and 32 +/- 11 U/10(6) cells per 24 h, respectively, P greater than 0.3). At least one role for IFN gamma in the pathogenesis of sarcoidosis appeared to be related to activation of alveolar macrophages, as alveolar macrophages recovered from patients with active disease spontaneously killed [3H]uridine-labeled tumor cell targets (17.7 +/- 4.5% cytotoxicity compared with 2.8 +/- 0.9% in normals, P less than 0.02) and purified IFN gamma enhanced the ability of alveolar macrophages from sarcoidosis patients with inactive disease to kill similar targets (P less than 0.001, compared to alveolar macrophages cultured in medium alone). Treatment of sarcoid patients with corticosteroids, a therapy known to suppress the activity of the disease, caused a marked reduction in the level of spontaneous IFN gamma release by lung mononuclear cells compared with untreated patients (P less than 0.02), which suggests that the effectiveness of corticosteroid therapy in controlling active pulmonary sarcoidosis may, at least in part, be due to suppression of IFN gamma release.

alpha-Interferon-induced transcription of HLA and metallothionein genes containing homologous upstream sequences.

Abstract: Complementary DNAs corresponding to the interferon (IFN)-induced messenger RNAs for histocompatibility locus antigens (HLA), metallothionein-II (MT2), 2',5'-oligoadenylate synthetase and about eight other proteins of unknown sequence have been isolated recently, and by interferon regulation of transcription has been demonstrated for several of the eight mRNAs, with a significant increase apparent in as little as 5 min. We now show that IFN-alpha treatment results in a three- to fivefold increase in the transcription of MT2 and HLA class I genes in human T98G neuroblastoma cells. Furthermore, comparison of regions upstream of the MT2A gene, two HLA genes and one HLA class II gene reveals a homologous sequence of approximately 30 base pairs (bp) which may be involved in regulating transcription of interferon-induced genes. Transcription of the mRNA for human MT2A is induced by glucocorticoids or metal ions and the regulatory elements have been mapped by promoter-fusion experiments. We now show that the rate of transcription of MT2A is the same on treatment with interferon or dexamethasone, but that the mRNA accumulates much faster with dexamethasone, indicating that post-transcriptional events are important in the latter case.

Markedly decreased expression of class I histocompatibility antigens, protein, and mRNA in human small-cell lung cancer.

Abstract: We have found markedly deficient expression of the class I major histocompatibility antigens HLA-A,B,C and beta 2m on human small-cell lung cancer (SCLC) lines and fresh tumor samples. The deficit of HLA-A,B,C and beta 2-microglobulin (beta 2m) antigen expression was demonstrated with both radiobinding assays and indirect immunofluorescence assays. Immunoprecipitation of metabolically labeled cells with antibodies to class I antigens showed most SCLC lines to have synthesized almost no beta 2m and HLA-A,B,C proteins. Northern blot analysis, using human HLA-A,B, and beta 2m cDNA probes, showed that almost all SCLC lines tested had markedly decreased amounts of HLA and beta 2m mRNA, but both gene products could be induced with interferon treatment of SCLC lines. We conclude that human SCLC, in contrast to other lung cancer types, is characterized by greatly reduced transcription of HLA-A,B,C and beta 2m genes, which suggests the existence of a mechanism for evading the host immune response to the tumor and of an E1a-like product in this type of tumor cell.

Biological activity of liposome-encapsulated murine interferon gamma is mediated by a cell membrane receptor.

Abstract: Recombinant murine gamma interferon (rMuIFN-gamma) was found to bind reversibly to a specific high-affinity surface receptor on L929 cells; neither murine alpha or beta nor human gamma IFN competed for receptor binding. Encapsulation of the rMuIFN-gamma in either negatively or positively charged liposomes reduced its immediate ability to bind to this surface receptor. Disruption of liposome integrity with detergent resulted in full ability of the rMuIFN-gamma to bind to the membrane receptor. Incubation of the liposomal IFN in serum-containing medium resulted in significant leakage so that the IFN was able to bind to its surface receptor. Assessment of the biological activity of the rMuIFN-gamma preparations revealed that full antiviral activity was observed in vitro with the liposomal IFN preparations without their prior disruption by detergent. The antiviral activity observed with either free or liposomal IFN was neutralized completely by antibodies against rMuIFN-gamma. Both free and liposomal rMuIFN-gamma, in conjunction with bacterial lipopolysaccharide, were also able to activate murine peritoneal macrophages to the tumoricidal state. Again, this activity of both free and liposomal IFN could be neutralized completely by antibody. These results indicate that although rMuIFN-gamma can be effectively incorporated into liposomes, it must ultimately leak out of the liposome in order to mediate its biological effects; these effects are triggered after the IFN binds to its cell surface receptors.

Close link between reduction of c-myc expression by interferon and, G0/G1 arrest.

Abstract: It has recently been reported that c-myc is an inducible gene, regulated directly by growth signals which promote proliferation and expressed in a cell-cycle dependent manner Because various leukaemic cell lines express high levels of c-myc messenger RNA, it was of interest to discover whether the gene could be down-regulated in these cells by a growth inhibitor such as interferon (IFN) We show here that in Daudi Burkitt's lymphoma cells, IFN-alpha produces a five- to sevenfold reduction in c-myc mRNA through a decreased rate of c-myc gene transcription By isolating a growth-resistant Daudi cell variant that had escaped from this down-regulation, we provide the first clear link between reduction of c-myc mRNA and the IFN-mediated G0/G1 arrest characteristic of Daudi cells Furthermore, by screening other cell lines, we demonstrate the heterogeneity of human leukaemic cells with respect to these criteria Thus, IFN-alpha fails to reduce the c-myc mRNA and to change the cell-cycle distribution in HL-60 and U937 cells, although normal induction of other IFN-regulated activities takes place The latter group of cells shows a decline in c-myc gene expression when they become arrested in the G0/G1 phase as part of their terminal differentiation

Interferon is a mediator of hematopoietic suppression in aplastic anemia in vitro and possibly in vivo.

Abstract: We have investigated interferon as a mediator of hematopoietic suppression in bone marrow failure. Interferon production by stimulated peripheral blood mononuclear cells from patients with aplastic anemia was significantly higher than that observed in controls; spontaneous interferon production by these cells was also high for more than half of aplastic anemia patients. Circulating interferon, not detectable in normal individuals, was detected in 10 of 24 patients. Interferon is a potent inhibitor of hematopoietic cell proliferation and, therefore, may be the mediator of suppression in many in vitro models employing patients' cells and sera. The possible pathogenic importance of interferon in aplastic anemia was suggested by an increase in hematopoietic colony formation in vitro after exposure of bone marrow cells to antiinterferon antisera (277 +/- 71% increase for patients compared to 1.6 +/- 1.6% for normal individuals). Interferon levels in the bone marrow sera of aplastic anemia patients were high (mean = 203 international units (IU)/ml, n = 8), even in comparison to circulating levels in the same patients. Normal bone marrow sera also contained measurable interferon but at lower levels (41 IU/ml, n = 16), indicating that interferon may be a normal bone marrow product. High concentration of bone marrow interferon, possibly due to abnormal immunologic activity or a reaction to virus infection of the bone marrow, may mediate hematopoietic suppression in aplastic anemia patients.

Regulation of cell proliferation and differentiation by interferons.

Abstract: The interferons are a widely studied group of proteins which were first identified by their ability to protect cells against virus infections (Stewart, 1979). They are synthesized and secreted by a variety of cell types in response to several classes of inducers (notably virus infections) and exert their effects in vivo as a result of interaction with other cells in distant parts of the body. In this sense the interferons are analogous to the polypeptide hormones. A functional similarity with hormones is further emphasized by the recent identification in target cells of specific membrane receptors for interferons and by the multiplicity of biological effects which result from the interactions of the interferons with these receptors. In recent years it has become clear that the interferons are capable of influencing cellular physiology and behaviour in a number of ways. Their effects include inhibition of cell growth and proliferation, regulation of the expression of specific genes, modulation of cell differentiation, and activation of certain cell types in the immune system (e.g. macrophages and natural killer cells). The mechanisms underlying the antiviral actions of the interferons have been widely studied and frequently reviewed (Baglioni, 1979; Hovanessian, 1979; Lengyel, 1982; Sen, 1982). In contrast, information concerning the effects of interferons on cell proliferation and differentiation has only been obtained during the last decade, as our understanding ofmechanisms ofgrowth regulation and gene expression in eukaryotes in general has increased. This review aims to summarize the current situation regarding these actions of the interferons and suggests areas in which our perception of such control of cell function may be expected to increase.

Interferons as macrophage-activating factors. III. Preferential effects of interferon-gamma on the interleukin 1 secretory potential of fresh or aged human monocytes.

Abstract: Human peripheral blood adherent leukocytes incubated with interferon (IFN) of three different species (alpha, beta, or gamma) show an enhanced potential of IL 1 synthesis and secretion that can be revealed by a second signal provided by endotoxins or Poly IC. We have shown that recombinant IFN-gamma, compared with recombinant IFN-alpha or purified IFN-beta, has preferential effects on IL 1 secretion in fresh monocyte cultures. We have observed a progressive and profound loss of the ability of adherent cell cultures to secrete IL 1 upon aging for 4 to 12 days in vitro. IFN-gamma was found to be more efficient than IFN-alpha or -beta at maintaining (when added at the onset of the cultures) or reversing the loss (when added on the fourth day of culture) of the IL 1 secretory function. These observations suggest that the secretion of IFN-gamma during the course of immune responses may have a critical role in feeding back the cascade of interleukins in a loop of amplification, and may thereby regulate macrophage-T lymphocyte interactions.

Homogeneous interferon-inducing 22K factor is related to endogenous pyrogen and interleukin-1

Abstract: In vitro stimulation of mononuclear cells from human peripheral blood with mitogens causes the release of factors (monokines and lymphokines) which possess distinct biological activities. One such factor, termed 22K, can induce production of human beta-interferon (HuIFN-beta) in cultured human fibroblasts, thereby rendering these cells resistant to virus infection. Here we report the complete purification and partial sequencing (39 N-terminal amino acids) of this factor, whose relative molecular mass was estimated by SDS-polyacrylamide gel electrophoresis to be 17,000 (17K). In addition to an antiviral effect, the pure protein exhibits several other biological activities. Most significantly, intravenous (i.v.) injection of the factor in rabbits caused fever and granulopenia at doses of 0.1-1 microgram per kg, effects which we attribute to a monokine called endogenous pyrogen (EP). In vitro, the protein was scored as positive in a LAF (lymphocyte-activating factor) assay at 0.1-1 ng ml-1. LAF and EP are considered to be members of one family of monokines, called interleukin-1 (IL-1). For this reason, and also because the amino-acid sequence of the 22K factor is at least partially homologous to a complementary DNA-derived IL-1 sequence, we postulate that the 22K factor also belongs to the IL-1 family.

Impaired production of gamma-interferon by newborn cells in vitro is due to a functionally immature macrophage.

Abstract: The decreased production of gamma-(PHA-induced) interferon (IFN) by leukocytes of normal newborns could be due to functionally immature T cells, macrophages, or both. We studied gamma-IFN production by macrophages and T cells, alone and in combination, obtained from 50 cord blood samples and 14 adult blood samples in a series of experiments. Adherent macrophages were cultivated for 7 days before the addition of T cells. After 48 hr, PHA-stimulated macrophage-T cell supernatants were harvested and assayed for IFN by a microassay. Macrophage-T cell cultures of autologous and nonautologous cells in 14 adults showed enhanced IFN production (GMT 121 +/- 5 IU) as compared with Ficoll-Hypaque mononuclear cells (GMT 42 +/- 5 IU). No IFN was detected in supernatants from PHA-stimulated Ficoll-Hypaque cord cells alone or macrophage-T cord combined cultures. Combined cord macrophages and adult T cells produced minimal IFN (GMT 13 +/- 3 IU); however, cord T cells combined with adult macrophages showed enhanced IFN production (GMT 195 +/- 47 IU). This cord macrophage dysfunction was not due to an inhibitor and improved with the time of in vitro cultivation. These results indicate that the neonatal macrophage is primarily responsible for the impaired gamma-IFN response by the newborn cells.

Bone marrow-derived macrophages: development and regulation of differentiation markers by colony-stimulating factor and interferons.

Abstract: To investigate the role of specific cytokines in the development of the fully mature macrophage, we have employed murine bone marrow cells that were grown in the presence of CSF-1, a colony-stimulating factor that has been shown to induce the proliferation and differentiation of macrophages from their precursor cells. The CSF-1 employed in these studies was partially purified to ensure removal of contaminating interferon (IFN) from the preparations. After 1 to 2 wk in the presence of the partially purified CSF-1, the adherent macrophages were removed from flasks enzymatically and were recultured at known densities in the absence of CSF-1. Cell surface antigens (Mac-1 and Ia) and Fc receptor capacity (as assessed by Fc-mediated phagocytosis) were examined as markers of macrophage differentiation. Basal levels of Fc receptor capacity and Mac-1 antigen were markedly influenced by exposure to CSF-1, and appear to be modulated by CSF-induced, macrophage-derived IFN. When the bone marrow-derived macrophages were exposed to exogenous IFN in the absence of CSF-1, they proved to be extremely inducible with respect to Fc-mediated phagocytosis (IFN-beta and rIFN-gamma) and Ia antigen expression (rIFN-gamma) when compared with thioglycollate-elicited macrophages. Thus, macrophage growth factors, such as CSF-1, promote macrophage maturation by inducing the production of autostimulatory signals, such as macrophage-derived IFN. In addition, exogenous cytokine stimuli, such as IFN-gamma, further amplify the differentiative potential of these cells. Bone marrow-derived macrophages, propagated under well-defined conditions and never exposed to eliciting agents, provide a powerful model for studying the role of cytokines, such as CSF-1 and IFN, in the differentiative pathway of macrophages.

Increased rate of degradation of c-myc mRNA in interferon-treated Daudi cells

Abstract: The recent observation made in our laboratory that cellular myc (c-myc) mRNA has a very short half-life in a variety of normal and transformed human cells emphasized the potential importance of post-transcriptional regulation of c-myc gene expression. Jonak and Knight [Jonak, G. J. & Knight, E., Jr. (1984) Proc. Natl. Acad. Sci. USA 81, 1747-1750] have reported a selective reduction of c-myc mRNA accumulation in lymphoblastoid Daudi cells treated with human beta interferon. This provided a suitable situation in which to examine a possible action of negative modulators of c-myc expression at the level of mRNA stability. Our results confirm the observation by Jonak and Knight that c-myc mRNA level is depressed in cells treated with beta interferon and extend it to alpha 2 interferon. Furthermore, we now demonstrate that interferon has no effect on c-myc transcription rate in isolated nuclei but rather reduces the half-life of its mRNA. Conversely, we show that it increases the level of HLA-A2 mRNA by stimulating its transcription.

YAC-1 MHC class I variants reveal an association between decreased NK sensitivity and increased H-2 expression after interferon treatment or in vivo passage.

Abstract: Two H-2 negative variants of the YAC-1 lymphoma were selected by mutagenization and sequential in vitro selections and compared with wild-type cells for changes in NK sensitivity and H-2 expression after interferon treatment or in vivo passage. The H-2 negative variants and the low H-2 expressor YAC-1 wild-type cells had similar NK sensitivity. However, IFN-beta or recombinant IFN-gamma pretreatments increased the H-2 expression of YAC-1 and protected them from NK lysis, whereas the H-2 variants, which remained H-2 negative, were not protected and often more sensitive to NK lysis. The H-2 variants were similarly susceptible as wild-type cells to three other cellular effects of interferon: protection from virus infection, modulation of Con A capping, and inhibition of cell proliferation. Thus, the only interferon-mediated effect that distinguished the H-2 negative variants from wild-type cells was the inability of the former to increase their H-2 expression and decrease their NK sensitivity. The wild-type YAC-1 line showed increased H-2 expression and decreased NK sensitivity after in vivo passage. In contrast, in vivo passaged H-2 variants showed no reexpression of H-2, and remained NK sensitive. The altered responses to interferon and in vivo passage were specific for loss or down-regulation of H-2, because Thy-1 loss (H-2 positive) YAC-1 variants behaved as the wild-type cells in all respects. This study supports the hypothesis that NK cells may function in vivo to eliminate host cells that fail to express H-2 after interferon stimulation during an immune response; such cells are a potential threat because they may escape recognition by T lymphocytes despite the expression of viral or tumor-associated antigens.

Inhibition of influenza viral mRNA synthesis in cells expressing the interferon-induced Mx gene product.

Abstract: Interferons alpha and beta induce an efficient antiviral state against influenza virus in mouse cells that possess the Mx gene, but not in mouse cells that lack this gene. In Mx-containing cells treated with interferon the amount of viral mRNA synthesized as a result of primary transcription is drastically reduced. Only two viral mRNAs could be detected by Northern analysis and by translating the poly(A)+ RNA from infected cells in wheat germ extracts: a reduced amount of the mRNA for nonstructural protein 1 and an even lower amount of the mRNA for the matrix protein. The other viral mRNAs were not made in detectable amounts. In addition, the rate of viral mRNA synthesis catalyzed by the inoculum transcriptase, measured by in vitro RNA synthesis catalyzed by permeabilized cells, was severely inhibited. In contrast, interferon treatment of cells lacking the Mx gene had little or no effect on either the steady-state level or the rate of synthesis of viral mRNAs made by the inoculum transcriptase. These results indicate that the interferon-induced Mx gene product, a 75,000-molecular-weight protein that accumulates in the nucleus, inhibits influenza viral mRNA synthesis which occurs in the nucleus. No Mx-specific effect acting directly on viral protein synthesis in the cytoplasm was observed.

Poliovirus mutant that does not selectively inhibit host cell protein synthesis.

Abstract: A poliovirus type I (Mahoney strain) mutant was obtained by inserting three base pairs into an infectious cDNA clone. The extra amino acid encoded by the insertion was in the amino-terminal (protein 8) portion of the P2 segment of the polyprotein. The mutant virus makes small plaques on HeLa and monkey kidney (CV-1) cells at all temperatures. It lost the ability to mediate the selective inhibition of host cell translation which ordinarily occurs in the first few hours after infection. As an apparent consequence, the mutant synthesizes far less protein than does wild-type virus. In mutant-infected CV-1 cells enough protein was produced to permit a normal course of RNA replication, but the yield of progeny virus was very low. In mutant-infected HeLa cells there was a premature cessation of both cellular and viral protein synthesis followed by a premature halt of viral RNA synthesis. This nonspecific translational inhibition was distinguishable from wild-type-mediated inhibition and did not appear to be part of an interferon or heat shock response. Because the mutant is recessive, our results imply that (at least in HeLa cells) wild-type poliovirus not only actively inhibits translation of cellular mRNAs, but also avoids early inhibition of its own protein synthesis. Cleavage of the cap-binding complex protein P220, which has been associated with the selective inhibition of capped mRNA translation, did not occur in mutant-infected cells. This result supports the hypothesis that cleavage of P220 plays an important role in normal poliovirus-mediated translational inhibition.

The interaction of murine IgG subclass proteins with human monocyte Fc receptors.

Abstract: The use of murine monoclonal antibodies in the immunotherapy of human disease has prompted interest in the interactions of murine IgG with Fc receptors (FcR) expressed on human effector cells. We examined the heterocytophilic interactions between monomeric murine IgG subclass proteins and the FcR expressed on human monocytic cells (peripheral blood monocytes and interferon (IFN)-gamma-induced U937 cells). All four murine IgG2a antibodies and both murine IgG3 antibodies that were tested bound to human monocyte FcR with high affinity (10(8) to 10(9) M-1). By contrast, the affinities of four murine IgG1 and four IgG2b monomers were 100-fold to 1000-fold lower than the affinity of the human IgG1-FcR interaction. A 68,000 to 72,000 dalton protein was isolated by affinity chromatography from blood monocytes and from IFN-gamma-induced U937 cells on murine IgG2a, IgG3, and human IgG immunoadsorbents. In binding assays with IFN-stimulated U937 cells, murine IgG2a and IgG3 antibodies showed complete cross-blocking with a human IgG1 myeloma protein, indicating that murine and human IgG interact with the same population of Fc-binding proteins. No evidence for heterogeneity of cross-reactive FcR was observed. The ability of murine IgG2a and IgG3 monomers to compete with human IgG1 monomers for binding to human monocyte FcR suggests the potential usefulness of antibodies of these isotypes in the immunotherapy of diseases in which monocyte- or macrophage-mediated, antibody-dependent cellular cytotoxicity may play a role in the modification or remission of disease.

Comparative effects of various classes of mouse interferons on macrophage activation for tumor cell killing.

Abstract: The effects of mouse interferon-alpha (MuIFN-alpha), -beta (MuIFN-beta), and -gamma (MuIFN-gamma) on macrophage activation for tumor cell killing were determined by using proteose peptone-elicited peritoneal macrophages from C3H/HeN and C3H/HeJ mice under conditions that either included or were free of detectable endotoxin. Alone, under the conditions used, none of the interferons was able to activate macrophages directly for tumor cell killing. However, with a second signal provided to responsive macrophages by contaminating endotoxin, added bacterial lipopolysaccharide (LPS), or heat-killed Listeria monocytogenes (HKLM), all three types of interferon induced cytolytic activity, with MuIFN-gamma approximately 500 to 1000-fold more active than either MuIFN-alpha or -beta. Thus, all three interferons were able to prime macrophages for killing but required a second signal before cytolytic activity could be expressed. When MuIFN-gamma was mixed with either MuIFN-alpha or -beta and placed on macrophages, little or no killing developed. Mixtures of MuIFN-gamma with either MuIFN-alpha or -beta did increase the sensitivity of macrophages to triggering by LPS, however, compared with macrophages treated with MuIFN-gamma alone. The results are collectively important because they i) confirm that significant quantitative differences exist between the various interferons with regard to their capacity to prime macrophages for tumor cell killing; ii) indicate that to be an efficient activator each type of interferon must be combined with a second stimulus, such as LPS or HKLM; iii) show that neither MuIFN-alpha nor -beta can provide an efficient second triggering signal for macrophages that are primed by MuIFN-gamma; and iv) document that mixtures of MuIFN-gamma with either MuIFN-alpha or -beta are most efficient at inducing priming, compared with any one of the interferons used alone.

Chronic Lymphocytic Leukemia: Recent Advances in Biology and Treatment

Abstract: Chronic lymphocytic leukemia is a hematologic neoplasm characterized by proliferation and accumulation of mature-appearing lymphocytes. Most cases involve a clonal proliferation of B lymphocytes. The cells typically have low levels of surface immunoglobulin; usually mu or mu and delta heavy chains, and either kappa or lambda light chains. The cells also show receptors for mouse erythrocytes, Fc receptors for IgG, complement receptors, Ia antigens, and B-cell-associated antigens. Although chronic lymphocytic leukemia is usually a stable disease over months to years, transformation of both clinical and biological features may occur. Prognostic factors include the leukemia cell count (greater than 40 X 10(9)/L), anemia, thrombocytopenia, chromosome abnormalities, and the pattern of bone marrow involvement. Alkylating agents, radiation therapy, and corticosteroids are commonly used to treat patients with chronic lymphocytic leukemia. Although these agents are useful, few data show that survival has been substantially improved. Recently, biological response modifiers such as monoclonal antibodies and interferon have been studied.

Combined recombinant human interferon alpha2 and cytotoxic agents studied in a clonogenic assay

Abstract: A human tumor clonogenic assay has been used to test the antiproliferative effect of recombinant human leukocyte interferon alpha2 alone and in combination with each of 8 cytotoxic agents. Cell lines derived from 6 human tumors and primary tumor cells from 13 patients have been used in these clonogenic assay studies. Results show that interferon as a single agent causes insignificant reduction in tumor cell colony survival if the short-term 1-hr cell exposure method is used; only high concentrations of interferon used in continuous cell exposure in the clonogenic assay can demonstrate a reduction in colony survival to below 50% of control values. Combinations of interferon with either doxorubicin or cisplatin frequently show additive and occasionally synergistic antiproliferative effects on tumor cell colony formation. Variations in drug concentrations and sequencing of drugs have been tested, showing that optimal antiproliferative effects of combined interferon and doxorubicin are realized when maximal concentrations of interferon and prolonged cell exposure time of both interferon and doxorubicin are employed. Combinations of interferon and doxorubicin tested in the clonogenic assay demonstrate cytotoxicity superior to that of either agent tested alone.

Intraepithelial lymphocytes of human gut: isolation, characterisation and study of natural killer activity.

Abstract: A method using a mechanical procedure for isolation of lymphocytes from the epithelium of human intestinal mucosa allows the study of some of their characteristics and functions. Most of the isolated cells are of the T lineage (E+ and T3+) and express the phenotype associated with cytotoxic-suppressor T cells (T8). A large number contain intracytoplasmic granules. Granules are stained with alcian blue (pH 2.2), are metachromatic with Toluidine blue (pH 4) and some are shown to incorporate 35sulphate, suggesting that they contain sulphated mucopolysaccharides. As these cells are similar in many respects to the large granular lymphocytes that mediate natural killer activity in the peripheral blood, their natural cytotoxicity was tested against K 562 target cells. No activity was detected among the human intraepithelial lymphocytes and treatments with known potentiators of natural killer activity, ie, interferon or PHA-depleted conditioned medium containing Il-2, failed to reveal any cytotoxic activity.

Inhibition of growth of Chlamydia trachomatis by human gamma interferon.

Abstract: Treatment of HEp-2 cell cultures with highly purified human gamma interferon before infection resulted in the reduction of Chlamydia trachomatis (L2/434/Bu) infectious particle yield. Electron microscope studies showed that interferon did not affect chlamydial conversion to reticulate bodies but influenced the extent of maturation to elementary bodies. High interferon concentrations (greater than 350 IU/ml) inhibited inclusion body formation and resulted in the appearance of aberrant reticulate bodies.

Monoclonal antibodies to an interferon-induced Mr 68,000 protein and their use for the detection of double-stranded RNA-dependent protein kinase in human cells.

Abstract: Extracts from interferon-treated human cells show an enhanced level of a double-stranded RNA-dependent protein kinase activity that is manifested by the phosphorylation of an endogenous Mr 69,000-72,000 protein in its phosphate-saturated state. By using a highly purified protein kinase fraction from interferon-treated human Daudi cells, we can now describe the preparation of murine monoclonal antibodies directed against this phosphoprotein, the Mr of which in its native state is found to be 68,000. These monoclonal antibodies (class IgG1) can identify the electrophoresed protein (p68) in polyacrylamide gels by the electrophoretic transfer blotting technique. Immunoprecipitates formed after incubation of extracts from interferon-treated human cells with the monoclonal antibodies can be conveniently recovered by protein A-Sepharose. Such immune complex preparations have associated protein kinase activity--i.e., addition of [gamma-32P]ATP results in the phosphorylation of p68 and added substrates, calf thymus histone, and eukaryotic initiation factor 2. Immune complex preparations from [35S]methionine-labeled extracts show the specific immunoprecipitation of p68. In addition, several other [35S]methionine-labeled proteins are bound unspecifically in these immune complexes prepared under similar experimental conditions as for the assay of protein kinase activity. These unspecifically bound proteins can be washed out by using a buffer containing detergents or high concentrations of KCl and magnesium acetate. Immune complex preparations washed similarly with these buffers still retain p68 but lose their capacity to phosphorylate p68 or exogenous substrates. These results indicate that p68 by itself has no protein kinase activity. The induction of [35S]methionine-labeled p68 in Daudi cells occurs with as little as 1 unit of human alpha interferon, with maximal synthesis between 6 to 9 hr after the addition of interferon. Actinomycin D blocks this induction.

Restricted replication of lentiviruses. Visna viruses induce a unique interferon during interaction between lymphocytes and infected macrophages.

Abstract: Lentivirus infections are characterized by a persistent, restricted type of virus replication in tissues. Using sheep and goat lentiviruses, whose target cells in vivo are macrophages, we explored virus-host cell interactions to determine whether an interferon (IFN) is produced during virus replication in vivo which causes restricted replication. We show that the lentiviruses were incapable of inducing IFN directly in any infected cell, including macrophages and lymphocytes. However, after infection with these viruses, sheep and goat macrophages acquired a factor that triggered IFN production by T lymphocytes. Only sheep/goat lentiviruses were capable of inducing the factor and, although these viruses replicated productively in various cell cultures of the natural host animal, only infected macrophages developed the IFN-inducing factor. The factor was produced continuously and was strictly cell associated, requiring direct contact with lymphocytes. The lymphocytes responded with a single, sudden release of IFN beginning 7 h after cocultivation and reaching peak values at 48 h, after which they ceased production and became refractory. IFN production was not immunologically specific and did not require histocompatibility between donors of the two cell types. The IFN is a nonglycosylated protein of molecular weight 54,000-64,000, and is stable to heat and acid treatments. These findings identify a unique IFN and a new method for virus induction of IFN. The novel two-stage process of induction provides a mechanism for local amplification and continuity of production of IFN in vivo. This is compatible with infection in the animal whose lentivirus-induced pathologic lesions consist of accumulations of lymphocytes and infected macrophages in target tissues.

Macrophage activation to kill Leishmania major: activation of macrophages for intracellular destruction of amastigotes can be induced by both recombinant interferon-gamma and non-interferon lymphokines.

Abstract: Macrophages treated with lymphokine (LK)-rich culture fluids from antigen- or mitogen-stimulated spleen cells or the hybridoma T cell 24/G1, or murine recombinant interferon-gamma (IFN-gamma) from either transfected monkey kidney cells (cos rIFN-gamma) or bacterial (E. coli) DNA (rIFN-gamma) developed the capacity to kill intracellular amastigotes of Leishmania major. Removal of IFN activity from LK by neutralizing fluid phase monoclonal anti-rIFN-gamma antibody, or by solid phase immunoadsorption, left residual macrophage activation factors that induced approximately 50% of the macrophage anti-leishmanial activity of untreated LK. In contrast, rIFN-gamma subjected to the same antibody treatments lost all capacity to induce this macrophage effector function. These results suggest that the intracellular destruction of amastigotes is regulated by several different factors. One of these factors is clearly IFN-gamma, which is pleiotropic in its effects on macrophage functions. The other non-IFN LK factors are immunochemically unrelated to IFN-gamma, and may regulate macrophage microbicidal activities in a more selective manner.