Interferon Receptor Expression Research Articles

Up-Regulation of Gamma Interferon Receptor Expression Due toChlamydia-Toll-Like Receptor Interaction Does Not Enhance Signal Transducer and Activator of Transcription 1 Signaling

Gamma interferon (IFN-gamma)-induced indoleamine dioxygenase (IDO), which inhibits chlamydial replication by reducing the availability of tryptophan, is up-regulated by interleukin-1beta (IL-1beta) and tumor necrosis factor alpha (TNF-alpha). The mechanisms by which this occurs include an increase in the synthesis of interferon regulatory factor-1 as well as a nuclear factor-kappaB (NF-kappaB)-dependent increase in the expression of IFN-gamma receptors (IFN-gammaR). Although Chlamydia is susceptible to IDO, it up-regulates IFN-gammaR expression to a greater degree than either IL-1beta or TNF-alpha, perhaps through interaction with Toll-like receptors (TLR). The purpose of this study was to determine the mechanism by which Chlamydia psittaci up-regulates IFN-gammaR expression and evaluate this effect on IDO induction. Infection of HEK 293 cells with C. psittaci increased IFN-gammaR expression only in cells expressing either TLR2 or TLR4 and the adaptor protein MD-2. In addition, up-regulation of IFN-gammaR expression in Chlamydia-infected HeLa cells could be blocked either by neutralizing TLRs with anti-TLR2 and/or anti-TLR4 or by inhibiting NF-kappaB transactivation with a proteasome inhibitor. Although the newly expressed IFN-gammaR in Chlamydia-infected cells were capable of binding IFN-gamma, they did not enhance IFN-gamma-induced IDO activity in a manner similar to those observed for IL-1beta and TNF-alpha. Instead, IDO activation in Chlamydia-infected cells was no different than that induced in uninfected cells, despite the increase in IFN-gammaR expression. Furthermore, the amount of IFN-gamma-induced signal transducer and activator of transcription 1 (STAT-1) activation in infected cells paralleled that observed in uninfected cells, suggesting that STAT-1 activation by these newly expressed receptors was impaired.

Expression of type I interferon receptor as a predictor of clinical response to interferon-α therapy of gastrointestinal cancers

Interferon (IFN) is used in the treatment of many malignancies and viral disorders. We recently reported a significant correlation between the efficacy of IFN-alpha combined with chemotherapy in the treatment of advanced hepatocellular carcinoma (HCC) and IFN-alpha/type I IFN receptor (IFNAR2) expression. It is possible that the expression of IFNAR2 in gastrointestinal cancerous tissue, apart from HCC, may predict the efficacy of IFN-alpha combination therapy. We investigated the expression of IFNAR2 in 100 gastrointestinal cancerous tissues. IFNAR2 expression was examined using immunohistochemistry, in surgically resected tissue samples (20 esophageal, 20 gastric, 20 colorectal, 20 cholangiocarcinoma, and 20 pancreatic samples). The expression rate of IFNAR2 was 35.0% (7/20), 25.0% (5/20), 20.0% (4/20), 45.0% (9/20), and 25.0% (5/20) in esophageal, gastric cancer, colorectal, cholangiocarcinoma and pancreatic cancer samples, respectively. In our previous report, the expression rate of IFNAR2 in HCC samples was 64.8% (59/91). Thus, the expression rates of IFNAR2 in the five types of gastrointestinal cancers tested here were low, compared with HCC. The clinical efficacy of IFN-alpha mono- or combination therapies in patients with gastrointestinal neoplasms is expected to be lower than in patients with HCC based on the expression level of IFNAR2.

Expression of interferon receptors in pancreatic cancer: Identification of a novel prognostic factor

Interferons (IFNs) are known to have antiproliferative and immunoregulatory activities that are modulated through specific cellular-surface ligands, known as IFN-alpha, -beta, and -gamma receptors. The presence of these receptors and their impact on survival in patients with pancreatic cancer has not been determined. Slides were prepared from 46 patients with pancreatic adenocarcinoma. Immunohistochemistry (IHC) was used subsequently to determine the expression of IFN-alpha/beta receptor-chain 2 (IFNalpha/betaR) and IFN-gamma receptor-chain 1 (IFNgammaR). The correlation among IFN-receptor expression, characteristics of neoplasms, and overall patient survival were determined analytically. The IHC performed for pancreatic adenocarcinoma demonstrated a high IFNalpha/betaR expression in 4% (2/46) of patients, moderate expression in 20% (9/46), and faint or no expression in 76% (35/46). IHC confirmed a high expression of IFNgammaR in 52% (24/46) of patients, moderate expression in 35% (16/46), and faint or no expression in the remaining 13% (6/46). A clinicopathologic survey failed to demonstrate any significant correlation between IFNalpha/betaR and IFNgammaR expression with regard to size of neoplasm, vascular or perineural invasion, lymph node metastases, or stage of disease. Kaplan-Meier survival analyses demonstrated a survival advantage in those patients whose neoplasms expressed moderate to high IFNalpha/betaR expression, compared with those with faint or no IFNalpha/betaR expression (22 vs 13 months; P = .012, log-rank test). The expression of IFNgammaR, however, had no impact on patient survival (20 months vs 17 months; P = .66, log-rank test). The IFNalpha/betaR is an independent prognostic factor in patients with pancreatic cancer.

Treatment of hepatocellular carcinoma with major portal vein thrombosis by combined therapy with subcutaneous interferon-α and intra-arterial 5-fluorouracil; role of type 1 interferon receptor expression

We previously reported the beneficial effects of combination therapy of interferon (IFN)-α/5-fluorouracil (FU) for advanced hepatocellular carcinoma (HCC) with tumour thrombi in the major portal branches. This report describes the results of longer follow-up and includes more than double the number of patients relative to the original report, and evaluates the role of IFN-α/type 2 interferon receptor (IFNAR2) expression on the response to the combination therapy. The study subjects were 55 patients with advanced HCC and tumour thrombi in the major branches of the portal vein (Vp3 or 4). They were treated with at least two courses of IFN-α/5-FU without major complication. In the 55 patients, 24 (43.6%) showed objective response (eight (14.5%) showed complete response, 16 (29.1%) partial response), four (7.3%) showed no response, and 27 (49.1%) showed progressive disease. Immunohistochemically, IFNAR2 expression was detected in nine out of 13 (69.2%) patients. There was significant difference in the time-to-progression survival (P=0.0002) and the overall survival (P<0.0001) between IFNAR2-positive and -negative cases. There was a significant correlation between IFNAR2 expression and response to IFN-α/5-FU combination therapy in univariate analysis (P=0.0070). IFN-α/5-FU combination therapy is a promising modality for advanced HCC with tumour thrombi in the major portal branches and could significantly depend on IFNAR2 expression.

Impaired Virus Control and Severe CD8+T-Cell-Mediated Immunopathology in Chimeric Mice Deficient in Gamma Interferon Receptor Expression on both Parenchymal and Hematopoietic Cells

Bone marrow chimeras were used to determine the cellular target(s) for the antiviral activity of gamma interferon (IFN-gamma). By transfusing such mice with high numbers of naive virus-specific CD8(+) T cells, a system was created in which the majority of virus-specific CD8(+) T cells would be capable of responding to IFN-gamma, but expression of the relevant receptor on non-T cells could be experimentally controlled. Only when the IFN-gamma receptor is absent on both radioresistant parenchymal and bone marrow-derived cells will chimeric mice challenged with a highly invasive, noncytolytic virus completely lack the ability to control the infection and develop severe wasting disease. Further, the study shows that IFN-gamma receptor expression on parenchymal cells in the viscera is more important for virus control than IFN-gamma receptor expression on bone marrow-derived cells.

A cytomegaloviral protein reveals a dual role for STAT2 in IFN-{gamma} signaling and antiviral responses.

A mouse cytomegalovirus (MCMV) gene conferring interferon (IFN) resistance was identified. This gene, M27, encodes a 79-kD protein that selectively binds and down-regulates for signal transducer and activator of transcription (STAT)-2, but it has no effect on STAT1 activation and signaling. The absence of pM27 conferred MCMV susceptibility to type I IFNs (α/β), but it had a much more dramatic effect on type II IFNs (γ) in vitro and in vivo. A comparative analysis of M27+ and M27 − MCMV revealed that the antiviral efficiency of IFN-γ was partially dependent on the synergistic action of type I IFNs that required STAT2. Moreover, STAT2 was directly activated by IFN-γ. This effect required IFN receptor expression and was independent of type I IFNs. IFN-γ induced increasing levels of tyrosine-phosphorylated STAT2 in M27− MCMV-infected cells that were essential for the antiviral potency of IFN-γ. pM27 represents a new strategy for simultaneous evasions from types I and II IFNs, and it documents an unknown biological significance for STAT2 in antiviral IFN-γ responses.

Expression of interferon receptors in pancreatic cancer: Identification a novel prognostic factor

Abstract Introduction: Interferons (IFN) are known to have antiproliferative and immunoregulatory activities that are modulated through IFN receptors. Methods: Expression of IFN-alpha/beta receptor-chain 2 (IFNalpha/betaR) and IFN-gamma receptor (IFNgammaR)-chain 1 was examined in 46 patients with pancreatic adenocarcinoma using immunohistochemistry (IHC). Correlation between IFN-receptor expression, tumor characteristics, and overall patient survival was analyzed. Results: The IHC performed for pancreatic adenocarcinoma demonstrated a high IFNalpha/betaR expression in 4.3% (2/46) of patients, moderate expression in 19.6% (9/46) of patients, and faint or no expression in 76.1% (35/46) of patients. IHC confirmed a high expression of IFNgammaR in 52.2% (24/46) of patients, moderate expression in 34.8% (16/46) of patients, and faint or no expression in the remaining 13% (6/46) of patients. By comparison, 28.2% (13/46) and 45.6% (21/46) of the corresponding non-cancerous pancreatic tissue showed a high expression of IFNalpha/betaR and IFNgammaR, respectively. Clinicopathological survey did not demonstrate a significant correlation between IFNalpha/betaR and IFNgammaR expression with regard to tumor size, vascular invasion, perineural invasion, lymph node metastasis, or stage of disease. However, Kaplan-Meier analysis demonstrated a significant survival advantage in those patients whose tumors expressed moderate-high IFNalpha/betaR expression compared to those with faint or no IFNalpha/betaR expression (22 months vs. 13 months; p=0.012, log rank test). The expression of IFNgammaR, however, had no impact on patient survival (20 months vs. 17 months; p=0.656, log rank test). Conclusions: IFNalpha/betaR is an independent prognostic factor in pancreatic cancer and is a potential candidate for biologic treatment of pancreatic cancer.

Expression of STAT proteins and interferon receptors in benign and malignant melanocytic lesions: Correlation with recurrence

7514 Introduction: While the mechanism of action of Interferon α-2b (IFNα) in melanoma is not clear, IFNα receptors are known to signal through the \(\underline{\mathrm{Ja}}\)nus \(\underline{\mathrm{K}}\)inase (JAK) - \(\underline{\mathrm{S}}\)ignal \(\underline{\mathrm{T}}\)ransducers and \(\underline{\mathrm{A}}\)ctivators of \(\underline{\mathrm{T}}\)ransduction (STAT) pathway in melanoma cell lines. STAT 3 has been implicated as a tumor promoter and STAT 1 as a growth suppressor in some preclinical studies. We examined the expression of STAT proteins and IFN receptors in human melanocytic neoplasms by immunohistochemistry Methods: Compound Nevi (6), dysplastic nevi (4), congenital nevi (2), primary melanoma (14) and melanoma metastatic to the (40) sentinel lymph node (SLN) were examined. All patients with SLN mets were treated with standard IFN. All specimens were evaluated for activated or phospho-Stat 1 (p-STAT-1), phospho-Stat 3 (p-STAT-3), and IFN receptor by immunohistochemistry. Staining was scored from 1–3 based on % of tumor cells staining and intensity of stained cells. The recurrence history of patients with SLN metastasis was determined using the Moffitt melanoma database. Results: Only 1/6 compound nevi, 0/4 dysplastic nevi and 0/2 congenital nevi expressed p-STAT-3 while 6/14 primary melanomas had p-STAT-3. A total of 28/40 SLN metastases had evaluable and stainable tumor. Of these 15/28 had high-level expression of p-STAT 3 but only 4/28 had activated p-STAT-1 expression. Most tumors (18/22) expressed IFN receptors. 12/28 patients have recurred to date. Patients who recurred were more likely to express high levels of activated STAT 3 (70% expressed 3+ p-STAT-3) than those who did not recur (30% expressed 3+ p-STAT-3). Conclusion: p-STAT-3 expression was infrequent in normal melanocytes or benign (8%) lesions but more frequent in cutaneous melanoma (42%) and SLN mets (53%) .IFN receptor was expressed in 81% of SLN melanoma mets. Increased p-Stat-3 and decreased p-STAT-1 were positively correlated with recurrence. IFN receptor expression was not correlated to recurrence in this small sample but all components of the IFN-JAK-STAT pathway are present in human melanoma No significant financial relationships to disclose.

Interferon receptor expression regulates the antiproliferative effects of interferons on cancer cells and solid tumors.

In addition to antiviral effects, Type I interferons (IFN) have potent antiproliferative and immunomodulatory activities. Because of these properties IFNs have been evaluated as therapeutics for the treatment of a number of human diseases, including cancer. Currently, IFNs have been shown to be efficacious for the treatment of only a select number of cancers. The reason for this is unclear. Recent evidence has demonstrated that some cancer cell types seem to be defective in their ability to respond to IFN. It has been suggested that defects in IFN signaling is one mechanism by which cancer cells escape responsiveness to Type I IFNs and growth control in general. We report that transfection and enhanced expression of the Type I IFN receptor chain (IFNAR2c) in 3 different human cancer cell lines markedly increases the sensitivity of these cells to the antiproliferative effects of IFNs. In cancer cells transfected with IFNAR2c, dose response curves demonstrate a significant decrease in the concentrations of IFN required to achieve maximum cell death. Furthermore, in these transfected cells, we observe a significant increase in the number of cells undergoing apoptosis, as measured by DNA fragmentation and Caspase 3 activation. In addition, using an in vivo xenograft tumor model we show an increase in the effectiveness of systemically delivered Betaseron in decreasing tumor burden in animals in which solid tumors were generated from IFNAR2c transfected cells. These data show that specific regulation of IFN receptor expression can play a major role in determining the clinical outcome of IFN-based cancer therapeutics by regulating the relative sensitivity of cancer cells to IFN-dependent growth control.

This month in J Lab Clin Med: Issue highlights for January 2003

This month in J Lab Clin Med: Issue highlights for January 2003

Synergistic induction of apoptosis by acyclic retinoid and interferon-β in human hepatocellular carcinoma cells

Acyclic retinoid, a synthetic retinoid analog, as well as interferon alfa (IFN-α) and IFN-β induce apoptosis in hepatocellular carcinoma (HCC) cells and are used clinically in the prevention of HCC. Here, we show that acyclic retinoid acts synergistically with IFNs in suppressing the growth and inducing apoptosis (as characterized by DNA fragmentation and chromatin condensation) in 5 human HCC cell lines (JHH7, HuH7, PLC/PRF/5, HLE, and HLF). This synergism was only observed when cells were pretreated with the acyclic retinoid, whereas natural retinoic acids (all- trans and 9- cis retinoic acid) were ineffective. This promotion may be due to up-regulation of type 1 IFN receptor (IFNR) expression by the retinoid. Accordingly, incubation with antitype 1 IFNR antibody abolished the synergy. Enhanced IFNR expression was accompanied by increased expression and DNA-binding activity of STAT1, an intracellular signal transducing molecule of IFNR, and increased induction of 2', 5'-oligoadenyl-5'-triphosphate synthetase, which is a target gene of STAT1. Acyclic retinoid did not have any effects on the growth of normal human hepatocytes (Hc) probably because of a lack of IFNR and STAT1 up-regulation. In conclusion, these results provide a rationale for combined biochemoprevention of HCC using acyclic retinoid and IFN-β. (H EPATOLOGY 2002;36:1115-1124.)

Loss of type I IFN receptors and impaired IFN responsiveness during terminal maturation of monocyte-derived human dendritic cells.

Type I IFNs are modulators of myeloid dendritic cell (DC) development, survival, and functional activities. Here we monitored the signal transduction pathway underlying type I IFN biological activities during in vitro maturation of human monocyte-derived DCs. IFN-inducible tyrosine phosphorylation of STAT family members was severely impaired upon LPS-induced DC maturation. This correlated with a marked reduction of both type I IFN receptor chains occurring as early as 4 h after LPS treatment. The reduced receptor expression was a post-transcriptional event only partially mediated by ligand-induced internalization/degradation. In fact, although an early and transient production of type I IFNs was observed after LPS treatment, its neutralization was not sufficient to completely rescue IFN receptor expression. Notably, neutralization of LPS-induced, endogenous type I IFNs did not interfere with the acquisition of a fully mature surface phenotype, nor did it have a significant effect on the allostimulatory properties of LPS-stimulated DCs. Overall, these data indicate that DCs strictly modulate their responsiveness to type I IFNs as part of their maturation program, underlining the importance of the IFN system in the regulation of DC physiology.

Expression of type I interferon receptor in liver and peripheral blood mononuclear cells in chronic hepatitis C patients.

To assess whether peripheral blood mononuclear cells (PBMCs) can be substituted for liver tissue in monitoring the hepatic expression of interferon receptors (IFNAR1 and/or IFNAR2) in chronic hepatitis C, we quantified the mRNA of both subunits, using the competitive polymerase chain reaction, in the liver specimens from 37 chronic hepatitis C patients and in PBMCs from 29 of 37 patients. PBMCs from 10 healthy subjects were also quantified for both subunits. Hepatic expression of IFNAR1 and IFNAR2 were more frequent than PBMCs: IFNAR1, 23/27 (85%) vs 7/19 (37%), P = 0.0021, IFNAR2, 34/37 (92%) vs 19/29 (66%), P = 0.0182. Neither subunits was detected in PBMCs from control subjects. The expression level of IFNAR2 in the liver was related to that in PBMCs (r = 0.613, P = 0.0052). These results suggest that hepatitis C virus infection may up-regulate the expression of the type I interferon receptor and that the measurement of IFNAR2 expression in PBMCs may be useful for monitoring its expression in liver.

Relationship between diurnal rhythm of cell cycle and interferon receptor expression in implanted-tumor cells

Whether the diurnal rhythm of cell cycle is associated with that of interferon-α/β receptor (IFNAR) expression was investigated in implanted-tumor cells. The expression of IFNAR mRNA significantly increased when the proportion of tumor cells in DNA synthesis (S) phase increased in vitro. A diurnal rhythm was observed for cell cycle distribution in implanted-tumor cells. The specific binding of interferon-α to receptor and IFNAR mRNA increased when the proportion of tumor cells in S phase increased in vivo. The time-dependent expression of IFNAR was supported by that of transcription factor level induced by interferon-β. The present result suggests that the rhythm of IFNAR expression is closely related to that of cell cycle distribution in implanted-tumor cells.

Interferon-α Resistance in a Cutaneous T-Cell Lymphoma Cell Line Is Associated With Lack of STAT1 Expression

Interferon-alpha (IFNα) mediates its biological effects through activation of the JAK-STAT signaling pathway and it has been shown to be one of most effective therapeutic agents for a number of hematological malignancies, including cutaneous T-cell lymphoma (CTCL). Nevertheless, its efficacy is limited by the development of clinical resistance but the reasons for resistance in CTCL are unknown. Here, we report the development of an IFNα-resistant CTCL cell line (HUT78R), characterized by its ability to proliferate in high concentration of recombinant IFNα, which can be used as a model system to study IFN resistance. The levels of IFN receptor expression and binding affinity were found to be comparable between the parental sensitive (HUT78S) and resistant (HUT78R) cells. However, IFNα stimulation failed to induce interferon-stimulated gene factor 3 (ISGF3) complex formation in HUT78R cells. In addition, the expression of the IFN-inducible 2-5 OAS gene was significantly reduced in HUT78R cells, suggesting the presence of a defect in the Jak-STAT signaling pathway. Our results showed that the IFNα-activated form of a latent transcriptional factor STAT1 was not found in HUT78R cells, whereas activated STAT2 and STAT3 were clearly detectable. By Western blotting and reverse transcriptase-polymerase chain reaction (RT-PCR) analyses, we found that HUT78R cells do not express any STAT1 protein or mRNA, suggesting the possibility of a null mutation in the STAT1 gene. Resistance to the growth inhibitory effect of IFNα in CTCL cells may result from lack of STAT1 expression.

Interferon-α Resistance in a Cutaneous T-Cell Lymphoma Cell Line Is Associated With Lack of STAT1 Expression

AbstractInterferon-alpha (IFNα) mediates its biological effects through activation of the JAK-STAT signaling pathway and it has been shown to be one of most effective therapeutic agents for a number of hematological malignancies, including cutaneous T-cell lymphoma (CTCL). Nevertheless, its efficacy is limited by the development of clinical resistance but the reasons for resistance in CTCL are unknown. Here, we report the development of an IFNα-resistant CTCL cell line (HUT78R), characterized by its ability to proliferate in high concentration of recombinant IFNα, which can be used as a model system to study IFN resistance. The levels of IFN receptor expression and binding affinity were found to be comparable between the parental sensitive (HUT78S) and resistant (HUT78R) cells. However, IFNα stimulation failed to induce interferon-stimulated gene factor 3 (ISGF3) complex formation in HUT78R cells. In addition, the expression of the IFN-inducible 2-5 OAS gene was significantly reduced in HUT78R cells, suggesting the presence of a defect in the Jak-STAT signaling pathway. Our results showed that the IFNα-activated form of a latent transcriptional factor STAT1 was not found in HUT78R cells, whereas activated STAT2 and STAT3 were clearly detectable. By Western blotting and reverse transcriptase-polymerase chain reaction (RT-PCR) analyses, we found that HUT78R cells do not express any STAT1 protein or mRNA, suggesting the possibility of a null mutation in the STAT1 gene. Resistance to the growth inhibitory effect of IFNα in CTCL cells may result from lack of STAT1 expression.

Inhibition of human erythroid colony-forming units by gamma interferon can be corrected by recombinant human erythropoietin [see comments

Tumor necrosis factor (TNF), interleukin-1 (IL-1), and gamma interferon (gamma IFN) inhibit erythropoiesis in vivo and in vitro, and have been implicated in the pathogenesis of the anemia of chronic disease. Anemia in patients with rheumatoid arthritis and in animals exposed chronically to IL-1 and TNF can be corrected by the administration of recombinant erythropoietin (Epo). We exposed highly purified human erythroid colony-forming units (CFU-E) cultured from peripheral blood burst-forming units-erythroid (BFU-E) and unpurified human marrow CFU-E to recombinant human gamma IFN and showed inhibition of colony formation in vitro. This inhibition was reversed by increased concentrations of Epo. The mechanisms by which this effect occurs are unknown at present. Epo may cause a downregulation of gamma IFN receptor expression on CFU-E or, alternatively, gamma IFN may cause a downregulation of Epo receptor expression. A full understanding of these mechanisms awaits a more complete comprehension of the regulation of erythropoiesis; however, the effect of Epo in vitro is similar to its ability to correct the anemia of chronic disease in vivo.

Modulation by oestrogen and progestins/antiprogestins of alpha interferon receptor expression in human breast cancer cells

Human breast cancer ZR-75-1 cells expressed 1516 (105) (mean [S.D.]) interferon (IFN) receptors (IFNR) per cell with K d of 0.61 (0.15) nmol/l. Oestrogen independent ZR-PR-LT and tamoxifen resistant ZR-75-9a1 8 μmol/l cells expressed similar numbers of IFNR. ZR-75-9a1 cells, which had been maintained in the absence of tamoxifen or known oestrogenic activity for 46 weeks, expressed a significantly higher number of IFNR (3170 [315]). Exposure of ZR-75-1 cells to 10 −9 mol/l 17β-oestradiol (E2) led to a consistent reduction in IFNR numbers whilst 10 −6 mol/l tamoxifen slightly increased IFNR expression. Since IFN increases oestrogen receptors in this cell line, IFN and E2 appear to have opposite effects on expression of each others' receptor. 10 −9 mol/l medroxy progesterone acetate and mifepristone significantly increased IFNR numbers whilst ORG 2058 decreased IFNR expression and ZK 98.299 had no effect. Progestin/antiprogestin induced IFNR increase in this cell line correlated with down-regulation of progesterone receptor (PR). Thus an IFN/ER/PR axis may exist in ZR-75-1 cells and variants.

Regulation of interferon receptor expression in human blood lymphocytes in vitro and during interferon therapy.

Interferons (IFN) elicit antiviral and antineoplastic activities by binding to specific receptors on the cell surface. The binding characteristics of IFN to human lymphocytes were studied using IFN alpha 2 labeled with 125I to high specific activity. The specific binding curves generated were analyzed by the LIGAND program of Munson and Rodbard to determine receptor numbers. The number of receptors in peripheral blood lymphocytes (PBL) and tonsillar B-lymphocytes (TBL) from normal individuals were 505 +/- 293 (n = 10) and 393 +/- 147 (n = 3) respectively. When these cells were preincubated in vitro with unlabeled IFN alpha 2, the receptor number decreased to 82 +/- 45 and 61 +/- 16 respectively. Receptor binding activities recovered gradually over a period of 72 h when the cells were incubated in IFN-free medium. This recovery of receptors could be blocked by the addition of actinomycin D to the incubation medium. A similar decrease in receptor expression was observed in vivo in PBL from patients being treated daily with 5 X 10(6) units/m2 per d of IFN alpha 2 by subcutaneous injection, for acute lymphoblastic leukemia or papilloma virus infections. Receptor numbers in PBL in vivo were further reduced concurrent with the progression of IFN therapy. Thus the reduction in IFN receptor expression observed in vitro can be demonstrated in vivo. These studies indicate that monitoring IFN receptor expression in vivo can provide information regarding the availability of IFN receptors at the cell surface for the mediation of IFN actions during the course of IFN therapy.

High affinity binding of 125I-labeled mouse interferon to a specific cell surface receptor II. Analysis of binding properties

Direct ligand-binding studies with highly purified 125I-labeled virus-induced mouse interferon on mouse lymphoma L 1210 cells revealed a direct correlation of specific high-affinity binding with the biologic response to interferon. Neutralization of the antiviral effect by anti-interferon gamma globulin occurred at the same antibody concentration as the inhibition of specific binding. These results suggest that specific high-affinity binding of 125I-interferon occurred at a biologically functional interferon receptor. Competitive inhibition experiments using 125I- and 125I-labeled interferon provided strong evidence that the fraction of 125I-interferon inactivated upon labeling did not bind specifically. Scatchard analysis of the binding data yielded linear plots and thus suggested that interferon binds to homogeneous noncooperative receptor sites. In contrast to a characteristic property of several peptide hormone systems, binding of 125I-interferon to its specific receptor did not induce subsequent ligand degradation. At 37° bound interferon was rapidly released in a biologically active form without evidence for molecular degradation. The expression of interferon receptors was not modified by treatment with interferon. Trypsin treatment of target cells and inhibition of protein synthesis abolished the specific binding of 125I-interferon. Three major molecular weight species of Newcastle disease virus-induced mouse C 243 cell interferon were isolated separately and identified as mouse α and β interferons. These interferons were shown to inhibit competitively the specific binding of the highly purified labeled starting material which contained all three size species, thus providing evidence for a common receptor site for mouse α and β interferon.