Prolactin receptor is a negative prognostic factor in patients with squamous cell carcinoma of the head and neck

Background:

The influence of human prolactin (hPRL) on the development of breast and other types of cancer is well established. Little information, however, exists on the effects of hPRL on squamous cell carcinomas of the head and neck (SCCHNs).

Methods:

In this study, we evaluated prolactin receptor (PRLR) expression in SCCHN cell lines and assessed by immunohistochemistry the expression in 89 patients with SCCHNs. The PRLR expression was correlated with clinicopathological characteristics as well as clinical outcome. The effect of hPRL treatment on tumour cell growth was evaluated in vitro.

Results:

Immunoreactivity for PRLR was observed in 85 out of 89 (95%) tumours. Multivariate COX regression analysis confirmed high levels of PRLR expression (>25% of tumour cells) to be an independent prognostic factor with respect to overall survival (HR=3.70, 95% CI: 1.14–12.01; P=0.029) and disease-free survival (P=0.017). Growth of PRLR-positive cancer cells increased in response to hPRL treatment.

Conclusion:

Our data indicate that hPRL is an important growth factor for SCCHN. Because of PRLR expression in a vast majority of tumour specimens and its negative impact on overall survival, the receptor represents a novel prognosticator and a promising drug target for patients with SCCHNs.

Shipping of therapeutic somatic cell products

BACKGROUND AIMS

Shipment of therapeutic somatic cells between a current good manufacturing practice (cGMP) facility and a clinic or between different cGMP facilities requires validated standard operating procedures (SOP). Under National Heart Lung & Blood Institute (NHLBI) sponsorship, the Production Assistance for Cellular Therapies (PACT) group conducted a validation study for the shipping SOP it has created, including shipments of cryopreserved somatic cells, fresh peripheral blood specimens and apheresis products.

METHODS

Comparisons of pre- and post-shipped cells and cell products at the three participating facilities included measurements of viability, phenotypic profiles and cellular functions. The data were analyzed at the University of Pittsburgh Biostatistics Facility.

RESULTS

No consistent shipping effects on cell viability, phenotype or functions were detected for cryopreserved and shipped peripheral blood mononuclear cells (PBMC), monocytes, immature dendritic cells (iDC), NK-92 or cytotoxic T cells (CTL). Cryopreserved mesenchymal stromal cells (MSC) had a significantly decreased viability after shipment, but this effect was in part because of inter-laboratory variability in the viable cell counts. Shipments of fresh peripheral blood and apheresis products for the generation of CTL and dendritic cells (DC), respectively, had no significant effects on cell product quality. MSC were successfully generated from fresh bone marrow samples shipped overnight.

CONCLUSIONS

This validation study provides a useful set of data for guiding shipments of therapeutic somatic cells in multi-institutional clinical trials.

A multicenter comparison study between the Endosafe PTS rapid-release testing system and traditional methods for detecting endotoxin in cell-therapy products

BACKGROUND

Rapid-release testing reduces the waiting period for administration of time-sensitive cell-therapy products. Current assay systems are labor intensive and time consuming. The Endosafe portable test system (PTS) is a chromogenic Limulus amebocyte lysate (LAL) portable endotoxin detection system that provides quantitative results in approximately 15 min. To evaluate Endosafe performance with cell-therapy products, side-by-side testing of traditional LAL systems and the Endosafe system was conducted at the Production Assistance for Cellular Therapies (PACT) facilities and the National Institutes of Health's Department of Transfusion Medicine, USA.

METHODS

Charles River Laboratories provided each center with a PTS reader and two commercially prepared lyophilized reference standard endotoxin (RSE) vials. All samples tested with the Endosafe system used 0.05-5.0 endotoxin unit/mL (EU/mL) sensitivity cartridges provided by Charles River. Each vial was reconstituted with LAL water and tested in triplicate using the Endosafe and in-house LAL methods. Subsequently, each center tested the endotoxin content of standard dilutions of cell-therapy products, thus creating paired test results for each sample. Additionally, fabricated endotoxin-positive samples containing varying concentrations of endotoxin were prepared and shipped to all centers to perform blinded testing.

RESULTS

Valid paired results, based on each center's LAL method and the Endosafe system criteria, were analyzed. Endotoxin detection between paired results was equivalent in most cases.

DISCUSSION

The Endosafe system provided reliable results with products typically produced in cell-therapy manufacturing facilities, and would be an appropriate test on which to base the release of time-sensitive cell-therapy products.

Levels of antigen processing machinery components in dendritic cells generated for vaccination of HIV-1+ subjects

OBJECTIVE

To evaluate expression of the antigen processing machinery (APM) components and HLA molecules by monocyte-derived dendritic cells (DC) generated from chronically HIV-1 infected subjects on antiretroviral therapy (ART) and to assess their ability to ex vivo induce HIV-1 specific T cells.

METHODS

DC generated in 16 HLA-A2 positive patients were matured in cytokines, pulsed with HIV-1 or other viral peptides and tested in interferon (IFN)-gamma ELISPOT assays. Immature (i)DC, mature (m)DC and viral peptide-pulsed DC were studied by multiparameter quantitative flow cytometry for intracellular APM component expression and for HLA class I and II, beta-2 microglobulin and co-stimulatory molecule surface expression. DC from 13 normal donors served as controls.

RESULTS

Marked heterogeneity in APM component expression levels in iDC and mDC from HIV-1 positive subjects was observed. Nevertheless, the median levels were comparable to those in iDC and mDC, respectively, from normal donors. Patients' mDC pulsed with the HIV-1, influenza A, cytomegalovirus (CMV) or Epstein-Barr virus peptides induced IFN-gamma production by T cells specific for these peptides in ELISPOT assays. The frequency of T cells responsive to influenza A, cytomegalovirus or Epstein-Barr virus peptides was comparable in the patients and normal donors.

CONCLUSIONS

The APM component expression profiles of iDC and mDC were more heterogeneous in subjects with chronic HIV-1 infection on ART, than those in normal donors, although not statistically different. Ex vivo, patients' DC pulsed with HIV-1 peptides induced IFN-gamma production from autologous T cells. Thus, DC obtained from HIV-1 infected subjects on ART were phenotypically and functionally competent.

FAP-1-mediated activation of NF-kappaB induces resistance of head and neck cancer to Fas-induced apoptosis

Molecular mechanisms responsible for tumor resistance to apoptosis often involve the Fas/FasL pathway. While squamous cell carcinomas of the head and neck (SCCHN) express both Fas and FasL, their resistance to self-induced apoptosis or apoptosis mediated by Fas agonistic antibody (CH-11Ab) was independent of the level of Fas surface expression or the presence of soluble Fas in supernatants of primary or metastatic SCCHN cell lines. By in vitro immunoselection, using PCI-15A cell line treated with successive cycles of CH-11 Ab, Fas-resistant sublines with the parental genotype were selected. Such sublines failed to cleave caspase-8 upon Fas engagement and were resistant to CH-11 Ab, although they remained sensitive to VP-16 or staurosporin. In the presence of cycloheximide, the selected SCCHN sublines become susceptible to CH-11 Ab, and showed cleavage of caspase-8, suggesting that apoptosis resistance was mediated by an inhibitory protein(s) acting upstream of caspase-8. Overexpression of Fas-associated phosphatase 1 (FAP-1), but not cellular FLICE-inhibitory protein (cFLIP) in SCCHN sublines was documented by Western blots and RT-PCR analyses. The FAP-1+ selected sublines also downregulated cell surface Fas. A high phosphorylation level of IkappaB kappa, NFkappaB activation and upregulation of Bcl-2 expression were observed in the FAP-1+ sublines. Treatment with the phosphatase inhibitor, orthovanadate, or silencing of FAP-1 with siRNA abolished their resistance to apoptosis, suggesting that FAP-1 phosphatase activity could be responsible for NF-kappaB activation and resistance of SCCHN cells to Fas-mediated apoptosis.

Transfection of human monocyte-derived dendritic cells with native tumor DNA induces antigen-specific T-cell responses in vitro

OBJECTIVE

Nucleofection of genomic tumor (Tu) DNA into human monocyte-derived dendritic cells (hMoDC) was evaluated for use in producing anti-tumor vaccines able to induce effective T-cell specific immune responses.

METHODS

Cultured hMoDC obtained from HLA-A2+ normal donors were nucleofected with genomic DNA extracted from an HLA-A2+gp100+ Mel 526 cell line and 3' end-labeled with biotinylated TdT nucleotides or from a genetically-modified Mel 526 expressing enhanced green fluorescent protein (EGFP). An Amaxa Nucleofector system was used for electroporation. Nucleofected hMoDC were matured in the presence of cytokines and examined in ELISPOT assays for the ability to present the gp100(209-217) epitope to epitope-specific T cells or to prime autologous naïve T cells in culture.

RESULTS

The nucleofected hMoDC presented gp100 protein to HLA-A2+gp 100-specific T cells as observed in IFN-gamma ELISPOT assays. Spot formation was inhibited by anti-HLA class I and HLA-A2 but not anti-HLA class II antibodies (Abs). Tu DNA-nucleofected hMoDC also primed nasmall yi, Ukrainianve autologous peripheral blood T cells in culture to develop into Tu-reactive effector cells (CTL). These CTL recognized Tu cells which had donated genomic DNA, and these responses were MHC class I- and class II-restricted. The CTL recognized shared Tu antigens encoded in Tu-derived DNA.

CONCLUSION

Nucleofection of hMoDC with genomic Tu-derived DNA is a useful strategy for Tu vaccine production: it is feasible, does not require Tu epitope isolation, can be used when few Tu cells are available, and avoids Tu-induced DC suppression.

Antigen-Processing Machinery in Human Dendritic Cells: Up-Regulation by Maturation and Down-Regulation by Tumor Cells

It has been known for some time that functional properties of dendritic cells (DC), and in particular their ability to process and present Ags to T cells, can be modulated by cytokine-induced maturation and by interactions with tumor cells. However, the molecular basis for these functional changes is unknown. We have investigated whether changes in expression of Ag-processing machinery (APM) components in DC are associated with alterations in their ability to present tumor-derived Ags to T cells. Using a panel of mAbs specific for individual APM components and a quantitative flow cytometry-based method, the level of APM components was measured in DC generated from peripheral blood monocytes of 12 normal donors and of 8 patients with cancer. Immature DC had significantly lower (p < 0.01) expression of MB1, LMP-7, LMP-10, TAP-1, and tapasin than mature DC. However, maturation in the presence of a cytokine mixture up-regulated expression of these components in DC obtained from normal donors and patients with cancer. Immature DC incubated with tumor cells had significantly lower (p < 0.001) expression of MB1, LMP-2, LMP-7, LMP-10, and endoplasmic reticulum p75 than controls. These changes were associated with a decreased ability of DC to present tumor-derived Ags to T cells, as measured in ELISPOT assays and with apoptosis of T cells in DC-T cell cultures. Thus, tumor cells have a significant suppressive effect on DC; however, ex vivo maturation of DC derived from patients with cancer in a polarizing cytokine mix restores normal expression of APM components and Ag-processing capabilities.

T-cell apoptosis and suppression of T-cell receptor/CD3-zeta by Fas ligand-containing membrane vesicles shed from ovarian tumors

PURPOSE

The accumulation of shed plasma membrane vesicles in the peripheral circulation is unique to cancer. Because these membrane fragments (MFs) express biologically active components, such as Fas ligand (FasL), the objective of this study was to define the link between the presence of shed membrane vesicles, apoptosis, and suppression of T-cell receptor/CD3-zeta expression in T lymphocytes of patients with ovarian cancer.

EXPERIMENTAL DESIGN

MF shedding was measured chromatographically in sera from women with ovarian cancer (n = 11) and, as controls, non-cancer-bearing females (n = 9) and women with benign ovarian disease (n = 4). FasL associated with these shed fragments was assayed by Western immunoblots, whereas HLA class I expression was defined by slot-blotting. The effect of shed MFs on CD3-zeta expression was evaluated using a T-cell bioassay, and apoptosis of circulating T cells was measured by a cell-death ELISA and electrophoretic analysis of caspase-3.

RESULTS

MFs were undetectable in control sera, and their levels were significantly elevated in sera from women with ovarian cancer. These tumor-derived MFs expressed 41-kDa FasL and HLA class I antigens. In co-incubation experiments, dose-dependent suppression of T-cell receptor/CD3-zeta expression by MFs was observed. Decreases in zeta expression correlated with the level of FasL in MFs but not with the level of HLA. The suppression of CD3-zeta by MFs appeared to be linked to the induction of apoptosis and caspase-3 within T cells.

CONCLUSION

Our results suggest that FasL associated with tumor-derived MFs is responsible for apoptosis of T lymphocytes and a concomitant loss of zeta-chain expression in patients with ovarian carcinoma.

P53(110-124)-specific human CD4+ T-helper cells enhance in vitro generation and antitumor function of tumor-reactive CD8+ T cells

Current evidence suggests that the optimal vaccines for cancer should incorporate tumor-specific cytotoxic as well as helper epitopes. Wild-type sequence (wt) p53 peptides are attractive candidates for broadly applicable cancer vaccines, which could combine multiple tumor epitopes defined by CD8(+) CTLs, as well as CD4(+) T-helper cells. To test this possibility, we generated anti-p53 CD4(+) T cells from peripheral blood obtained from an HLA-DRB1*0401(+) donor by in vitro stimulation with dendritic cells and recombinant human p53 protein. We identified the wt p53(110-124) peptide as a naturally presented epitope. In a series of ex vivo experiments, performed in an autologous human system, we then demonstrated the ability of anti-wt p53(110-124) CD4(+) T cells to enhance the generation and antitumor functions of CD8(+) effector cells. The results demonstrate the crucial role of T helper-defined epitopes in shaping the immune response to multiepitope cancer vaccines targeting p53. This model of tumor-specific CD8(+) and CD4(+) T-cell interactions suggests that future vaccination strategies targeting tumor cells should incorporate helper and cytotoxic T cell-defined epitopes.

Human tumor-derived genomic DNA transduced into a recipient cell induces tumor-specific immune responses ex vivo

This article describes a DNA-based vaccination strategy evaluated ex vivo with human cells. The vaccine was prepared by transferring tumor-derived genomic DNA to PCI-13 cells, a highly immunogenic tumor cell line ("recipient cell"), which had been genetically modified to secrete IL-2 (PCI-13/IL-2). PCI-13 cells expressed class I MHC determinants (HLA-A2) shared with the tumor from which the DNA was obtained as well as allogeneic determinants. DNA from a gp100(+) melanoma cell line was transduced into gp100(-) PCI-13/IL-2 cells (PCI-13/IL-2/DNA). A T cell line specific for the gp100 epitope responded to PCI-13/IL-2/DNA cells by IFN-gamma-secretion measured in enzyme-linked immunospot assays. The T cell line also recognized the gp100 epitope presented by dendritic cells that ingested PCI-13/IL-2/DNA cells, which had been induced by UVB irradiation to undergo apoptosis. After up-take and processing of apoptotic PCI-13/IL-2/DNA cells, the dendritic cells primed normal peripheral blood lymphocytes to generate effector T cells specific for the tumor donating the DNA. The results indicate that tumor epitopes encoded in such DNA are expressed in recipient cells and can induce tumor-specific T cells. The findings support translation of this vaccination strategy to a phase I trial in patients with cancer.

Modulation of TcR/CD3-zeta chain expression by a circulating factor derived from ovarian cancer patients

In women with ovarian cancer, suppression of components of the immune system may promote tumour development. Previous studies in ovarian cancer have demonstrated that decreased expression and function of the T-cell receptor (TcR)-associated signal transducing zeta-chain correlates with deficient immune responsiveness of T cells. In this study, sera and ascitic fluids obtained from woman with advanced ovarian cancer were found to suppress the expression of TcR-associated zeta chain. This suppression of zeta chain expression was dose-dependent and was not observed with biologic fluids obtained from healthy women. The factor responsible for the loss of zeta chain was purified from ascites and characterized as a protein with an appropriate molecular weight of 14 kD. Suppression of T-cell TcR-zeta was specific, since neither lck nor ZAP-70 expression was affected, while zeta chain was almost completely suppressed. This selective suppression of TcR-zeta expression by the 14 kD ascites-derived factor was shown to operate at the mRNA level. By defining the mechanism through which this protein modulates TcR-zeta chain levels, it might be possible to ultimately prevent the suppressive influences of the tumour microenvironment and restor immune competence in patients with ovarian carcinoma.

B7.1 on human carcinomas: costimulation of T cells and enhanced tumor-induced T-cell death

Human squamous cell carcinomas of the head and neck (SCCHN) do not express the costimulatory molecules B7.1 or B7.2 in situ or in culture. Transduction of B7.1(-) SCCHN cells with the retroviral B7. 1 and neo(r) genes resulted in the expression of high levels of the transgene in these tumor cells. When B7.1(+) SCCHN cells were used as stimulators of autologous or allogeneic PBL in mixed lymphocyte-tumor cultures (MLTC), T-cell proliferation and generation of antitumor effector T cells as well as levels of their lytic activity were significantly increased. At the same time, a proportion of activated T cells seen to undergo apoptosis was found to be significantly higher upon coincubation with B7.1(+) SCCHN than with B7.1(-) SCCHN. Both B7.1(+) and B7.1(-) SCCHN cells were found to express FasL on the cell surface and in the cytoplasm, as well as mRNA for FasL and mRNA for TRAIL. However, expression of the B7.1 transgene did not lead to increased expression of FasL protein on tumor cells. Yet, up to 50% of activated CD28(+) allogeneic T cells, which were CD95(+), showed evidence of DNA fragmentation in JAM and TUNEL assays upon incubation with an excess of B7.1(+) SCCHN for 24 h. Tumor-induced T-cell death was equally and only in part blocked by anti-Fas antibodies in both B7.1(+) and B7.1(-) MLTC. While surface expression of B7.1 molecules on SCCHN cells enhanced T-cell costimulation via B7.1-CD28 interactions, it did not rescue activated T cells from tumor-induced apoptosis. The outcome of MLTC under these conditions was dependent on the ratio of tumor to T cells. Thus, in the presence of an excess of B7.1(+) tumor cells, activated T cells showed increased sensitivity to apoptosis which did not appear to be Fas/FasL mediated. These data are important for the development of B7.1 gene therapy and efforts directed at the generation of effector cells in MLTC.

Interleukin-2 expression in human carcinoma cell lines and its role in cell cycle progression

Human carcinomas were shown to express mRNA and protein for IL-2R alpha, beta and gamma chains. Recently, human carcinomas were also shown to constitutively express protein and mRNA for IL-2 in vivo and in vitro. Here we report that the expression levels of cytoplasmic IL-2 as well as IL-2Rbeta- and gamma-chain in human carcinoma cells change during the cell cycle progression. Carcinoma cells synchronized in the G2/M phase of the cell cycle expressed significantly more intracytoplasmic IL-2 as well as IL-2Rbeta and gamma proteins than tumor cells in the G0/G1 phase. The level of mRNA for IL-2 was 5-10-fold higher in the M phase than in the G0/G1-phase, as shown by quantitative competitive RT-PCR. Expression of the cyclin-dependent kinase (CDK) inhibitor p27kip1 in these carcinoma cells was found to be high in the G0/G1 phase, nearly absent in the S phase, and it increased again in the G2/M phase of the cell cycle. In synchronized cells, the decrease in p27 expression coincided with high levels of expression of IL-2. Using the IL-2 specific antisense oligonucleotide to block synthesis of endogenous IL-2 in tumor cells, we observed increased levels of p27 as well as p21. The antisense oligonucleotides specific for p27 or p21 blocked expression of these proteins but not of IL-2. Thus, endogenous IL-2 is important in regulating expression of p27 as well as p21 and, therefore, in controlling cell cycle progression of tumor cells, while its own expression remains independent of the CDK inhibitors.

The role of endogenous interleukin-2 in proliferation of human carcinoma cell lines

Interleukin (IL-2) and IL-2Rbeta/gamma have been shown to be expressed in human carcinomas in culture and in situ. Recently, expression of endogenous IL-2 and IL-2R in the cytoplasm was found to be up-regulated in tumour cells undergoing mitosis. This observation suggested that similar to its role in lymphocytes, the IL-2/IL-R pathway is involved in the regulation of carcinoma cell proliferation. Metabolic labelling followed by immunoprecipitation and Western blot results showed that IL-2 in carcinomas was identical to that in human lymphocytes. However, tumour cells did not secrete IL-2 detectable by immunoassays, although membrane-associated IL-2 was detectable on a proportion of these cells cultured in the absence of exogenous IL-2. Antibodies to IL-2 failed to inhibit proliferation of carcinoma cells, but antibodies specific for the ligand-binding site of the IL-2R were growth inhibitory. Growth of tumour cells was also inhibited by the immunosuppressive drugs, cyclosporin A (CsA), FK506 and rapamycin (RPA), known to interfere with the IL-2 pathway in lymphocytes. To further confirm the role of endogenous IL-2 in the growth of carcinomas, tumour cells were incubated with an IL-2-specific antisense oligonucleotide. The treatment was shown to transiently inhibit IL-2 mRNA and IL-2 protein expression as well as proliferation of tumour cells. Tumour cells treated with IL-2-specific antisense oligonucleotide demonstrated increased apoptosis in comparison to untreated or sense oligonucleotide-treated control cells. The data indicate that in human carcinomas, endogenous IL-2 promotes growth and protects tumour cells from apoptosis.

Endogenous IL-2 in cancer cells: a marker of cellular proliferation

We have previously demonstrated that interleukin-2 (IL-2) receptors, IL-2 protein, and mRNA for IL-2 are present in human carcinomas in vitro and in vivo. Carcinoma cells synchronized in the G2/M-phase of the cell cycle express significantly more intracytoplasmic IL-2 as well as IL-2R-beta and -gamma than tumor cells in the G0/G1-phase. Here we evaluated immunohistologically the cell cycle-dependent distribution of the proliferation-associated Ki-67 antigen and expression of the cytokine IL-2 in four different carcinoma cell lines. In addition, 34 tissue samples from patients with squamous cell carcinomas of the head and neck were simultaneously analyzed for Ki-67 and IL-2 expression and the data were correlated to the histological grade of the tumors. All tumor cell lines were shown to express IL-2 in the Golgi complex. The strongest IL-2 expression was seen in tumor cells undergoing mitosis, identified by double staining with the antibody to Ki-67. In the tumor tissue, the highest level of co-expression of IL-2 and Ki-67 was observed in poorly differentiated carcinomas, with a labeling index (LI) of 67. 2% for IL-2 and 68.8% for Ki-67. Well-differentiated carcinomas showed a significantly lower expression of both proteins (LI 35.0% for IL-2 and 26.5% for Ki-67). The correlation between the labeling indices was statistically significant (r = 0.747; p<0.001). These results demonstrate that IL-2 expression in human carcinoma tissues is strongly associated with cell proliferation and significantly correlates with the histological tumor grade.

Molecular analysis of the IL-2 receptor beta chain gene expressed in human tumor cells

Interleukin-2 (IL-2) is recognized as a T cell growth factor. We have previously reported that human carcinoma cell lines are inhibited in growth by exogenous IL-2, which binds to the IL-2 receptor beta (IL-2Rbeta) chain ubiquitously expressed on the surface of tumor cells. A possibility was considered that IL-2Rbeta on carcinomas responsible for negative signaling was different from that expressed on hematopoietic cells. To investigate this possibility, mRNA for the IL-2Rbeta chain was amplified and compared in carcinoma and lymphoid cells. Using RT-PCR with pairs of sense-antisense oligonucleotide primers specific for the various regions of extracellular, transmembrane and intracellular domains of the IL-2Rbeta chain, we amplified mRNA obtained from three human carcinoma cell lines and human lymphoid cells as controls. The identity of the amplicons was confirmed by Southern analysis with the 32P-labeled cDNA probe coding for the entire span of the IL-2Rbeta chain. In addition, genomic DNA obtained from the tumor cell lines was sequenced to examine the possibility that a mutation is present in the gene coding for the intracellular IL-2Rbeta chain domain. No mutations or deletions were detected. The message for all three domains of the beta chain was identical in tumor cells and in normal lymphoid cells used as controls. Also, by Western blot and northern analyses no differences between IL-2Rbeta chain in tumors vs that expressed in lymphoid cells were demonstrable. The IL-2Rgamma chain, which participates in IL-2/IL-2R signaling pathway, was expressed in tumor cells. Expression of JAK1 transcripts in these cells was comparable to that in lymphocytes. However, RT-PCR analysis identified differences in expression of JAK3 splice variants (B and M) in tumor cells. These differences may be responsible for altered downstream signaling by IL-2. Overall, our data indicate that the same IL-2/IL-2R pathway is operative in human carcinomas and in normal epithelial or lymphoid cells.

Constitutive production of IL-2 by human carcinoma cells, expression of IL-2 receptor, and tumor cell growth

Human carcinomas spontaneously express abundant IL-2R beta but little IL-2R alpha on the cell surface, contain mRNA for IL-2R beta- and IL-2R alpha-chains, and may be inhibited in growth by exogenous IL-2. To study the relationship between IL-2R expression and growth inhibition by IL-2, carcinoma cells were transduced with IL-2R alpha and IL-2R gamma cDNAs or IL-2R beta antisense cDNA. Transfectants with the IL-2R alpha gene expressed high levels of the alpha- and beta-receptor chains and showed increased binding of [125I]IL-2. Exogenous IL-2 at the picometer concentrations inhibited their growth, and Abs to IL-2R alpha- or IL-2R beta-chains reversed the inhibition. After transduction of IL-2R beta antisense cDNA, gastric carcinoma (HR) cells no longer expressed IL-2R beta-chain, and their proliferation was depressed in the absence of exogenous IL-2. Transduction of IL-2R gamma-chain cDNA into tumor cells increased sensitivity to growth inhibition by exogenous IL-2 of a squamous cell carcinoma line, but not of HR or renal cell carcinoma lines. All of the parental and transduced tumor cell lines were found to constitutively express intracellular IL-2, detectable by immunostaining or flow cytometry of permeabilized cells. IL-2 was present on the surface of some tumor cells. Intracellular IL-2R beta and IL-2R gamma proteins were also detectable in tumor cells. Using reverse-transcription PCR combined with Southern blots or in situ hybridization, mRNA for IL-2 was found to be present in parental and transduced tumor cells. Expression on human carcinomas of IL-2R beta, inhibition of their growth by IL-2R beta antisense cDNA, and their ability to constitutively produce IL-2 and its presence on the cell surface, all suggest that endogenous IL-2 may play a role in tumor cell growth.

Constitutive production of IL-2 by human carcinoma cells, expression of IL-2 receptor, and tumor cell growth

Human carcinomas spontaneously express abundant IL-2R beta but little IL-2R alpha on the cell surface, contain mRNA for IL-2R beta- and IL-2R alpha-chains, and may be inhibited in growth by exogenous IL-2. To study the relationship between IL-2R expression and growth inhibition by IL-2, carcinoma cells were transduced with IL-2R alpha and IL-2R gamma cDNAs or IL-2R beta antisense cDNA. Transfectants with the IL-2R alpha gene expressed high levels of the alpha- and beta-receptor chains and showed increased binding of [125I]IL-2. Exogenous IL-2 at the picometer concentrations inhibited their growth, and Abs to IL-2R alpha- or IL-2R beta-chains reversed the inhibition. After transduction of IL-2R beta antisense cDNA, gastric carcinoma (HR) cells no longer expressed IL-2R beta-chain, and their proliferation was depressed in the absence of exogenous IL-2. Transduction of IL-2R gamma-chain cDNA into tumor cells increased sensitivity to growth inhibition by exogenous IL-2 of a squamous cell carcinoma line, but not of HR or renal cell carcinoma lines. All of the parental and transduced tumor cell lines were found to constitutively express intracellular IL-2, detectable by immunostaining or flow cytometry of permeabilized cells. IL-2 was present on the surface of some tumor cells. Intracellular IL-2R beta and IL-2R gamma proteins were also detectable in tumor cells. Using reverse-transcription PCR combined with Southern blots or in situ hybridization, mRNA for IL-2 was found to be present in parental and transduced tumor cells. Expression on human carcinomas of IL-2R beta, inhibition of their growth by IL-2R beta antisense cDNA, and their ability to constitutively produce IL-2 and its presence on the cell surface, all suggest that endogenous IL-2 may play a role in tumor cell growth.