Hybridization of a human myeloma permanent cell line with mouse cells

A population of hybrid cells derived from the fusion of a permanent human myeloma cell line, which secretes complete IgE, and a subline of mouse L cells, did not secrete IgE as evidenced by sensitive immunosorbent tests. Also, the hybrid cells were observed not to contain intracellular IgE (epsilon or lambda chains) in amounts to be detectable by fluorescent antibody techniques. The doubling times and cell cycle parameters of the hybrid cells were found to be similar to those of the slow-growing parental human myeloma cells, in addition, the growth of the hybrid cells was characterized by a higher degree of contact inhibition than the parent mouse cells.     

Identification and characterization of a 14 kDa immunosuppressive protein derived from IIB-MEL-J, a human melanoma cell line

The causes of decreased immune competence in melanoma patients as well as in other cancer patients are incompletely understood. The identification of the factor(s) responsible for this behaviour remains elusive. The present report demonstrates that an immunosuppressive activity (ISA), manifested in vitro as an inhibition of proliferation of human peripheral blood lymphocytes (PBL) induced both by phytohemagglutinin (PHA) or the cytokine IL-2, was exhibited by serum-free conditioned medium (SFCM) from the human melanoma cell line IIB-MEL-J, as well as by two other melanoma cell lines, IIB-MEL-LES and IIB-MEL-IAN, established in our laboratory. The ISA was found to be exerted by a protein, which co-eluted with serum albumin in anionic exchange Mono-Q, gel filtration chromatography and Blue Sepharose columns. It showed a molecular weight (Mw) of 14 kDa when separated from albumin traces by means of a Sephacryl S 200 column. It is not recognized by a pan-specific anti-transforming growth factor-beta (TGF-beta) antibody as determined by Western blots assays performed on the SFCM. The immunosuppressive factor (ISF) is secreted by IIB-MEL-J cell line in soluble from and in very scarce amounts, non-detectable by polyacrylamide gel electrophoresis (PAGE). This characteristic difficults its obtention in adequate quantities to sequentiation. Since this inhibitory factor may have a role in protecting melanoma tumors from attack by the host immune system, preparative isolation will be attempted. But we consider these results only as preliminary one's.     

The effect of TGF-beta 1 on cell proliferation and proteoglycan production in human melanoma cells depends on the degree of cell differentiation

The light-activated drugs AlPcS4 and T4MPyP were studied in a pancreatic carcinoma cell line for their effects on DNA integrity, cell division, proliferation, and survival. The micronucleus assay measured nuclear changes and also the number of actively dividing cells while, under similar conditions, the MTT assay measured cell survival. When tumour cells were exposed to light, pre-treatment with AlPcS4 induced more micronuclei than did T4MPyP at the same levels of cell division and survival. Both drugs showed a correlation between phototoxicity and changes to DNA integrity so establishing micronuclei formation as an important indicator of photodynamic drug action on tumour cells.     

Effect of ionizing radiation on cell-cycle progression and cyclin B1 expression in human melanoma cells

In the present study we investigated the effect of gamma-irradiation (2.5 and 10 Gy) on cell-cycle progression of a human melanoma cell line, M14, characterized by a moderate radiosensitivity (SF2 = O.5). Flow cytometric analysis showed a dose-dependent S-phase accumulation, which was detectable 8 hr after treatment with 2 and 5 Gy and was still persistent at 12 hr after 10 Gy exposure. Such a delay in S-phase was paralleled or followed by an accumulation of cells in G2M, which was transient at the lowest radiation doses and still persistent at 72 hr after 10 Gy. Such an accumulation was, at least in part, due to a block in G2-M transition, as demonstrated by mitotic index analysis. Bivariate flow cytometric analysis of DNA content and cyclin B1 expression showed that, following 2 and 5 Gy, the fraction of cyclin B1-expressing cells was superimposable upon that of G2M cells. Conversely, in cells treated with 10 Gy, the fraction of cyclin B1-expressing cells was half the G2M cell fraction. Northern-blot analysis indicated that the radiation-induced decrease in cyclin B1 protein expression was accompanied by a reduced cyclin B mRNA level. On the whole, our results indicate a direct inhibitory effect of 10 Gy irradiation on cyclin B1 expression as a possible cause for the persistent G2 block in irradiated M14 cells.     

Correlation between expression of mdr-1 gene and oncogenes in human promyelocytic leukemic HL60 cell line and sublines

Non-ischaemic high flow priapism resulting from trauma of the genito-perineal area is an uncommon occurrence. Resolution by selective embolization of the internal pudendal artery is currently the choice treatment. This paper presents the case of a 9 year-old patient where embolization with autologous coagulation achieved healing.     

Subcellular localization of myosin-V in the B16 melanoma cells, a wild-type cell line for the dilute gene

The discovery that the dilute gene encodes a class V myosin led to the hypothesis that this molecular motor is involved in melanosome transport and/or dendrite outgrowth in mammalian melanocytes. The present studies were undertaken to gain insight into the subcellular distribution of myosin-V in the melanoma cell line B16-F10, which is wild-type for the dilute gene. Immunofluorescence studies showed some degree of superimposed labeling of myosin-V with melanosomes that predominated at the cell periphery. A subcellular fraction highly enriched in melanosomes was also enriched in myosin-V based on Western blot analysis. Immunoelectron microscopy showed myosin-V labeling associated with melanosomes and other organelles. The stimulation of B16 cells with the alpha-melanocyte-stimulating hormone led to a significant increase in myosin-V expression. This is the first evidence that a cAMP signaling pathway might regulate the dilute gene expression. Immunofluorescence also showed an intense labeling of myosin-V independent of melanosomes that was observed within the dendrites and at the perinuclear region. Although the results presented herein are consistent with the hypothesis that myosin-V might act as a motor for melanosome translocation, they also suggest a broader cytoplasmic function for myosin-V, acting on other types of organelles or in cytoskeletal dynamics.     

Homologous complement activation on drug-induced apoptotic cells from a human lung adenocarcinoma cell line

Activation of the alternative pathway of homologous complement (C) was observed in a human lung adenocarcinoma cell line, CADO 43, after the cells had become apoptotic following treatment in vitro with vincristine and predonisolone. Deposition of C3b and C3bi on the serum-treated apoptotic cells was revealed by flow cytometry with anti-C3b and -C3bi-specific antibodies and immunoblotting with anti-C3 antibody immunoprecipitates extracted from solubilized fractions of serum-treated apoptotic cells. Two molecular mechanisms were found to be responsible for this post-apoptotic C-activation. Firstly, all C regulators, decay accelerating factor (DAF), membrane cofactor protein (MCP) and C3b/C4b receptor (CR1), were diminished on the cell surface concomitantly with the apoptotic process. Secondly, unidentified molecules which potentially activate homologous C and accept C3b/C3bi fragments became expressed on the cell surface during the apoptotic process. These findings may explain the mechanism whereby tumor cells are efficiently eliminated through chemotherapy.     

P-selectin mediates adhesion of the human melanoma cell line NKI-4: identification of glycoprotein ligands

Activated endothelial cells and stimulated platelets express the cell adhesion molecule P-selectin (CD62P), which mediates adhesion to various leukocytes and certain types of cancer cells. In this study, we show Ca2+-dependent binding of P-selectin to NKI-4 cells, a cell line derived from a human melanoma. The binding is inhibited by P7 (a leukocyte adhesion blocking mAb against P-selectin), but not by PL5 (a leukocyte adhesion blocking mAb against P-selectin glycoprotein ligand-1; PSGL-1). Further, expression of PSGL-1 could not be detected on NKI-4 cells by either PL5 mAb or an Ab against a synthetic peptide corresponding to a portion of the PSGL-1 sequence. P-selectin affinity chromatography of lysates from in vivo [3H]-glucosamine-labeled NKI-4 cells resulted in the isolation of three glycoproteins, with apparent molecular masses of approximately 250, approximately 110, and approximately 100 kDa under reducing conditions and approximately 230, approximately 105, and approximately 85 kDa under nonreducing conditions. These molecules could be precipitated by P-selectin, but not by E-selectin. EDTA and the P7 mAb, but not the PL5 mAb, inhibited the binding of P-selectin to the purified ligands. Surprisingly, we found that sodium chlorate, a sulfation inhibitor, did not inhibit the binding of P-selectin to NKI-4 cells and that [35S]-sulfate did not label the NKI-4 cell ligands. We conclude that P-selectin-dependent adhesion of the human melanoma cell line NKI-4 is mediated by a novel class of glycoprotein ligands.     

Distinct regulation of glucose transport by interleukin-3 and oncogenes in a murine bone marrow-derived cell line

Growth factors and oncogenes promote glucose uptake, but the extent to which increased uptake is regulated at the level of glucose transporter function has not been clearly established. In this paper, we show that interleukin-3 (IL-3), a cytokine growth factor, and the transforming oncogenes ras and abl alter the activation state of glucose transporters by distinct mechanisms. Using bone marrow-derived IL-3-dependent 32Dc13 (32D clone 3) cells and 32D cells transformed with ras and abl oncogenes, we demonstrated that IL-3 enhanced [3H]-2-deoxyglucose (2-DOG) uptake in parental 32Dc13 cells by 40-50% at 0.2 mM 2-DOG, and this was associated with a 2.5-fold increase in transporter affinity for glucose (reduced Km). In comparison, ras and abl oncogenes enhanced 2-DOG uptake by 72-112%, associated with a 2-fold greater transporter affinity for glucose. The tyrosine kinase inhibitor genistein reversed the effects of both IL-3 and oncogenes on glucose uptake and reduced transporter affinity for glucose. Likewise, with exponentially growing 32D cells in the presence of IL-3, a protein kinase C inhibitor, staurosporine, and a phosphatidylinositol 3-kinase (PI-3) kinase inhibitor, wortmannin, inhibited 2-DOG uptake and decreased transporter affinity for glucose. In contrast, in oncogene-transformed cells, staurosporine inhibited 2-DOG uptake but failed to decrease transporter affinity for glucose, whereas wortmannin did not affect 2-DOG uptake. Inhibition of protein tyrosine phosphatases with vanadate enhanced 2-DOG uptake and transporter affinity for glucose in parental cells and in ras-transformed cells but had little effect on abl-transformed cells. Consistently, the serine/threonine phosphatase type 2A inhibitor okadaic acid enhanced 2-DOG uptake and transporter affinity for glucose in parental cells but had little effect on ras- or abl-transformed cells. These results demonstrate differences in the regulation of glucose transport in parental and oncogene-transformed 32D cells. Thus, IL-3 responses are dependent upon tyrosine, serine/threonine, and PI-3 kinases, whereas ras and abl effects on glucose transport depend upon tyrosine phosphorylation but are compromised in their dependence upon serine/threonine and PI-3 kinases.     

Transforming oncogenes regulate glucose transport by increasing transporter affinity for glucose: contrasting effects of oncogenes and heat stress in a murine marrow-derived cell line

Transforming oncogenes often overcome the growth factor requirements of cells by activating growth factor signal transduction pathways. Increased energy utilization by transformed cells is a well known phenomenon, but whether glucose uptake is regulated at the level of the glucose transporter has not been clearly established. To determine whether cell transformation by specific oncogenes like, v-H-ras and v-abl affects the activation state of glucose transporters, bone marrow-derived IL-3-dependent 32D (clone3) cells transfected with temperature-sensitive ras and abl oncogenes were used to compare proliferative responses and glucose transporting ability of these cells with the parental cell line at permissive (32 degrees C) and non-permissive (40 degrees C) temperatures. Transformed cells showed elevated incorporation of [3H]thymidine and enhanced tyrosine kinase activity, both of which were abrogated in temperature-sensitive mutants maintained at the non-permissive temperature. Compared with control cells, 2-deoxy-D-[1-(3)H]glucose (2-DOG) uptake was not significantly different in transformed cells at the permissive temperature. However, transformation was associated with a 2-2.5-fold greater affinity of glucose transporters for glucose (Km) and this was reversed following treatment with tyrosine kinase inhibitor, genistein. Maximum velocity of glucose transport (Vmax) and membrane expression of transporters were reduced in oncogene-transformed cells. At the non-permissive temperature, glucose uptake was elevated in both control and oncogene-transformed cells. This increase in glucose transport was not associated with a change in transporter affinity for glucose, but increased Glut-1 expression was observed indicating a 'heat stress' effect that overrode the effects attributable to oncogene loss. The 'heat stress' effect was inhibited by protein synthesis inhibitor cycloheximide. These results provide evidence for intrinsic activation of glucose transporters by the transforming oncogenes ras and abl, and indicate that oncogenes and 'heat stress' regulate glucose transport by different mechanisms.     

The influence of heregulins on human Schwann cell proliferation

The use of Schwann cell (SC) autotransplantation to influence neural repair in humans is dependent upon identifying mitogens that will effectively expand human Schwann cells (SCs) in culture. The recent purification and molecular cloning of glial growth factor (GGF), a potent mitogen for rat Schwann cells, has led to the recognition that a family of proteins (GGF/HRG/NDF/ARIA) are alternatively spliced products of a single gene. The heregulins (HRGs) have been characterized with respect to their influence on human breast cancer cell lines; here we examined whether the HRGs have mitogenic activity for human SCs. Using DNA synthesis assays and serial passaging of cells in culture, we demonstrate that HRG is an effective mitogen for human SCs and that, in the presence of agents that elevate cAMP, it is possible to expand these cells over multiple passages without overwhelming fibroblast contamination. One putative target for this family of proteins is p185erbB2, and EGF-like receptor tyrosine kinase that is encoded by the erbB2 protooncogene. In this report we also demonstrate that the erbB2/3/4 messages as well as the erbB2/3 receptor proteins are present within cultured human SCs. The addition of HRG to human SCs results in tyrosine phosphorylation of a 185 kDa protein. In the presence of stimulatory concentrations of HRG, a blocking monoclonal antibody (2C4) to p185erbB2 is capable of significantly inhibiting phosphorylation of a 185 kDa protein as well as the subsequent incorporation of 3H-thymidine within the human SC. These latter results implicate an important role for p185erbB2 in mediating the mitogenic response of human SCs to HRGs.     

Comparison between the in vitro intrinsic radiation sensitivity of human soft tissue sarcoma and breast cancer cell lines

The purpose of this study is to evaluate the radiation sensitivity of human soft tissue sarcoma cell lines in vitro and to compare with that of human breast carcinoma and glioblastoma cell lines. The intrinsic radiation sensitivity parameters of seven human soft tissue sarcomas and eight breast carcinoma cell lines were investigated in vitro by clonogenic assays for single-dose irradiation under aerobic conditions on cells in exponential phase of growth. The results for sarcoma cell lines showed that the mean surviving fraction at 2 Gy (SF2) was 0.39 (SD +/- 0.09) with a range of 0.24 to 0.53, and the average mean inactivation dose (MID) was 1.92 (SD +/- 0.35) range from 1.36 Gy to 2.49 Gy. These values were not different from that of breast cell lines examined concurrently and using the same experimental methods (mean SF2 0.38, SD +/- 0.09; MID 1.9 Gy, SD +/- 0.37). However radiobiological parameters of nine karyotyped human malignant glioma cell lines determined earlier in this laboratory were significantly higher (mean SF2 0.50 +/- 0.14; mean MID 2.61 +/- 0.60). In conclusion, the data presented here do not support the view that cells of sarcomas show unusual radiation resistance. To the extent that the in vitro determined cellular radiation sensitivity reflects the tumor response in vivo, the success rate for radiation applied against sarcoma and breast carcinoma of comparable size could be similar.     

Effect of radiation on the expression of E-cadherin and alpha-catenin and invasive capacity in human lung cancer cell line in vitro

PURPOSE: To investigate whether electrode measurements of tumor oxygenation obtained under a range of different treatment conditions designed to alter the degree of tumor hypoxia could be correlated with estimates of radiobiological hypoxia measured under the same conditions. METHODS AND MATERIALS: Experiments were performed in restrained, nonanesthetized, female C3H/He mice, which had approximately 0.5 g KHT sarcomas growing intramuscularly in the hind limbs. The treatments used to modify tumor oxygenation status included breathing gas mixtures of varying oxygen content, altering tumor blood flow, and shifting the hemoglobin oxygen dissociation curve. Radiobiological hypoxic fraction was estimated using the paired survival curve assay, while electrode measurements of tumor oxygenation were obtained with an Eppendorf histograph. RESULTS: With the selected manipulations it was possible to vary the radiobiological hypoxic fraction in the tumors from approximately 1 to approximately 100% of the total viable cell population. Furthermore, these changes in radiation response were directly reflected in the changes in tumor oxygenation measurements made with the Eppendorf histograph. CONCLUSION: These findings suggest that in the KHT tumor model the Eppendorf electrode measurements could predict the response of the tumors to radiation as determined by the proportion of hypoxic cells.     

Effect of NCAM-transfection on growth and invasion of a human cancer cell line

A cDNA encoding the human transmembrane 140 kDa isoform of the neural cell adhesion molecule (NCAM) was transfected into the highly invasive MDA-MB-231 human breast cancer cell line. Transfectants with a homogeneous expression of NCAM showed a restricted capacity for penetration of an artificial basement membrane. However, when injected into nude mice, both control and NCAM-expressing cell lines produced equally invasive tumors. Tumors generated from NCAM-transfected cells were heterogeneous, containing NCAM-positive as well as NCAM-negative areas, indicating the existence of host factors capable of modulating NCAM expression in vivo. In nude mice, NCAM-transfected cells developed tumors with longer latency periods and slower growth rates than tumors induced by NCAM-negative control cells, implying that NCAM may be involved not only in adhesive and motile behavior of tumor cells but also in their growth regulation. There was no indication of differences in cell proliferative characteristics between the different NCAM-transfected and the control transfected cells as determined by flow cytometric DNA analysis, suggesting an increased cell loss as the reason for decreased in vivo growth rate of the NCAM-transfected cells. The fact that NCAM expression influences growth regulation attributes a pivotal role to this cell adhesion molecule during ontogenesis and tumor development.     

Mature accessory cells influence long-term growth of human hematopoietic progenitors on a murine stromal cell feeder layer

B lymphocyte development in mouse bone marrow (BM) occurs in association with stromal cells which provide essential growth factors, notably interleukin 7 (IL-7). The ability of recombinant IL-7 given systemically by several modes of administration to stimulate proliferation of precursor B cells at successive stages of development was examined. Using immunofluorescence labelling and mitotic arrest, the in vivo proliferative cell dynamics of phenotypically defined B lineage cells was quantitated. Single injections of murine IL-7 (muIL-7) in low and intermediate doses stimulated production both of pro-B cells preceeding the expression of mu heavy chains and large pre-B cells expressing cytoplasmic mu. In contrast, higher doses were not stimulatory. Infusion of muIL-7 from subcutaneous micro-osmotic pumps produced a proliferative wave of TdT+ pro-B cells and pre-B cells followed by elevated numbers of postmitotic small pre-B cells and B cells. Stimulation tended to be followed by secondary oscillations of B lymphopoiesis or an IL-7 refractory state. Pronounced increases in TdT+ pro-B and pre-B cell production resulted from injecting small doses of either muIL-7 or human IL-7 (hIL-7), complexed with anti-IL-7 antibody as carrier protein. The results indicate that exogenous IL-7 at optimal dose can markedly stimulate in vivo B lymphopoiesis from the earliest detectable TdT+ pro-B cell stage onward, and is effective when delivered as a cytokine-anticytokine complex.     

Effect of radiation and tirapazamine (SR-4233) on three melanoma cell lines

Locally acting treatments for spasticity such as nerve and motor point blocks have the advantage of reducing harmful spasticity in one area, while preserving useful spasticity in another area. This randomized, double-blind study is the first trial that was designed to find out whether botulinus toxin Type A and phenol relieves the signs and symptoms of ankle plantar flexor and foot invertor spasticity after stroke and if either of these methods offers any advantages and disadvantages over the other. Twenty patients who were included in this preliminary study were randomly assigned to receive a single treatment of 400 mouse units of botulinus toxin Type A injected into the calf muscles or to receive a tibial nerve blockade with 3 ml of 5% phenol. A combination of subjective and objective measures were used to assess functional change at baseline and at Weeks 2, 4, 8, and 12. At follow-up, significant improvement (P < 0.05) in the Ashworth score for dorsiflexion was observed in both groups. The change in the Ashworth score for eversion was significant in the group that received botulinus toxin Type A (P < 0.05) but not in the group that received phenol (P > 0.05). When those variables were compared between the two groups, the change in the Ashworth score at Weeks 2 and 4 was significantly better in the group that received botulinus toxin Type A (P < 0.05) but there was not a significant difference between the two groups at Weeks 8 and 12 (P > 0.05). The decrease in clonus duration that was detected by electromyography was significant in both groups at all visits, but the decrease in the group that received botulinus toxin Type A was significantly better at Weeks 2 and 4 (P < 0.05). It is concluded that both motor point injections with botulinus toxin Type A and tibial nerve blockade with phenol are effective in plantar flexor spasticity, but the changes were more significant in the group that received botulinus toxin Type A at Weeks 2 and 4, whereas there was not a significant difference between the two groups at Weeks 8 and 12. Future research should explore the long-term effect of these two treatment modalities.     

Induction of human IgE synthesis in B cells by a basophilic cell line, KU812

OBJECTIVES: Tumors are thought to metastasize by a process involving tumor cell attachment to extracellular matrix, degradation of matrix components by tumor-associated proteases, and cellular movement into the area modified by protease activity. Type IV collagen comprises the major element tumor cells must degrade to gain access to the rest of the body. Renal cancer cell line progelatinase A (E.C. 3.4.24.24; 72-kDa type IV collagenase; MMP-2) mRNA expression was correlated with patient survival. METHODS: Total cellular mRNA was extracted from tumor cell lines derived from patients with metastatic renal cell carcinoma. The results of the densitometric analysis of Northern blots were correlated with patient survival. Formalin-fixed, paraffin-embedded tissue sections of primary renal cancers were examined for immunohistochemical expression of MMP-2. RESULTS: Cell lines established from 23 primary renal tumors and six metastatic sites in 26 patients with metastatic renal carcinoma were studied. Variable expression of progelatinase A, relative to A2058 melanoma cells (mean +/- SEM, 0.60 +/- 0.21; median, 0.082; range, 0 to 4.78), was found. There was a significant inverse association between patient survival and the log of the MMP-2 expression (P = 0.045 by the Cox proportional-hazards model). Using a cutoff value of 0.10, the closest round number to the median expression of MMP-2, a significant difference between survival of patients with lower and higher MMP-2 expression in their primary renal cell line was found (P = 0.0054). Cell lines with low, intermediate, and high expression of MMP-2 mRNA all had primary tumors with high tissue immunohistochemical expression of MMP-2. CONCLUSIONS: These studies demonstrate an inverse relationship between renal cancer cell line MMP-2 mRNA expression and patient survival. Immunohistochemical studies of the primary tumors from which the cell lines were derived uniformly showed high MMP-2 expression. Previous work suggests local renal factors upregulate cellular expression of MMP-2 in the primary tumor, and are not active at extrarenal sites.     

Bone marrow repopulation by human marrow stem cells after long-term expansion culture on a porcine endothelial cell line

In vitro exposure of murine hematopoietic stem cells (HSCs) to cell cycle-inducing cytokines has been shown to result in a defect in the ability of these cells to engraft. We used a porcine microvascular endothelial cell (PMVEC) line in conjunction with exogenous interleukin (IL)-3, IL-6, granulocyte-macrophage colony-stimulating factor (GM-CSF), and stem cell factor (SCF) to expand human HSCs that express the CD34 and Thy-1 antigens but lack lineage-associated markers (CD34+Thy-1+Lin- cells). Ex vivo expansion of hematopoietic cells was evaluated in comparison to stromal cell-free, cytokine-supplemented cultures. Cells expressing the CD34+Thy-1+Lin- phenotype were detectable in both culture systems for up to 3 weeks. These cells were reisolated from the cultures and their ability to engraft human fetal bones implanted into SCID mice (SCID-hu bone) was tested. HSCs expanded in PMVEC coculture were consistently capable of competitive marrow repopulation with multilineage (CD19+ B lymphoid, CD33+ myeloid, and CD34+ cells) progeny present 8 weeks postengraftment. In contrast, grafts composed of cells expanded in stroma-free cultures did not lead to multilineage SCID-hu bone repopulation. Proliferation analysis revealed that by 1 week of culture more than 80% of the cells in the PMVEC cocultures expressing the primitive CD34+CD38- phenotype had undergone cell division. Fewer than 1% of the cells that proliferated in the absence of stromal cells remained CD34+CD38-. These data suggest that the proliferation of HSCs in the presence of IL-3, IL-6, GM-CSF, and SCF without stromal cell support may result in impairment of engraftment capacity, which may be overcome by coculture with PMVECs.     

Natural human interferon-alpha inhibits the adhesion of a human carcinoma cell line to human vascular endothelium

The adhesion of cells to the microvascular endothelium is an essential step in the inflammatory response and metastasis. We have found that pretreatment of a human epidermoid carcinoma cell line, KB, with natural human interferon-alpha (IFN-alpha) inhibited the binding of the malignant cells to human umbilical vein endothelial cells (HUVEC) in a dose- and time-dependent manner. As one of several possible mechanisms for this inhibition, the expression of some revelant adhesion molecules on KB cell surfaces was examined after IFN-alpha treatment. Apart from a slight increase in the expression of integrin alpha 4 beta 1 (very late activation antigen 4, VLA-4), no changes in the expression of other adhesion molecules, such as sialyl Lewis X, CD44, and leukocyte function-associated antigen 1 (LFA-1), which is known to be a heterodimer of CD11a and CD18, were observed after treatment with IFN-alpha. In addition, the cell viability of KB was not affected by treatment of the cells with IFN-alpha, although the cell proliferation was markedly inhibited, indicating that the inhibitory effect of IFN-alpha on KB cell binding to vascular endothelium is not a result of a cytotoxic effect of IFN-alpha. Because the metastatic process requires not only the adhesion of tumor cells to vascular endothelium during their extravasation but also proliferation at distant sites, our findings from this in vitro experimental model suggest that IFN-alpha may have a potential inhibitory effect on tumor cell metastasis.