Isolation of an aggregation inhibitory factor from non-adhesive mouse teratoma cells

An aggregation inhibitory factor (AIF) has been extracted from mouse ascites teratoma cells (that do not aggregate in culture) that retards adhesion of cultured teratoma cells of the same cell line (that do aggregate). Preliminary characterization of AIF on polyacrylamide gels suggests that AIF is a protein composed of four subunits. Extraction of AIF from ascites teratoma cells was accomplished without significant loss of viability by a technique involving the application of an electric field to large numbers of whole cells suspended in a hypertonic electrode buffer. In tests of adhesion, AIF consistently and immediately inhibited aggregation of cultured teratoma cells after 5, 10, 15, and 30 min of incubation. Furthermore, a reduced concentration of AIF resulted in a corresponding decrease in inhibition, suggesting a concentration-dependent action. AIF may help explain how cultured teratoma cells adhere, whereas ascites teratoma cells of the same subline do not adhere.     

A monoclonal antibody disrupting cell-cell adhesion of rat ascites hepatoma cells

A cell surface-associated adhesive factor (AF) separated from differentiated rat ascites hepatoma AH136B cells (forming cell islands in vivo) has been highly purified by chromatography. AF is assumed to mediate the cell-cell adhesion essential to island formation of the hepatoma cells. A substance, immunologically crossreactive with AF, is present in the ascites fluid or culture medium of the AH136B cells. Because the substance is almost identical to AF in molecular weight and aggregation-promoting activity, it has been concluded that AF is released into the ascites fluid where it is concentrated. Monoclonal antibodies have been raised against AF purified from ascites fluid of AH136B cells. We have obtained a monoclonal antibody, coded MoAF-6D6, that strongly abolishes the aggregation-promoting activity of AF. When AH136B cell islands are incubated in the presence of Fab fragments of MoAF-6D6, cell detachment from the islands is evident within 24 h. Cell islands following 36-h culture show a distinct dissociation and islands completely lose their organization 48 h after culture. The dissociating effect of MoAF-6D6 is neutralized by the addition of AF. These results suggest that AF plays a significant role in the maintenance of cell islands.     

Inhibition of pig granulosa cell adhesion and growth in vitro by immunoneutralization of epithelial cadherin

Epithelial cadherin (E-cadherin) is a member of the cadherin family of calcium-dependent cell adhesion molecules and is present in the ovary. Although expression of E-cadherin is high in healthy pig granulosa cells and low in granulosa cells of atretic follicles, the importance of E-cadherin-mediated adhesion in granulosa cell function is unclear. The aim of the present study was to determine the impact of immunoneutralization of E-cadherin on granulosa cell adhesion, DNA synthesis and cell proliferation in vitro. Before attachment, pig granulosa cells were exposed to a monoclonal E-cadherin antibody (DECMA-1) which blocks E-cadherin function. Controls included substitution of the antibody with either mouse ascites fluid or another E-cadherin antibody directed against the cytoplasmic domain and which was therefore inaccessible in intact cells. Both granulosa cell proliferation and insulin-like growth factor I-induced DNA synthesis were inhibited significantly in the presence of DECMA-1 compared with controls (P < 0.05). Control granulosa cells in culture formed large clusters with many cells packed tightly together. However, after 48 h exposure to the function-perturbing E-cadherin antibody, there was a significant decrease in the size of the granulosa cell clusters (P < 0.05) and the degree of cell-cell contact was reduced compared with control cultures. No effects on DNA synthesis, cell proliferation or cell adhesion were observed when DECMA-1 was substituted with either mouse ascites fluid or the antibody specific for the cytoplasmic domain of E-cadherin. In conclusion, these data provide evidence to support the hypothesis that E-cadherin is important for maintaining granulosa cell contact, DNA synthesis and cell proliferation in vitro. These results indicate that E-cadherin plays a fundamental role in maintaining both the structure and function of ovarian follicles.     

Utilization of -glutamine in intercellular adhesion: Ascites tumor and embryonic cells

-Glutamine is required for the synthesis of complex carbohydrates required for the intercellular adhesion of mouse teratoma cells. It remained to be seen if these pathways were of general importance in the adhesion of other cell types. In this study, using an electronic particle counter assay to measure cell adhesion, Ehrlich ascites, Sarcoma 180 and Taper liver ascites tumor cells require exogenous -glutamine to aggregate. This effect is concentration dependent and the amino sugar, -glucosamine, replaces the glutamine requirement. Structural analogs of the active compounds are substantially less effective and metabolic inhibitors block the activity of the effective compounds. Two specific glutamine antagonists, DON (6-diazo-5-oxo- -norleucine) and azaserine (O-diazoacetyl-serine) decrease the action of -glutamine but not of -glucosamine. Trypsin dissociated six day old chick embryo neural retina cells do not require -glutamine to reaggregate, though the rate of aggregation is enhanced after preincubation with glutamine. Dissociation of small clumps of neural retina and inhibition of reaggregation of these cells are facilitated by preincubation with azaserine for 3–5 h. -Glutamine reduces the effect of azaserine on retina cells. These results are consistent with known metabolic pathways and suggest that -glutamine is involved in the synthesis of complex carbohydrates necessary for adhesion in a variety of cell types. The defective adhesion of the tumor cells examined may result from inability to produce glutamine synthetase, or effectively store cr transport -glutamine.     

Relationship of adhesiveness of cells in culture with specific enzyme activity.

l-Glutamine is required by mouse teratoma cells and other mouse ascites tumor cells in the synthesis of complex carbohydrates involved in intercellular adhesion. Since l-glutamine is synthesized by the enzyme glutamine synthetase (GS) (EC 6.3.1.2), these studies were undertaken to determine if a relationship exists between cellular adhesiveness and GS specific activity. Two types of experiment were performed to examine this relationship. Actinomycin D enhanced both teratoma cell GS specific activity and cellular adhesiveness over controls in batch cultures at confluency. Also, the relationship between cell adhesiveness and GS specific activity during the cell cycle was studied using cell populations synchronized with thymidine plus Colcemid. In these synchronized cultures, cellular adhesiveness displayed an oscillatory pattern with peaks of GS specific activity occurring just prior to peaks of adhesiveness. The levels of GS specific activity and intercellular adhesiveness were enhanced by the addition of hydrocortisone, a steroid known to induce GS specific activity in mouse teratoma cells. These results demonstrate a correlation between GS specific activity and cellular adhesiveness. Based upon previous work which implicates l-glutamine in intercellular adhesion, it is not unreasonable to speculate that GS specific activity and cellular adhesiveness may be causally related.     

The modelling of the growth of Ehrlich carcinoma and teratoma T-36 with ascitic fluid and tumor-cell dialysate]

The study of the effect of ascitic fluid and dialysate of Ehrlich ascites tumor cells (M.m. less than 15 kDa) on the growth of Ehrlich carcinoma and teratoma T-36 has shown that both the ascitic fluid and dialysate can protect tumor cells in vivo. The number of animals with tumors increased from 0% in control animals to 60 and 20%, respectively, in experimental ones after transplantation i.m. of 20 x 10(3) Ehrlich tumor cells into mice. Compared to control, ascitic fluid and dialysate of Ehrlich ascites tumor cells increased the rate of tumor growth to 195 and 153%, respectively. It is suggested that this test-system simulates the effect of tumor humoral factors in vivo.     

Cell density-dependent stimulation of glutamine synthetase activity in cultured mouse teratoma cells

A density dependent stimulation of glutamine synthetase (GS) activity has been observed in cultures of mouse teratoma cells. GS specific activity increased as cultures approached confluency to a level greater than 2-fold over the basal level found in sparse cultures. After confluency the GS specific activity returned to the basal level found in sparse cultures. The enzyme increase could not be attributed to age of cultures, medium or glutamine depletion, cell leakage of GS, or change in the amount of cellular protein. Dibutyryl cyclic AMP (db-cAMP) plus theophylline lowered GS specific activity both in cultured teratoma and in teratoma obtained from ascites grown tumors. The enzyme increase observed in cultured teratoma cells could be prevented by cycloheximide, and enhanced by hydrocortisone or actinomycin D.     

Tumor autocrine motility factor induces hyperpermeability of endothelial and mesothelial cells leading to accumulation of ascites fluid

Accumulation of ascites fluid often observed in some solid tumors is one of the most devastating conditions of a patient's difficulty in responding to treatment, and to a decrease in the quality of life. Various factors are thought to be associated with the formation of cancer-induced fluid accumulation and hyperpermeability of a blood vessel is thought to go with this process. Here, we report a new factor that is involved in this process, e.g., autocrine motility factor (AMF). AMF is a tumor-related cytokine which stimulates the tumor cell locomotion and migration and promotes tumor cell invasion during metastasis. AMF secretion and its receptor (AMFR) expression in tumor cells are closely correlated with disease aggravation of convalescence. The response of endothelial or mesothelial cellular morphological alternation to AMF leads to motile enhancement and vascular permeability. Tumor AMF induces gaps in an endothelial or mesothelial monolayer by stimulating a cellular movement, and accelerates the ascites accumulation. And treatment experiment with anti-AMF antibody succeeded in the reduction of the ascites accumulation, which renders AMF to the target molecule. It is suggested that AMF is one of the significant factors which relates to various pathological malignancies induced by tumor mass, and understanding of its function could benefit prognosis and treatment.     

Immunohistochemistry,glycosylation and immunosuppression of glycodelin in human ovarian cancer

Glycodelins (Gds) are glycoproteins with a gender specific glycosylation. Glycodelin A (GdA) is primarily produced in endometrial and decidual tissue and secreted to amniotic fluid. Glycodelins were also identified in several cancer types, including serous ovarian cancer. Gds act as a T-cell inhibitor and are involved in inactivation of human monocytes. With a Gd peptide antibody, derived from a 15 amino acid sequence of human Gd and in situ hybridization experiments, the expression of Gd in serous, mucinous, endometrioid and clear cell ovarian tumors was identified. In contrast to former investigations with antibodies against GdA, a positive immunohistochemical reaction for Gd was observed in all forms of epithelium ovarian cancer. These results were confirmed with in situ hybridization. In addition, Gd is expressed in granulose cell tumors, a non-epithelial form of ovarian cancer. Furthermore, Gd was purified from ascites fluid of ovarian cancer patients. Ascites Gd showed significant differences in its structure of sialyl Lewis-type oligosaccharides compared to GdA. Additionally, ascites Gd inhibits IL-2 stimulated proliferation of peripheral blood leucocytes and inhibits adhesion of SLe^X-positive cells to E-selectin. Therefore, Gd could act as an inhibitor of lymphocyte activation and/or adhesion in ovarian cancer. U. Jeschke, I. Mylonas and C. Kunert-Keil contributed equally to this work.     

Differential immunosuppressive effects of ascites fluid from mastocytoma-bearing mice on primary vs secondary immunocyte responses.

The effects of immunosuppressive ascites fluids from mastocytoma-bearing mice on the primary vs secondary immune response to sheep red blood cells (SRBC) was examined. Injection of mice with ascites fluid from tumor-bearing mice markedly depressed the primary immune response of normal syngeneic mice challenged with SRBC. However, there was a preferential depression of the 19S IgM antibody response as compared with the 7S IgG response. Injection of ascites fluid shortly before secondary immunization of mice with SRBC also resulted in depressed IgM PFC responses but only a slight to moderate depression of IgG PFC. Treatment of mice with the ascites fluid before primary immunization had little if any effect on the secondary IgG PFC response, although the IgM response was moderately depressed. These results indicate that the immunosuppressive factor(s) present in the ascites fluid of mastocytoma-bearing mice has a differential effect on distinct classes of immunocytes. Those immunocytes or their precursors involved in formation of low efficiency 7S IgG antibody are more resistant to immunodepression. Such differences appear due to different sensitivities of cells involved in the immune response system.     

Introduction to the Symposium and Studies on the Surfaces of Separated and Synchronized Tumor and Embryonic Cell Populations

Tumor and embryonic cell surfaces are examined in this symposiumwith respect to their roles in cell-cell interactions and inearly development and malignancy. Three sets of studies havebeen recently performed in my laboratory to help elucidate thenature of tumor and embryonic cell surfaces and the means bywhich these cells adhere to each other. We separated an in vivo129/J ascites mouse teratoma into specific subpopuladons ofcells by velocity sedimentation in shallow density gradients.The teratoma consistently separated into two major populations:"large" and "small" cells. Only the large cells displayed "malignant-like"surface characteristics in terms of their agglutinability withcarbohydrate binding lectins. The teratoma cells were also synchronizedin culture with thymidine plus colcemid. In these synchronizedcultures, cellular adhesiveness and glutamine synthetase specificactivity displayed oscillatory patterns with peaks of glutaminesynthetase specific activity occurring just prior to peaks ofadhesivenesss. Also, both glutamine synthetase specific activityand cellular adhesiveness were enhanced by two compounds: actinomycinD and hydrocortisone. Based upon previous work that implicatesL-glutamine in intercellular adhesion, it is not unreasonableto speculate that glutamine synthetase specific activity andcellular adhesiveness may be causally related. The problem ofaltered tumor cell adhesiveness is important because it seems,in part, to be responsible for tumor spread. Finally, the seaurchin embryo system was utilized to identify specific cellsurface carbohydrates that may be involved in intercellularadhesion. In 15 separate experiments with each sugar and with15 different saccharides, D-galactose and N-acetyl-D-galactosaminewere the best inhibitors of rotation-medicated reaggregationof 24-hr sea urchin embryo cells dissociated by removal of divalentcations. ß-galactosidase also inhibited reaggregationof these cells. These results implicate galactopyranosyl-likeresidues in the adhesion of 24-hr sea urchin embryo cells witheach other.     

The purification and partial characterization of a serum factor associated with a neoplasm in golden hamsters

A previous report by Stevens and Schwenk (1) showed that serum from hamsters carrying ascites tumors in contrast to normal serum contained a factor that appeared to be proteinaceous in nature that induced cleavage in multinucleated hamster cells in tissue culture when estrogen was present. In this paper a method for purification of the factor(s) from ascites fluid that produces a 5000-fold purification is described. The factor has an electrophoretic mobility in acrylamide gel at pH 8.3 similar to prealbumin and concentrates in the pH gradient on electrofocusing in the region of pH 5.5-5.8. Although the chemical nature of the factor(s) is still uncertain, the electrophoretic properties are consistent with it being a simple or complex polypeptide or protein.     

Suppression of the invasive capacity of rat ascites hepatoma cells by knockdown of Slingshot or LIM kinase

Actin cytoskeletal reorganization is essential for tumor cell migration, adhesion, and invasion. Cofilin and actin-depolymerizing factor (ADF) act as key regulators of actin cytoskeletal dynamics by stimulating depolymerization and severing of actin filaments. Cofilin/ADF are inactivated by phosphorylation of Ser-3 by LIM kinase-1 (LIMK1) and reactivated by dephosphorylation by Slingshot-1 (SSH1) and -2 (SSH2) protein phosphatases. In this study, we examined the roles of cofilin/ADF, LIMK1, and SSH1/SSH2 in tumor cell invasion, using an in vitro transcellular migration assay. In this assay, rat ascites hepatoma (MM1) cells were overlaid on a primary-cultured rat mesothelial cell monolayer and the number of cell foci that transmigrated underneath the monolayer in the presence of lysophosphatidic acid (LPA) was counted. The knockdown of cofilin/ADF, LIMK1, or SSH1/SSH2 expression by small interfering RNAs (siRNAs) significantly decreased the LPA-induced transcellular migration of MM1 cells and their motility in two-dimensional culture. Knockdown of LIMK1 also suppressed fibronectin-mediated cell attachment and focal adhesion formation. Our results suggest that both LIMK1-mediated phosphorylation and SSH1/SSH2-mediated dephosphorylation of cofilin/ADF are critical for the migration and invasion of tumor cells and that LIMK1 is involved in the transcellular migration of tumor cells by enhancing both adhesion and motility of the cells.     

The soluble form of the cancer-associated L1 cell adhesion molecule is a pro-angiogenic factor

A soluble form of the L1 cell adhesion molecule (sL1) is released from various tumor cells and can be found in serum and ascites fluid of uterine and ovarian carcinoma patients. sL1 is a ligand for several Arg-Gly-Asp (RGD)-binding integrins and can be deposited in the extracellular matrix. In this study we describe a novel function of this physiologically relevant form of L1 as a pro-angiogenic factor. We demonstrated that the anti-L1 monoclonal antibody (mAb) chCE7 binds near or to the sixth Ig-like domain of human L1 which contains a single RGD sequence. mAb chCE7 inhibited the RGD-dependent adhesion of ovarian carcinoma cells to sL1 and reversed the sL1-induced proliferation, matrigel invasion and tube formation of bovine aortic endothelial (BAE) cells. A combination of sL1 with vascular endothelial growth factor-A (VEGF-A₁₆₅), which is an important angiogenic inducer in tumors, strongly potentiated VEGF receptor-2 tyrosine phosphorylation in BAE cells. Chick chorioallantoic membrane (CAM) assays revealed the pro-angiogenic potency of sL1 in vivo which could be abolished by chCE7. These results indicate an important role of released L1 in tumor angiogenesis and represent a novel function of antibody chCE7 in tumor therapy.     

Structural and functional aspects of tumor cell sialomucins

Sialomucins are abundant on the surfaces of certain ascites tumor cells and have been implicated in the escape of tumors from immune destruction and metastasis. They are large, highly glycosylated glycoproteins which are rich in serine and threonine and have a variety of 0-linked oligosaccharides. The sialomucin (ASGP-1) or 13762 rat mammary adenocarcinoma ascites cells represents more than 0.5% of the total cell protein and can be isolated from cell membranes by centrifugation in 4 M guanidine hydrochloride-cesium chloride. ASGP-1 can also be isolated from membranes or cells by nonionic detergent extraction as a 1:1 complex with a second glycoprotein ASGP-2. Studies with the fluorescent lectins peanut agglutinin, which binds ASGP-1, and Concanavalin A, which binds ASGP-2, indicate that the glycoproteins are present at the cell surface as a complex. ASGP-1 is shed into cell culture medium or ascites fluid, apparently by a proteolytic cleavage mechanism. 13762 ascites cells grown in culture or as solid tumors lose their ASGP-1. The sialomucin reappears with extensive passage of the tumor cells in ascites form. Studies on the biosynthesis of ASGP-1 indicate that carbohydrate is being added over nearly the entire period of transit of ASGP-1 from the site of polypeptide synthesis to the plasma membrane. The negatively charged, rod-like structure of the sialomucins suggests that they may play a role in inhibiting recognition or binding processes necessary for the immune destruction of these tumor cells.     

Cell surface carbohydrates in adhesion and migration

Cell surface sugar chains extend away from the cell membraneand offer a first line of contact with approaching cells andsubstrates. These sugars are candidates for mediating cell-celladhesion and migration. Here, I review experiments that implicatecarbohydrate-containing molecules in cell-cell adhesion of ascitestumor and embryonic cells and that correlate the mobility ofcarbohydrate-containing receptor sites in the membrane withcellular migratory activity. The experiments show that L-glutamineis required to form complex carbohydrates implicated in mediatingintercellular adhesion and that a controlling factor in determiningcellular adhesiveness may be the specific activity of intracellularglutamme synthetase. Molecules that promote ascites tumor celladhesion have been isolated. These molecules are large, appearto contain terminal D-galactose residues that bind to cell surfacereceptor sites and consist of more than one component on DEAEcellulose. Studies with sea urchin embryonic cells, utilizingplant lectins that bind to surface carbohydrates, indicate thatcell surface sugar-containing receptor sites change during development.In addition only the micromeres, that become actively migratory,possess mobile cell surface lectin receptor sites. Other seaurchin embryonic cell populations (mesonieres and macromeres)do not exhibit lectin receptor site mobility. Cell surface sugar-containingreceptor sites potentially mediate adhesion and migration inembryos and tumors.     

Purification of transferrin and albumin from mouse ascites fluid

Mouse ascites fluid, which is readily obtained when cell lines and hybridomas are maintained in host mice, is a convenient source of several plasma proteins. This paper describes procedures for the purification of albumin and transferrin from mouse ascites fluid. Mouse transferrin was prepared from a 50-75% ammonium sulfate fraction of mouse ascites fluid by CM- and DEAE-cellulose chromatography. Mouse albumin was obtained by the same purification route, but required an additional chromatography step on Cibacron Blue F3GA-agarose. Both proteins were shown to be homogeneous by polyacrylamide gel electrophoresis and immunoelectrophoresis. Characterization, which included a determination of amino acid composition, partial N-terminal sequence, molecular weight and extinction coefficient, correlated well with known values reported for human transferrin and albumin. The purified mouse proteins may be useful for biochemical studies, antibody preparation, and as growth factors for hybridomas or other mouse cell lines maintained in culture.     

Purification of Transferrin and Albumin from Mouse Ascites Fluid

Mouse ascites fluid, which is readily obtained when cell lines and hybridomas are maintained in host mice, is a convenient source of several plasma proteins. This paper describes procedures for the purification of albumin and transferrin from mouse ascites fluid. Mouse transferrin was prepared from a 50–75% ammonium sulfate fraction of mouse ascites fluid by CM- and DEAE-cellulose chromatography. Mouse albumin was obtained by the same purification route, but required an additional chromatography step on Cibacron Blue F3GA-agarose. Both proteins were shown to be homogeneous by polyacrylamide gel electrophoresis and Immunoelectrophoresis. Characterization, which included a determination of amino acid composition, partial N-terminal sequence, molecular weight and extinction coefficient, correlated well with known values reported for human transferrin and albumin. The purified mouse proteins may be useful for biochemical studies, antibody preparation, and as growth factors for hybridomas or other mouse cell lines maintained in culture.     

Nonspecific suppressive effect of Ehrlich tumor ascitic fluid on transplantation immunity]

The influence of syngeneic Ehrlich ascites tumour fluid on the survival of allogeneic skin allografts was investigated on CC57BR mice. A 3--4-day delay of the allograft rejection in mice injected with ascitic fluid was revealed. Preliminary transplantation of such allograft to mice with Ehrlich tumour produced no intensification of the immunodepressive action of the ascites fluid obtained from them. The data obtained indicated the preferential significance of the antigen-independent immunosuppressive factors of ascites tumour fluid in the suppression of the transplantation immunity in vivo.     

Employment of synchronized cells and flow microfluorometry in investigations on the JB-1 ascites tumour chalones.

In most experimental ascites tumours the growth rate decreases with increasing age and cell number. This decrease is caused by a prolongation of the cell cycle and an increasing accumulation of non-cycling cells in resting (or quiescent) G1 and G2 compartments. In cell-free ascitic fluid from the JB-1 ascites tumour in the plateau phase of growth lowmolecular-weight substances have been found which reversibly and specifically arrest JB-1 cells in G1 and G2. The present paper describes an in-vitro model for testing the effect of the humoral growth inhibitors contained in the ascitic fluid. The test system is based on synchronized JB-1 cells analysed by flow-through cytofluorometry. Addition to the synchronous cells of a ultrafiltrate (less than 50000 Daltons) of the JB-1 ascitic fluid was found to induce a complete, but temporary arrest of the cells at the G1-S border.