Lack of evidence of chalone activity in used medium and extract of JB-1 tumor cells in vitro. A flow cytometry study.

In cell-free mouse ascites fluid from the JB-1 ascites tumor in the plateau phase of growth low-molecular chalone substances have been found which reversibly and specifically arrest JB-1 cells in the G1 and G2 phase of the cell cycle. The aim of this study was to investigate whether chalones were involved in the regulation of in vitro growth of JB-1 tumor cells. Used medium and cell extract from confluent, stationary JB-1 cell cultures were investigated for proliferation-inhibitory properties. JB-1 cells from stationary cultures were explanted in test cultures and the traverse of cells through the S phase was investigated by means of flow cytometry (FCM). Inhibition--expressed as a delay of the traverse of cells through the S phase--was not observed when a surplus of used medium, concentrated and fractionated used medium or concentrated and fractionated cell extract from JB-1 cells in vitro was added to test cultures. On the contrary, used medium and concentrated and fractionated used medium stimulated growth. Thus, no involvement of chalones in the growth regulation of JB-1 tumor cells in vitro was detected.     

A Brief Contact with Early Embryonic Cells Induces the Differentiation of Embryonal Carcinoma Cells

An assay system was developed to detect a switch of mouse embryonal carcinoma (EC) cells to the pathway for normal cell differentiation after a brief contact with normal embryonic cells. The system consisted of (1) the mixed aggregation of AT805 EC cells with 8-cell stage mouse embryos, (2) the stationary culture of the mixed aggregates into blastocysts and (3) the cell culture of inner cell masses isolated from chimeric blastocysts containing EC cells at 2, 3 and 4 days after the initiaion of chimeric aggregation. The number of foci of EC cells which appeared in the cultures of inner cell masses was decreased with a length of contact of EC cells with normal embryos as the mixed aggregates. After 4 days' contact, only fibroblastic and epithelial cells appeared in most cultures of inner cell masses. Examination of isozyme markers of GPI revealed that such cell cultures consisting of nonmalignant cells contained cells of tumor origin. Thus, it was concluded that a brief exposure to the environment of normal embryos can regulate the tumor cells to differentiate into non-malignant cells. This conclusion was substantiated by comparing the pattern of protein spots of the tumor cells with that of non-malignant cells of the tumor origin by two dimensional gel electrophoresis.     

Resistance of cancer cells to the TRAIL-induced apoptosis in confluent cultures

TRAIL (TNF-alpha Related Apoptosis-Inducing Ligand) is an attractive candidate for anticancer therapy. TRAIL selectively kills tumor cells, without damaging normal cells. It is known that cancer cells can acquire resistance to chemotherapeutic drugs, oxidative stress in high density culture. This phenomenon appears as a multi-cell resistance, cell adhesion-dependent resistance, or density-dependent resistance of tumor cells. However, it is unclear whether such resistance appears in TRAIL-induced apoptosis. We observed that the resistance to izTRAIL of all tumor cell lines used was considerably increased in confluent cultures. The increase in tumor cell resistance in dense populations is not related to their proliferative status. It was shown that the dissociation of calcium-dependent cell-cell contacts with EGTA did not suppress tumor cell resistance to izTRAIL in confluent cultures. This phenomenon of cancer cells resistance to TRAIL-induced apoptosis should be considered in the development of methods of anticancer therapy.     

26S proteasome activity is down-regulated in lung cancer stem-like cells propagated in vitro

Cancer stem cells (CSCs) are a small subset of cancer cells capable of self-renewal and tumor maintenance. Eradicating cancer stem cells, the root of tumor origin and recurrence, has emerged as one promising approach to improve lung cancer survival. Cancer stem cells are reported to reside in the side population (SP) of cultured lung cancer cells. We report here the coexistence of a distinct population of non-SP (NSP) cells that have equivalent self-renewal capacity compared to SP cells in a lung tumor sphere assay. Compared with the corresponding cells in monolayer cultures, lung tumor spheres, formed from human non-small cell lung carcinoma cell lines A549 or H1299, showed marked morphologic differences and increased expression of the stem cell markers CD133 and OCT3/4. Lung tumor spheres also exhibited increased tumorigenic potential as only 10,000 lung tumor sphere cells were required to produce xenografts tumors in nude mice, whereas the same number of monolayer cells failed to induce tumors. We also demonstrate that lung tumor spheres showed decreased 26S proteasome activity compared to monolayer. By using the ZsGreen-cODC (C-terminal sequence that directs degradation of Ornithine Decarboxylase) reporter assay in NSCLC cell lines, only less than 1% monolayer cultures were ZsGreen positive indicating low 26S proteasome, whereas lung tumor sphere showed increased numbers of ZsGreen-positive cells, suggesting the enrichment of CSCs in sphere cultures.     

Immune regulation of the L5178Y murine tumor-dormant state. II. Interferon-gamma requires tumor necrosis factor to restrain tumor cell growth in peritoneal cell cultures from tumor-dormant mice

L5178Y lymphoma cells are restrained from progressive growth in peritoneal cell ("in vitro tumor-regressor" PC) cultures prepared from many DBA/2 mice which harbor the tumor cells in the peritoneal cavity in a tumor-dormant state. Treatment of these PC cultures with 'antibodies to murine interferon-gamma (MuIFN-gamma) and murine tumor necrosis factor (MuTNF) but not with antibody to interleukin 2 (IL-2) receptors eliminated the restraint on tumor cell growth and permitted their progressive proliferation. L5178Y cells were found to be resistant to the direct toxic effects of large concentrations (3,000 U/ml) of MuIFN-gamma and of MuTNF, either alone or in combination. Treatment of PC cultures from tumor-dormant mice, in which tumor cells grew progressively ("in vitro tumor-progressor"), but not PC cultures from normal mice, with exogenous MuIFN-gamma resulted in a marked inhibition of tumor cell growth. The MuIFN-gamma-induced cytotoxic activity was cell-mediated since no soluble tumor-cytotoxic factors could be detected in the cultures. MuIFN-gamma induced cytotoxic activity in plastic-adherent peritoneal cell (AD-PC) cultures, but induced no cytotoxic activity in nonadherent-PC cultures unless small numbers (2%) of AD-PC were present, and inclusion of antibody to MuTNF in these mixed PC cultures blocked the development of cytotoxic activity. Antibody to MuTNF also blocked the development of cytotoxic activity in cultures of MuIFN-gamma-treated whole PC and AD-PC from tumor-dormant mice. These results indicate that MuIFN-gamma and MuTNF are both important in restraining tumor cell growth in PC cultures from tumor-dormant mice, and that MuIFN-gamma requires the presence of MuTNF to induce cytotoxic activity in these cultures.     

Tumor-basophil interactions in vitro--a scanning and transmission electron microscopic study.

Purified guinea pig basophils, or basophils either specifically degranulated with antigen or nonspecifically degranulated with lectin, were cultured with guinea pig line 1 hepatoma cells for 1 to 24 hr and studied ultrastructurally. As early as 1 hr of culture, degranulated or nongranulated basophils and tumor cells formed close contacts by mutually intertwined elongated cell processes and also in cultures containing degranulated basophils, extruded membrane-free basophil cytoplasmic granules became firmly attached to tumor cells. At later intervals, some tumor cells cultured with basophils exhibited cytostatic and cytopathic changes, including dense mitochondria, centralization of organelles, dilated perinuclear and rough endoplasmic cisternae, cell swelling and cytoplasmic lucency, disrupted cytoplasmic organelle and plasma membranes, nuclear pyknosis and fragmentation. Some tumor cell specialized surface attachments were either disrupted or damaged at points of basophil or basophil granule adhesion. Tumor damage was most extensive in cultures containing degranulated basophils, although only a minority of tumor cells (less than 10%) was affected. Tumor injury was seen much less frequently in the presence of nondegranulated basophils, and was absent in control cultures of tumor alone. The occasional viable tumor cells that phagocytosed basophil granules were apparently unharmed, suggesting that internalization of basophil granules by tumor cells is not cytotoxic.     

Tumorspheres but Not Adherent Cells Derived from Retinoblastoma Tumors Are of Malignant Origin

Verification that cell lines used for cancer research are derived from malignant cells in primary tumors is imperative to avoid invalidation of study results. Retinoblastoma is a childhood ocular tumor that develops from loss of functional retinoblastoma protein (pRb) as a result of genetic or epigenetic changes that affect both alleles of the RB1 gene. These patients contain unique identifiable genetic signatures specifically present in malignant cells. Primary cultures derived from retinoblastoma tumors can be established as non-adherent tumorspheres when grown in defined media or as attached monolayers when grown in serum-containing media. While the RB1 genotypes of tumorspheres match those of the primary tumor, adherent cultures have the germline RB1 genotype. Tumorspheres derived from pRb-negative tumors do not express pRb and express the neuroendocrine tumor markers synaptophysin and microtubule-associated protein 2 (MAP2). Adherent cells are synaptophysin-negative and express pRb, the epithelial cell marker cytokeratin that is expressed in the retinal pigmented epithelium and the vascular endothelial cell marker CD34. While tumorspheres are of malignant origin, our results cast doubt on the assumption that adherent tumor-derived cultures are always valid in vitro models of malignant cells and emphasize the need for validation of primary tumor cultures.     

Adherent Ia+ murine cell lines with characteristics of dendritic cells. II. Characteristics of I region-restricted antigen presentation

The ability of an adherent Ia+, interleukin 1+ (IL-1) tumor cell line (P388AD) to present turkey gamma-globulin (TGG) to primed T lymphocytes was demonstrated and compared with normal antigen-presenting cells (APC) found in mouse spleen. P388AD tumor cells presented TGG to long-term cultures of TGG-reactive T cells (LTTC) and to lymph node-derived T cells which were enriched on nylon wool columns and subsequently depleted of endogenous antigen-presenting cells with anti-Ia antisera and complement. MHC-restricted antigen presentation by P388AD was observed when long-term cultures of TGG-reactive T cells were used as the responding T-cell population. Furthermore, antisera directed against I-region determinants expressed on the P388AD tumor cells inhibited TGG-specific T-cell proliferation in a dose-related fashion, suggesting a functional role for the tumor cell-associated Ia molecules. The kinetics of antigen presentation to LTTC by P388AD were similar to the kinetics observed for splenic APC, although the magnitude of the proliferative response to LTTC to TGG was generally lower when antigen (Ag) was presented by the tumor cells compared to splenic antigen-presenting cells (APC). However, the magnitude of T-cell proliferation of immune lymph node (LN) T cells was comparable when Ag was presented on tumor cells or splenic APC. Several experiments suggested that Ag uptake and/or processing may be less effective in P388AD tumor cells as compared to normal splenic APC. A nonadherent Ia+, IL-1- tumor cell line (P388NA), which was isolated from the same parental tumor as P388AD, was also tested for the ability to present Ag to primed T lymphocytes and Ag-reactive LTTC. In contrast, to P388AD, the nonadherent tumor cell failed to present TGG under identical culture conditions even though Ia molecules were expressed on the tumor cells and Ag uptake had occurred. However, the defect in Ag presentation by P388NA could be corrected if an exogenous source of purified interleukin 1 was supplied to the cultures. A unique opportunity thus exists with both the P388AD and P388NA tumor cell lines to decipher some of the molecular interactions leading to T-cell proliferation during antigen presentation.     

Deoxyribonucleic Acid of Marek''s Disease Virus in Virus-Induced Tumors

DNA was extracted from [(3)H]thymidine-labeled Marek's disease virus (MDV) and purified by two cycles of CsCl gradient centrifugation in a fixed-angle rotor. The DNA was transcribed in vitro into (32)P-labeled complementary RNA (cRNA). MDV cRNA did not hybridize with DNA from chicken embryo fibroblast cultures or from chicken spleen, but hybridized efficiently with DNA from MDV particles or MDV-infected cell cultures. Five Marek's disease tumors from different chickens and different organs (ovary, liver, testis) were all found to contain MDV DNA sequences. The relative amount of MDV DNA varied from tumor to tumor and was between 3 and 15 virus genome equivalents per cell. The content of virus DNA per cell in spleens from tumor-bearing chickens was much lower than in tumors from the same animals. MDV-infected cell cultures contained a large proportion (28-59%) of virus antigen-positive cells, as measured by immunofluorescence, but tumor cells were negative in this respect (<0.02% positive cells). These data indicate that MDV is present in a provirus form in tumor cells.     

Tumor-mediated immunosuppression: prevention by inhibitors of prostaglandin synthesis

The addition of MC16 tumor cells (a prostaglandin E2-producing cell line induced in C57BL/6J mice by methylcholanthrene) to cultures of cells to sheep red blood cells. This inhibition can be blocked by adding to the cultures prostaglandin synthetase inhibitors, such as indomethacin, flufenamic acid and aspirin. These MC16 tumor cells are also immunosuppressive in vivo. Mice bearing the syngeneic MC16 tumor become unresponsive to sheep red blood cells as the tumor grows. As in the in vitro test system, inhibitors of prostaglandin synthetases seem to block the immunosuppressive activity of MC16 cells in vivo since tumor-bearing mice, treated therapeutically with indomethacin, responded normally in their production of antibody to sheep red blood cells.     

Prevention of macrophage tumoricidal activity by agents known to increase cellular cyclic AMP.

The concept of T-T cell interaction which was first suggested during cell-mediated immune response to alloantigens was evaluated in a syngeneic tumor system. The combination of lymph node and thymus cells from BALB/c mice immune against syngeneic tumor cells, mKSA, was shown to exhibit collaboration with respect to in vitro generation of effector cells capable of preventing growth of corresponding tumor cells in the tumor cell neutralization assay. While each cell population of either anatomical site did not prevent tumor growth when tested alone, combinations of both did. The antigen specificity of effector cells generated by synergizing cultures was similar to that of effectors derived from cultures containing optimal numbers of responding lymph node cells. The lymph node and thymus cell populations participating in synergy were found to be thymus dependent. These results suggest that we may be dealing with the same or similar T₁- and T₂-cell populations described before as displaying synergy in response to alloantigens in the graft versus host, mixed lymphocyte, and cell-mediated cytotoxicity reactions.     

A high throughput screen identifies Nefopam as targeting cell proliferation in β-catenin driven neoplastic and reactive fibroproliferative disorders

Fibroproliferative disorders include neoplastic and reactive processes (e.g. desmoid tumor and hypertrophic scars). They are characterized by activation of β-catenin signaling, and effective pharmacologic approaches are lacking. Here we undertook a high throughput screen using human desmoid tumor cell cultures to identify agents that would inhibit cell viability in tumor cells but not normal fibroblasts. Agents were then tested in additional cell cultures for an effect on cell proliferation, apoptosis, and β-catenin protein level. Ultimately they were tested in Apc1638N mice, which develop desmoid tumors, as well as in wild type mice subjected to full thickness skin wounds. The screen identified Neofopam, as an agent that inhibited cell numbers to 42% of baseline in cell cultures from β-catenin driven fibroproliferative disorders. Nefopam decreased cell proliferation and β-catenin protein level to 50% of baseline in these same cell cultures. The half maximal effective concentration in-vitro was 0.5 uM and there was a plateau in the effect after 48 hours of treatment. Nefopam caused a 45% decline in tumor number, 33% decline in tumor volume, and a 40% decline in scar size when tested in mice. There was also a 50% decline in β-catenin level in-vivo. Nefopam targets β-catenin protein level in mesenchymal cells in-vitro and in-vivo, and may be an effective therapy for neoplastic and reactive processes driven by β-catenin mediated signaling.     

Tumor-mediated immunosuppression: Prevention by inhibitors of prostaglandin synthesis

The addition of MC16 tumor cells (a prostaglandin E₂-producing cell line induced in C57B1/6J mice by methylcholanthrene) to cultures of normal syngeneic spleen cells inhibits the antibody response of these cells to sheep red blood cells. This inhibition can be blocked by adding to the cultures prostaglandin synthetase inhibitors, such as indomethacin, flufenamic acid and aspirin. These MC16 tumor cells are also immunosuppressive . Mice bearing the syngeneic MC16 tumor become unresponsive to sheep red blood cells as the tumor grows. As in the test system, inhibitors of prostaglandin synthetases seem to block the immunosuppressive activity of MC16 cells since tumor-bearing mice, treated therapeutically with indomethacin, responded normally in their production of antibody to sheep red blood cells.     

Characterization of effector lymphocytes associated with immunity to murine sarcoma virus (MSV) induced tumors. I. Physical properties of cytolytic T lymphocytes generated in vitro and of their immediate progenitors.

Cytolytic T lymphocytes (CTL) were generated in secondary mixed leukocyte-tumor cell cultures (MLTC) with syngeneic RB1-5 tumor cells as stimulating cells and with responding spleen cells from regressor mice that had rejected a murine sarcoma virus (MSV)-induced tumor. CTL precursor cells were found to be exclusively of thymic origin and non-T cells were apparently not required for CTL generation. When the size variations of CTL from syngeneic MLTC were analyzed by velocity sedimentation it appeared that a transition from small precursor cells to larger effector cells occurred during the first 5 days in culture; this change in cell size was then followed by a shift toward small-sized cells. Furthermore, the CTL generated in syngeneic MLTC in the MSV tumor immune system were compared with those CTL obtained in allogeneic mixed leukocyte cultures (MLC) and were shown to exhibit fundamental similarities.     

Three-dimensional Co-culture Model for Tumor-stromal Interaction

Cancer progression (initiation, growth, invasion and metastasis) occurs through interactions between malignant cells and the surrounding tumor stromal cells. The tumor microenvironment is comprised of a variety of cell types, such as fibroblasts, immune cells, vascular endothelial cells, pericytes and bone-marrow-derived cells, embedded in the extracellular matrix (ECM). Cancer-associated fibroblasts (CAFs) have a pro-tumorigenic role through the secretion of soluble factors, angiogenesis and ECM remodeling. The experimental models for cancer cell survival, proliferation, migration, and invasion have mostly relied on two-dimensional monocellular and monolayer tissue cultures or Boyden chamber assays. However, these experiments do not precisely reflect the physiological or pathological conditions in a diseased organ. To gain a better understanding of tumor stromal or tumor matrix interactions, multicellular and three-dimensional cultures provide more powerful tools for investigating intercellular communication and ECM-dependent modulation of cancer cell behavior. As a platform for this type of study, we present an experimental model in which cancer cells are cultured on collagen gels embedded with primary cultures of CAFs.     

Capacity for tumor cell implantation as a function of in vitro cell density

Implantation properties of two melanoma cell lines, line 26 (low rate of implantation) and line 37 (high rate of implantation) were studied as a function of the cell density of the cells grown in monolayer in vitro. Sparse cultures (collected at a density of 0.8 × 10³ cells cm^?2) of line 37 produced 7.7 times as many lung tumor foci as those of line 26. Confluent cultures (collected at a density of 40 × 10³ cells cm^?2) resulted in greater numbers of tumor foci for both cell lines, but line 37 produced only 3.1 times as many tumor foci as did line 26 cells. Thus the high implantation line (37) has a much greater ability to implant when grown in the sparse state and injected than the low implantation line (26), but both lines have high implantation rates when injected as confluent cells.     

Lymphocytes infiltrating human ovarian tumors. I. Role of Leu-19 (NKH1)-positive recombinant IL-2-activated cultures of lymphocytes infiltrating human ovarian tumors

Tumor-infiltrating lymphocytes (TIL) were obtained from human ovarian tumors, expanded in the presence of IL-2 in culture and studied for cytotoxicity against fresh autologous and allogeneic ovarian carcinoma (CA) targets. TIL from ovarian tumors grew well in long term cultures, achieving from 8- to 682-fold expansion. TIL cultured with IL-2 were cytotoxic against both autologous and allogeneic fresh ovarian CA targets, and no specificity for autologous tumor could be demonstrated in any of the cultures. In all fresh TIL preparations, CD3+ lymphocytes were the major cell type and contained a high proportion (up to 51%) of activated (IL-2R+) cells as determined by two-color flow cytometry. Sorting of bulk TIL cultures followed by cytotoxicity assays identified the Leu-19+ cells, both CD3+ and CD3-, as effectors of cytotoxicity against autologous and allogeneic tumor cell targets. Cold target inhibition assays showed that allogeneic targets (both ovarian CA and a sarcoma) competed effectively with autologous ovarian CA targets for Leu-19+ effectors in TIL cultures. mAb to Leu-19 or Leu-2a did not block lysis of autologous targets by sorted effectors. OKT3 antibody augmented lysis of autologous targets by CD3+Leu-19- effectors only. These results show that non-MHC-restricted Leu-19+ effectors in cultures of TIL with 1000 U/ml of rIL-2 mediate lysis of autologous and allogeneic tumor cells. The CD3+Leu-19- cells, the main population in these cultures, do not mediate tumor lysis. To determine the phenotype of antitumor effectors in IL-2 cultures of TIL, cell sorting followed by functional assays are necessary.     

Relationship Between Organization of Mammary Tumors and the Ability of Tumor Cells to Replicate Mammary Tumor Virus and to Recognize Growth-Inhibitory Contact Signals In Vitro

Mammary tumor virus (MTV) replication was confined primarily to cells organized as acini in intact mouse mammary glands. Primary mammary tumors maintained a high degree of acinar organization and cells therein continued to replicate MTV vegetatively. Nonacinar mammary cells, derived by serial transplantation of acinar tumor cells, no longer actively replicated MTV. This suggests that phenotypic differences exist among mammary epithelial cells in their ability to support virus replication, that a fundamental relationship exists between the organization of epithelium for secretion and active virus replication, and that this relationship is not altered as a primary consequence of neoplastic transformation. Mammary epithelial cells from pregnant, non-tumor-bearing, MTV-infected BALB/cfC3H mice or from acinar mammary tumors from a number of mouse strains were grown in primary monolayer cultures. Such cell cultures under the influence of insulin and cortisol exhibited the ability to organize into discrete three-dimensional structures called "domes." MTV replication in such cultures took place primarily in cells within the organized domes. Cells cultured from nonacinar tumors did not exhibit any propensity to organize into domes, nor did they replicate MTV in primary culture. This suggests that the cell organizational requirement for MTV replication observed in vivo is conserved in primary culture. Dome formation is not an effect of virus replication, as cells from uninfected BALB/c animals organized into domes in culture without concomitant MTV replication. Growth-regulating signals, exerted between contiguous cells in cultures of non-MTV-infected mammary epithelium, were not modified by the occurrence of active virus replication nor as a direct consequence of neoplastic transformation. Cells derived from nontumor BALB/cfC3H glands and from spontaneous tumors exhibited cell growth kinetics, saturation densities, and deoxyribonucleic acid synthesis kinetics nearly identical to those of noninfected normal mammary epithelium in primary culture. Cell to cell growth regulatory signals were modified in cultures of nonalveolar tumor cells wherein evidence of overgrowth is documented.     

Delayed reproductive death and ROS levels in the progeny of irradiated melanoma cells

The cell death and survival of proliferating (clonogenic) cells were investigated in two human melanoma cell lines to assess the optimal conditions for preparation of apoptotic bodies from melanoma cells. After 50 J/m2 UVB+UVC the maximal levels of apoptotic cells assayed by Trypan blue staining, nucleosomal DNA fragmentation, MTT, and TUNEL tests were observed within 2-3 d of radiation. In 100 Gy gamma-irradiated cultures these apoptosis indicators were delayed for up to 3 weeks. In addition, clonogenic cells were observed only in exponentially growing cultures irradiated with UV at high cell density but not in gamma-irradiated cultures. The response of melanoma cultures after high UV radiation doses contrasted to the response in lethally gamma-irradiated cultures. UV-irradiated melanoma cultures were recovered within two weeks. Most of the clonogenic cells in the recovered colonies contained micronuclei. ROS levels determined by DCF fluorescence and a modified MTT test were also normalized obviously due to the extensive antioxidant defense system of melanoma cells. UV radiation of tumor cells might be the preferential method for preparation of apoptotic bodies. The presence of clonogenic cells in the suspension of apoptotic bodies from melanoma cells used for pulsing of dendritic cells with tumor antigens might compromise this protocol for preparation of cell vaccines.