Cell Proliferation In Emt6 Tumors Treated With Single Doses of X-Rays Or Hydroxyurea. I. Experimental Results

EMT6 mouse mammary tumors were treated in vivo with 5 mg/mouse of hydroxyurea (HU) or 300 rads of X-rays. the proliferation of the tumor cells was followed for 28 hr after treatment. Changes in the ³H-TdR labeling index, the mitotic index, the specific activity of the ³H-TdR-labeled DNA, and the proportion of suspended, clonogenic cells in the S phase of the cell cycle were examined and compared. Evidence was found for reassortment of the surviving cells in treated tumors into partially synchronous cohorts. the partial synchrony in the proliferation of the surviving cells was not accurately predicted by the changes in the labeling index and the mitotic index. the changes in DNA specific activity proved unacceptable as an indicator of cell proliferation in solid EMT6 tumors treated with low doses of radiation or HU.     

Radiation Response of Connexin43-Transfected Cells in Relation to the “Contact Effect”

Some cell lines grown for only two cell doublings as multicell spheroids develop a form of resistance to killing by ionizing radiation that has been called the “contact” effect. While our previous results have implicated a role for higher order chromatin structure in the contact effect, another possible explanation is the presence of intercellular gap junctions that might facilitate communication between cells grown as spheroids and thereby enhance the ability of cells to resist or recover from radiation damage. To examine the role of gap junctions in the contact effect, rat glioma C6 and mouse EMT6 cell lines were transfected with a gene encoding the gap junctional protein connexin43. While C6 glioma cells are deficient in gap junctional communication, cells from spheroids were nonetheless more resistant than monolayers to killing by ionizing radiation, and the contact effect was present to a similar extent in the three transfected clones. For mouse EMT6 cells, radiosensitivity was similar whether cells were grown as monolayers or spheroids. Transfection of EMT6 cells with connexin43 increased gap junctional communication but did not promote development of a contact effect. Tumor volume doubling time in SCID mice increased significantly for one transfected clone; however, doubling timein vitrowas also increased relative to the EMT6 parent. We conclude that extensive gap junctional communication is not a requirement for the increased radiation resistance observed when some cell lines are grown as spheroids.     

Molecular events associated with epithelial to mesenchymal transition of nasopharyngeal carcinoma cells in the absence of Epstein-Barr virus genome

Epithelial-mesenchymal transition (EMT) is an important process in tumor metastasis. The EMT-related events associated with metastasis of NPC in the absence of EBV have not been elucidated. We established an EBV-negative NPC cell line from a bone marrow biopsy of an NPC patient. Using a Matrigel system we isolated an invasive and non-invasive sublines, designated NPC-BM29 and NPC-BM00. NPC-BM29 acquired an invasive-like phenotype characterized by EMT, marked by down-regulation of E-cadherin and β-catenin with concomitant increased expression of Ets1. NPC-BM29 cells expressed ≥ 10-fold higher of MMP-9 than NPC-BM00 cells. NPC-BM29 cells grew better in 2% serum than NPC-BM00 cells, with a population doubling-time of 26.8 h and 30.7 h, respectively. A marked reduction in colony-formation ability of NPC-BM00 cells compared to NPC-BM29 was observed. Wound-healing assay revealed that NPC-BM29 cells displayed higher motility than NPC-BM00 and the motility was further enhanced by cell treatment with TPA, a PKC activator. Cell surface markers and tumor-associated molecules, AE3, MAK6 and sialyl-Tn, were up-regulated in NPC-BM29 cells, whereas the expression of HLA-DR and CD54 was significantly increased in NPC-BM00 cells. NPC-BM29 consistently released higher levels of IL-8 and IL-10 than NPC-BM00, with low levels of IL-1α expression in both cell lines. Higher level of VEGF production was detected in NPC-BM00 than NPC-BM29 cells. These data show that EBV is not required for exhibiting multiple metastatic phenotypes associated with EMT. More studies that target right molecules/signalings associated with the EMT may offer new therapeutic intervention options for NPC invasion and metastasis.     

Suppression of tumorigenicity,but not invasion,in glioblastoma/HeLa cell hybrids

Somatic cell hybrids between SNB-19 human glioblastoma cells and human D98^OR HeLa parental cells were produced and analyzed for their ability to form tumors in nude mice and to invade reconstituted extracellular matrix (Matrigel). Whereas both the SNB-19 and D98^OR HeLa parental cells form tumors, four of six hybrid lines did not form tumors, even after periods up to six months, suggesting that each cell type can complement the tumorigenicity of the other. SNB-19 cells showed high rates of Matrigel invasion at all cell densities examined, whereas D98^OR HeLa cells showed lower rates of invasion that were further reduced at high cell density. All six hybrid cell lines displayed a combination of these properties: at low cell density, the hybrids showed high rates of invasion, similar to the SNB-19 cells, but the invasion rate diminished at higher cell densities, similar to the D98^OR HeLa cells. Taken together, these results provide new experimental evidence that several distinct genetic changes are involved in generating the tumorigenic and invasive phenotype of glioblastoma cells. © 1995 Wiley-Liss, Inc.     

Cell proliferation in EMT6 tumors treated with single doses of x-rays or hydroxyurea. I. Experimental results

EMT6 mouse mammary tumors were treated in vivo with 5 mg/mouse of hydroxyurea (HU) or 300 rads of X-rays. The proliferation of the tumor cells was followed for 28 hr after treatment. Changes in the 3H-TdR labeling index, the mitotic index, the specific activity of the 3H-TdR-labeled DNA, and the proportion of suspended, clonogenic cells in the S phase of the cell cycle were examined and compared. Evidence was found for reassortment of the surviving cells in treated tumors into partially synchronous cohorts. The partial synchrony in the proliferation of the surviving cells was not accurately predicted by the changes in the labeling index and the mitotic index. The changes in DNA specific activity proved unacceptable as an indicator of cell proliferation in solid EMT6 tumors treated with low doses of radiation or HU.     

CELL LOSS AND INFLUX OF LABELED HOST CELLS IN THREE TRANSPLANTABLE MOUSE TUMORS USING [125I]UdR RELEASE

The [¹²⁵I]UdR loss technique was used to estimate cell loss from RIF-1, EMT6 and KHJJ tumors in order to determine the length of the delay between labeling and the beginning of the loss of labeled cells, and also to calculate a value for ø, the cell loss factor. To determine the importance of reutilization of label released from the gut and/or the influx of labeled host cells, the blood flow to some tumors was occluded during and for 30 min after injection of the label. Relatively small amounts of radioactivity entered occluded RIF-1 tumors during 9 days after injection of [¹²⁵I]UdR, indicating that reutilization of systemic label and influx of labeled host cells are not significant in this system. In contrast, substantial amounts of radioactivity entered occluded EMT6 and KHJJ tumors, reaching 40% of the total activity in non-occluded tumors during 6 days following injection. After corrections were made for this influx of label, the [¹²⁵I]UdR loss curves from RIF-1 and EMT6 tumors were essentially exponential from the first day following injection of label. This was interpreted as indicating the loss of proliferating as well as non-proliferating cells from both tumors. The cell loss factor derived from the [¹²⁵I]UdR loss curves corrected for influx appeared to agree well with published values derived from analysis of percent labeled mitoses curves. In contrast, the corrected [¹²⁵I]UdR loss curves from KHJJ tumors showed that loss of activity began three days after injection of label, indicating that primarily nonproliferating cells are lost from this tumor.     

Intercellular communication,three-dimensional cell contact and radiosensitivity

When electrically coupled mammalian cells are cultured as spherical clones (spheroids) and exposed to ionizing radiation they are less radiosensitive than monolayers of the same cell line. Investigations into the possible role of coupling (gap junctions) and three-dimensional contact in the expression of this phenomenon revealed

1. a correlation between cell coupling and the activity of adenylate cyclase in monolayers,
2. a sharp drop of cyclase activity in spheroids of coupled cells compared to monolayers, and
3. a decrease of coupling with age (“maturation”) of the spheroids.

These results suggest profound physiological alterations in communicating cells induced under conditions of tight three-dimensional contact as a possible cause for the reduced radiosensitivity of spheroids.     

Absence of contact effects in irradiated EMT6-Rw tumors

Some cells have been reported to show greater resistance to drugs or radiation when growing with close intercellular contacts in spheroids or in solid tumors than when growing with few intercellular contacts in sparse cultures. In some cases this increased resistance reflects an increased capacity of cells in close contact to repair cytotoxic damage. However, not all tumors show contact effects, and in some tumors and spheroids the increased resistance appears to be produced by environmental factors, such as hypoxia, rather than by changes in the repair capacity of the cells. To assess whether EMT6-Rw cells showed increased intrinsic radioresistance when grown as solid tumors, we compared survival curves for cells in exponentially growing monolayers and in solid tumors in BALB/c mice. To avoid complications arising from regional heterogeneity in oxygenation within solid tumors, these irradiations were performed under conditions of uniform, maximal hypoxia. The two survival curves were indistinguishable. Moreover, survival curves for cells suspended from solid tumors, plated at low densities and irradiated immediately, after 5 h of incubation or after 24 h of incubation, were indistinguishable from one another and were indistinguishable from survival curves for cells suspended from exponentially growing monolayers and irradiated immediately using an identical protocol. It therefore appears that contact effects are insignificant for irradiated EMT6-Rw tumors and that the intrinsic radiosensitivity of these cells is similar in culture and in solid tumors.     

The effect of cell density on the expression of cell adhesive properties in a cloned rat astrocytoma (C-6)

The cell-cell adhesion characteristic of C-6 astrocytoma cells changes as a function of cell density. Cell suspensions prepared from monolayers having a density lower than 1 × 10⁵ cells/cm² show maximal affinity for plasma membranes and cells obtained from monolayers at densities greater than 1 × 10⁶ cells/cm² shows minimal affinity for plasma membranes. The adhesive component retained on plasma membranes is present at essentially equal levels in membranes prepared from cells at different density. This modulation in cell surface affinity appears to be due to cell-cell contact and appears to represent a suitable model for the study of the modulation of cell-cell adhesion as a result of cell contact.     

Distribution of legume arabinogalactan protein-extensin (AGPE) glycoproteins in symbiotically defective pea mutants with abnormal infection threads

The interface between the host cell and the microsymbiont is an important zone for development and differentiation during consecutive stages of Rhizobium-legume symbiosis. Legume root nodule extensins, otherwise known as arabinogalactan protein-extensins (AGPEs) are abundant components of infection thread matrix. We have characterized the origin and distribution of these glycoproteins at the symbiotic interface of root nodules of symbiotically defective mutants of pea (Pisum sativum L.) by using immunogold localization with MAC265 an anti-AGPE monoclonal antibody. For mutants with defective growth of infection threads, the AGPE epitope was abundant in the extracellular matrix surrounding infected host cells in the central infected tissue of the nodule, as well as in the lumen of Rhizobiuminduced infection threads. This seems to indicate a mistargeting of AGPE as a consequence of abnormal growth of the infection threads. Furthermore, mutants in the gene sym33 showed reduced labeling with MAC265 and, in some infection threads and droplets, the label was completely absent, a phenomenon that is not observed in wild-type nodules. This suggests an alteration in the composition of the infection thread matrix for sym33 mutants, which may be correlated to the absence of endocytosis of rhizobia into the host cytoplasm.     

Density dependent inhibition of cell growth in cultures of primary and established lines of cells

The effect of cell crowding on DNA synthesis (incorporation of ³HTdR and ³²PO₄) was studied by an improved method in monolayers of secondary cells and established cell lines, either normal or transformed by viruses or carcinogens. The method was based mainly on pulse labeling of cultures of cells a few hours after their seeding in equal numbers onto areas of different size in identical dishes, a condition which ensured equal physiological conditions and different degrees of crowding of cells. DNA synthesis was hardly inhibited in crowded monolayers of secondary chick, mouse and hamster embryo cells. The incorporation of radioactive thymidine and phosphate into DNA of cell lines such as BHK 21, 3T3/SV40 and L929 was strongly inhibited. An SV40-transformed line of hamster kidney cells (HKT7) synthetized DNA equally well in sparse as in crowded monolayers. In lines of human amnion (FL) and BHK 21 cells which were more extensively studied the degree of inhibition of DNA synthesis was inversely proportional to their density. Autoradiography after ³HTdR pulse-labeling indicated that the same proportion of cell nuclei were labeled in sparse and in crowded cultures. The extent of labeling (number of grains per nucleus) was lower in crowded cultures of those cells that also showed inhibition of incorporation of this label as measured by scintillation. The inhibition is thus expressed in retardation of DNA synthesis in cells in S phase rather than arresting it in a larger percentage of cells.     

Effects of radiation on host-tumor interactions using the multicellular tumor spheroid model

Summary Use of the multicellular tumor spheroid as a tumor model allows separate host or tumor treatment with ionizing radiation and examination of the effects on host-tumor immune interactions. Spheroids of EMT6/Ro, a BALB/c mammary tumor were implanted into the peritoneal cavity of syngeneic immunized mice, recovered, and dissociated into single cells. Cytolytic activity of mature spheroid associated cells and peritoneal cells was resistant to radiation doses as high as 1000 rads when irradiated directly prior to assay. Mice irradiated (200, 400, 700 rads) 24 h prior to spheroid injection had an increased number of tumor cells and decreased number of tumor infiltrating and peritoneal host cells upon spheroid recovery. This was paralleled by an increased colony forming efficiency per spheroid. Cytolytic activity of the spheroid associated cells against radiolabeled EMT6 cells was in many cases decreased with radiation although lysis was the same on a per cell basis. Cytolytic activity by peritoneal cells from these mice increased with dose as measured on a per cell basis. This activity from irradiated animals was carried out by a Thyl⁺ cell.     

Simvastatin inhibits the development of radioresistant esophageal cancer cells by increasing the radiosensitivity and reversing EMT process via the PTEN-PI3K/AKT pathway

Acquired radioresistance compromises the efficacy of radiotherapy for carcinomas including esophageal cancer (EC), thus resulting in recurrence and poor survival. Recent research corroborated radiosensitive function of simvastatin in stem-like breast cancer cells. However, its role in EC radioresistance remains poorly elucidated. Here, we developed a radioresistant EC cell line Ec9706-R with higher resistance to irradiation relative to control Ec9706 cells. Intriguingly, Ec9706-R cells exhibited epithelial-mesenchymal transition (EMT) characteristics with high invasion and migration ability. Simvastatin sensitized radioresistance of Ec9706-R cells and suppressed cell proliferation, but aggravated radiation-induced apoptosis and caspase-3 activity. Furthermore, simvastatin reversed EMT and inhibited cell invasion and migration of Ec9706-R cells. Mechanism assay confirmed the activation of PI3K/AKT pathway after radiation, which was inhibited by simvastatin. After restoring this pathway by its activator, IGF-1, simvastatin-mediated radiosensitivity and EMT reversion were abrogated. Further assay substantiated the PTEN suppression after irradiation, which was elevated following simvastatin pre-treatment. Moreover, PTEN cessation attenuated the inhibitory effect of simvastatin on PI3K/AKT activation, and subsequently antagonized simvastatin-induced radiosensitivity and EMT reversion. Additionally, simvastatin aggravated radiation-mediated Ec9706-R tumor growth inhibition. Together, simvastatin inhibits the development of Ec9706-R cells by increasing radiosensitivity and reversing EMT via PTEN-PI3K/AKT pathway, implying a promising strategy against EC radioresistance.     

Control by cell interaction of phosphate uptake in 3T3 cells.

Phosphate uptake by monolayers of 3T3 cell decreases when the cultures enter the stationary phase, even when incubated in fresh medium containing 10% serum. However, SV 3T3 cultures retain a high rate of phosphate uptake when the cells reach saturation densities.We have observed that 3T3 cells grown to stationary phase in monolayers and then trypsinized and incubated in suspension, display an increase in phosphate uptake when the cell concentration is decreased from 10⁶ cells/ml to 10⁵ cells/ml. Where the cell concentration is further reduced from 10⁵ cells/ml to 2.5 × 10⁴ cells/ml there is no further increase in the rate of phosphate uptake. We observed, on the contrary, a small decrease.The “concentration effect” (the decrease of phosphate uptake when the cell concentration increases from 10⁵ to 10⁶ cells/ml) is larger when cells originate from a culture in stationary phase than when they originate from a culture in log phase.The “concentration effect” may be observed 10 min after cell incubation but is larger after a lag time of 40 min incubation.Differences in the “concentration effect” may be noted between 3T3 and SV 3T3 cells. In SV 3T3 cells no significant variations of phosphate uptake were observed when the cell concentration was changed. Thus, differences between phosphate uptake in 3T3 and SV 3T3 cells are large when cells are incubated at high concentrations or at high densities and small when they are incubated at low concentrations or at low densities.The “concentration effect” in 3T3 cells supports the assumption that interactions between cells cause the decrease of phosphate metabolism in dense culture. Diffusion of an inhibitor into the medium remains the more plausible explanation of the data.     

红豆草根瘤侵入线的超微结构研究

用透射电镜对红豆草根瘤侵入线的超微结构进行了观察研究.结果表明,(1)红豆草根瘤侵入线由胞间隙和胞间层细胞壁内陷形成,它们的体积较小,多为管状,基质丰富,含菌很少,常有分叉和1个以上的基质区,而且不同基质区的电子密度、细菌数量和侵入线壁厚度都不相同.(2)红豆草根瘤的侵入线十分丰富,它们不仅大量存在于根瘤分生细胞和幼龄侵染细胞中,也经常出现在发育成熟的侵染细胞内.(3)红豆草根瘤中有一种近似圆形的特殊结构,表面由一层膜包围,其内电子密度较低且无固定结构,且只位于侵染细胞的细胞质中,常在侵入线附近,从不出现在侵染细胞的液泡内和非侵染细胞里面.     

HUMAN VASCULAR ENDOTHELIAL CELLS IN CULTURE : Growth and DNA Synthesis

Human endothelial cells, obtained by collagenase treatment of term umbilical cord veins, were cultured using Medium 199 supplemented with 20% fetal calf serum. Small clusters of cells initially spread on plastic or glass, coalesced and grew to form confluent monolayers of polygonal cells by 7 days. Cells in primary and subcultures were identified as endothelium by the presence of Weibel-Palade bodies by electron microscopy. A morphologically distinct subpopulation of cells contaminating some primary endothelial cultures was selectively subcultured, and identified by ultrastructural criteria as vascular smooth muscle. Autoradiography of endothelial cells after exposure to [³H]thymidine showed progressive increases in labeling in growing cultures beginning at 24 h. In recently confluent cultures, labeling indices were 2.4% in central closely packed regions, and 53.2% in peripheral growing regions. 3 days after confluence, labeling was uniform, being 3.5 and 3.9% in central and peripheral areas, respectively. When small areas of confluent cultures were experimentally "denuded," there were localized increases in [³H]thymidine labeling and eventual reconstitution of the monolayer. Liquid scintillation measurements of [³H]thymidine incorporation in primary and secondary endothelial cultures in microwell trays showed a similar correlation of DNA synthesis with cell density. These data indicate that endothelial cell cultures may provide a useful in vitro model for studying pathophysiologic factors in endothelial regeneration.     

Real-time detection of 13C NMR labeling kinetics in perfused EMT6 mouse mammary tumor cells and betaHC9 mouse insulinomas

A method was developed for obtaining high signal-to-noise 13C NMR spectra of intracellular compounds in metabolically active cultured cells. The method allows TCA cycle labeling kinetics to be determined in real time without significant oxygen transport limitations. Cells were immobilized on the surface of nonporous microcarriers that were either uncoated or coated with polypeptides and used in a 12-cm3 packed bed. The methods were tested with two EMT6 mouse mammary tumor cell lines, one strongly adherent and the other moderately adherent, and a weakly adherent mouse insulinoma line (betaHC9). For both EMT6 lines, NTP and oxygen consumption measurements indicated that the number of cells in the spectrometer ranged from 6 x 10(8) to 1 x 10(9). During infusion of [1-13C]glucose, labeling in C-4 glutamate (indicative of flux into the first half of the TCA cycle) could be detected with 15-min resolution. However, labeling for C-3 and C-2 glutamate (indicative of complete TCA cycle activity) was fivefold lower and difficult to quantify. To increase TCA cycle labeling, cells were infused with medium containing [1,6-13C2]glucose. A 2.5-fold increase was observed in C-4 glutamate labeling and C-3 and C-2 glutamate labeling could be monitored with 30-min resolution. Citrate synthase activity was indirectly detected in real time, as [3,4-13C2]glutamate was formed from [2-13C]oxaloacetate and [2-13C]acetate (of acetyl-CoA). Cell mass levels observed with betaHC9 cells were somewhat lower. However, the 13C S/N was sufficient to allow real-time monitoring of the response of intracellular metabolite labeling to a step change in glucose and a combined glutamine/serum pulse.