Transforming growth factor-β and its receptor are differentially regulated in human embryonal carcinoma cells

The human embryonal carcinoma cell lines Tera-2 clone 13 and NTera-2 clone D1 can be induced by retinoic acid to differentiate in vitro into neuroectodermal derivatives. The undifferentiated cells are rapidly proliferating and tumorigenic, whereas retinoic-acid-treated cells possess a decreased growth rate, lose their transformed phenotype and show a finite lifespan. Differentiation is accompanied by a marked increase in the levels of mRNA for TGF-beta 1 and TGF-beta 2 and the production of TGF-beta activity. Just like murine embryonal carcinoma cells the growth of Tera-2 clone 13 cells is not affected by the addition of either TGF-beta 1 or TGF-beta 2 to the culture medium. In contrast to published data on murine embryonal carcinoma cells, Tera-2 clone 13 and NTera-2 clone D1 cells bind TGF-beta 1 with high affinity, which is due to the presence of type-III TGF-beta receptors. Furthermore, and again in contrast to murine embryonal carcinoma cells, treatment of the human embryonal carcinoma cells with retinoic acid causes a nearly complete loss of TGF-beta 1 binding sites. These results are discussed in the light of similarities and differences in the regulation of growth and differentiation of human and murine embryonal carcinoma cell lines.     

Histone H10 mRNA and protein accumulate early during retinoic acid induced differentiation of synchronized embryonal carcinoma cells

The very lysine-rich replacement histone variant H1⁰ is found to be present in different murine (C1003, PC13, P19) and human (Tera-2) embryonal carcinoma cell lines. The proportion of H1⁰ increases upon induction of differentiation of the different cell lines by various treatments. In undifferentiated PC13 EC cells H1⁰ mRNA is present at a low level. During retinoic acid induced differentiation of mitotically synchronized PC13 EC cells, accumulation of H1⁰ mRNA starts in the first cell cycle. The H1⁰ protein level starts to increase in the second synchronous cycle preceding changes in the cycle parameters that become apparent in the third cycle. The results provide further support for an important role of H1⁰ in the control of cellular differentiation in early mammalian development.Abbreviations EC embryonal carcinoma - RA retinoic acid - DAPT 4-6-diamino-2-phenylindole - SDS sodium dodecylsulphate - DMSO dimethyl sulfoxide - TCA trichloro acetic acid     

Predominant induction of gelsolin and actin-binding protein during myeloid differentiation

Three actin-associated proteins, actin-binding protein, gelsolin, and profilin, influence gelation, solation, and polymerization, respectively, of actin in vitro. As assessed with specific cDNA probes and immunoaffinity reagents, a 7-50-fold increase in gelsolin, 3-5-fold increase in actin-binding protein, and less than 2-fold increases in actin and profilin protein and mRNA levels accompanied tetradecanoylphorbolacetate-induced differentiation of the myeloid cell lines U937 and HL60 into macrophage-like cells. Such induction in actin-binding protein or gelsolin did not occur in K562 cells, which respond minimally to tetradecanoylphorbolacetate, or following 1,25-dihydroxyvitamin D3-induced monocyte-like differentiation of U937, which results in a less motile phenotype. These observations suggest that increases in gelsolin and actin-binding protein are essential to the expression of many regulated motile functions which takes place during differentiation of myeloid cells.     

Modulation of lysosomal-associated membrane glycoproteins during retinoic acid-induced embryonal carcinoma cell differentiation

Differentiation of the murine embryonal carcinoma (EC) cell lines F-9 and PC-13, induced by beta-all transretinoic acid (RA) resulted in an increased level of two lysosomal-associated membrane glycoproteins (LAMP-1 and LAMP-2). After differentiation, the levels of both LAMPs in the EC cells were comparable to those found in visceral and parietal endoderm cell lines (PSA-5E and PYS-2, respectively). RA treatment of the EC cells also resulted in an increase in the apparent Mr of both LAMPs apparently due to increased glycosylation because the deglycosylated LAMP-1 from undifferentiated and from differentiated cells had a similar electrophoretic migration. Indeed, the binding of 125I-labeled L-phytohemagglutinin (L-PHA) to glycoproteins with Mr or 90,000-130,000 increased after differentiation and about 24 times more 125I-labeled L-PHA bound to LAMP-1 isolated by immunoprecipitation from extracts of RA-treated F-9 cells than to LAMP-1 from undifferentiated cells. The increased level of the LAMPs was detected in F-9 cells treated with greater than 10(-7) M RA and required greater than 48 h of treatment as did the increased expression of the B1 chain of laminin, an established marker for differentiation in this system. LAMP-1- and L-PHA-reactive glycoproteins were localized by fluorescence techniques to intracellular vesicles, presumably lysosomes, and to the cell surface and both increased after RA treatment. LAMP-2 was barely detectable intracellularly in undifferentiated cells but could be detected clearly after differentiation. In contrast, no LAMP-2 could be detected on the cell surface either before or after differentiation of F-9 cells. The increased level and glycosylation of both LAMP-1 and LAMP-2 was observed also in cells treated with a synthetic chalcone carboxylic acid analog of RA and by combination of either retinoid with dibutyryl cyclic AMP. These results demonstrate that differentiation of EC cells is accompanied by changes in the synthesis and glycosylation of LAMP glycoproteins and that these changes are specific for the cell type that results after differentiation.     

Control of laminin synthesis during differentiation of F9 embryonal carcinoma cells

Molecular clones complementary to the mRNA species for the A, B1 and B2 chains of murine laminin were identified by hybrid-selection and in vitro translation. Northern blot analysis demonstrated that the three clones, p59 (A), p2 (B1) and p16 (B2) hybridized to mRNA species 9.8, 6.0, and 8.0 kb in length, respectively. The three clones were used as probes to monitor the steady-state levels of laminin mRNA species during differentiation of F9 embryonal carcinoma cells induced by treatment with retinoic acid and dibutyryl cyclic AMP. The steady-state levels of the three mRNA species appeared to increase in a coordinate manner. Undetectable levels at the beginning of induction were followed by a dramatic increase in the levels of the three mRNA species between 48 and 72 h. The kinetics parallel the increase in laminin synthesis and the striking morphological changes previously reported.     

Characterization of epidermal growth factor receptor induction by retinoic acid in a chemically transformed rat liver cell line

Levels of epidermal growth factor (EGF) receptor expression vary widely among cell lines derived clonally from a chemically transformed population of rat liver epithelial cells. Retinoic acid (RA), a derivative of vitamin A that stimulates differentiation in a number of embryonal cell lines, increases the level of 125I-EGF binding in several clones of the transformed cell lines. One such cell line, GP6ac, which reverts to a less transformed phenotype when treated with RA, exhibited a 3-4-fold increase in surface EGF receptors with prolonged (2-5-day) RA exposure. The increase persisted as long as the cells were treated with RA. The increase in surface EGF receptors was due to induction of receptor biosynthesis, which occurred within 4 h at both the mRNA and protein levels and persisted until the RA was withdrawn. Paradoxically, the RA response was accompanied by an initial 40-50% decrease in 125I-EGF binding during the first 12 h of RA treatment. The decrease was due primarily to a reduction of receptor affinity. Since the phorbol ester 12-O-tetradecanoylphorbol-13-acetate also decreases 125I-EGF binding and increases EGF receptor biosynthesis in GP6ac cells, we tested the effect of RA in cells depleted of protein kinase C by prolonged treatment (18 h) with 10 microM 12-O-tetradecanoylphorbol-13-acetate. The absence of protein kinase C did not affect the induction of receptor mRNA and protein or the decrease in binding during the early period of RA exposure. This indicates that RA induction of EGF receptor synthesis in GP6ac cells involves signaling pathways distinct from those utilized by phorbol esters.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cell cycle analysis during retinoic acid induced differentiation of a human embryonal carcinoma-derived cell line

Several subclones of the human embryonal carcinoma (EC) cell line Tera-2 can be induced to differentiate in monolayer culture by retinoic acid (RA) to a flattened cell type with reduced growth rate. Using a method based on the transition probability model, we have analysed changes in cell cycle kinetics of Tera-2 cells during the differentiation process. Growth inhibition was shown to occur without a lag period and to be partly due to an increase in the duration of the S-phase, but with a relatively greater contribution from an increase in the duration of G1-phase. Since the fraction of the cell population in the G1-phase then doubled, cells accumulated in this part of the cycle. In contrast, the reduced proliferation rate of two murine EC cell lines, PC13 and P19, treated with RA occurs after a lag period of about two cell cycles and is mainly attributable to an increase in the duration of the S-phase. The results illustrate a differential response of human and murine EC cells to growth regulation by RA and again emphasize that although the stem cells of murine teratocarcinomas may provide a useful model, they are not identical to their human counterparts.     

Constitutive versus cell cycle regulation of c-myb mRNA expression correlates with developmental stages in murine B lymphoid tumors.

The expression of c-myb mRNA is differentially regulated in murine B lymphoid tumors such that B cell lymphomas and plasmacytomas contain significantly less c-myb mRNA than pre-B cell lymphomas. To examine the low level of c-myb mRNA expression in the murine B cell lymphoma cell line BCL1, nonessential amino acid starvation was used to block these cells in a G1 state. When BCL1 cells were released from this block, a 7- to 10-fold increase in c-myb mRNA was detected in late G1 and S phase cells relative to that detected in exponentially growing BCL1 cells. This increase was not inhibited by aphidicolin. To determine whether cell cycle regulation of c-myb mRNA expression occurred during exponential growth in both murine pre-B cell lymphoma and B cell lymphoma cell lines, elutriation was used to separate exponentially growing cell populations. An increase in c-myb mRNA expression was seen in late G1 and S phase fractions from B cell lymphoma cell lines. In contrast, c-myb mRNA levels remained constant in elutriation fractions isolated from pre-B cell lymphoma cell lines. Expression of c-myb mRNA was not detected in exponentially growing or in Go serum-stimulated murine fibroblasts. These results indicate that constitutive vs cell cycle regulation of c-myb mRNA expression is related to the state of differentiation in murine B lymphoid tumors and suggest that a switch in regulation may occur during normal B cell development.     

Studies on the activity of the X chromosomes in female teratocarcinoma cells in culture

Embryonal carcinoma cells derived from murine teratocarcinomas are able to differentiate into the same variety of tissue types as early embryonic cells. Because embryonal carcinoma cells resemble those of the embryo at a stage before X chromosome inactivation has occurred in females embyronal carcinoma cells containing two X chromosomes were examined to determine whether both are genetically active. The specific activities of X-linked enzymes were measured in embryonal carcinoma cells containing either one or two X chromosomes. The activities in both cell types were similar, suggesting that only one X chromosome was active in the female cells. Further support for this conclusion came from experiments in which azaguanine-resistant mutants were recovered with similar frequencies from embryonal carcinoma cell lines containing one and two X chromosomes. Late replication of an X chromosome DNA was detected in one embryonal carcinoma cell line with two X chromosomes but not in another. This suggests that cells of these two lines were arrested at different developmental stages, and that late DNA replication may not be a necessary adjunct of X inactivation. Evidence is presented which suggests that X chromosome reactivation does not occur during differentiation of the cells in vitro.     

Altered activation by calcitonin and inhibition by somatostatin of human embryonal carcinoma cell adenylate cyclase with retinoic acid-induced differentiation

Human teratocarcinoma cells in culture offer an in vitro system for studying certain aspects of embryonic differentiation. To gain some insight into regulatory systems that might be operative during early human development, we have characterized the alterations that occur in the hormonal responsiveness of human embryonal carcinoma cell adenylate cyclase with differentiation in response to 10 microM retinoic acid. Two cell lines CL12 and CL13, cloned from Tera 2 cells by Dr. C. F. Graham, have been used in these studies. Adenylate cyclase of CL12 and CL13 cells is stimulated in the presence of 10 microM GTP by epinephrine and calcitonin, with calcitonin being the most potent stimulator of cyclic AMP production. Exposure of these cells to retinoic acid leads to an arrest in growth and within 6 days to a differentiated cell population with a stable nonreversible phenotype. No changes in basal, GTP- and fluoride-stimulated adenylate cyclase activities are observed with retinoic acid treatment, but the cyclase of differentiated cells exhibits a greater stimulation by calcitonin (7.5-fold) and the appearance of a somatostatin inhibitory effect. Somatostatin specifically inhibits, by 25%, the hormonal stimulation of adenylate cyclase of cells treated for 5 days with retinoic acid. The increase in calcitonin stimulation of adenylate cyclase activity of the differentiated cells is related to an increase (congruent to 3-fold) in the number of hormonal receptors and not to a significant change in receptor binding affinity (Kd 4.6 X 10(8) M-1). These alterations in calcitonin and somatostatin responsiveness suggest a possible regulatory role for these hormones during embryonic development. Furthermore, the results indicate that changes in adenylate cyclase hormonal responsiveness might serve as useful markers during early stages of human embryonal carcinoma cell differentiation.     

The small heat shock protein hsp25 is accumulated in P19 embryonal carcinoma cells and embryonic stem cells of line BLC6 during differentiation

Murine embryonal carcinoma and embryonic stem cell lines were investigated with regard to the occurrence of the small heat shock protein hsp25 during cell growth and differentiation. In the embryonal carcinoma cell line F9 considerable constitutive levels of hsp25 were observed which could be slightly increased by treatment with retinoic acid. No hsp25 was found, however, in the embryonal carcinoma cell line PCC4. When analyzing the pluripotent embryonal carcinoma cell line P19 and the pluripotent embryonic stem cell line BLC6, both characterized by high differentiation capacity, no hsp25 was observed under cell culture conditions maintaining the undifferentiated state. Induction of differentiation caused by prolonged cell culture, retinoic acid treatment, or embryoid body formation, however, resulted in an increase of the level of hsp25. The finding that hsp25 is accumulated in a differentiation-dependent manner suggests that this protein is associated with processes involved in differentiation. Therefore, hsp25 can be regarded as a marker of differentiation in the investigated embryonal carcinoma cell line P19 and the embryonic stem cell line BLC6.     

Increased Expression of β-Amyloid Protein Precursor and Microtubule-Associated Protein τ During the Differentiation of Murine Embryonal Carcinoma Cells

Expression of the genes encoding the beta/A4 amyloid protein precursor (APP) and microtubule-associated protein tau was studied in an embryonal carcinoma cell line (P19) that differentiates in vitro into cholinergic neurons after treatment with retinoic acid. Expression of APP increased 34- (mRNA) and 50-fold (protein) during neuronal differentiation; APP-695 accounted for most of this increase. These remarkable increases in APP expression coincided with a proliferation of neuronal processes and with an increase in content of tau mRNA. Moreover, subsequent decreases in the levels of APP and tau mRNA coincided with the onset of the degeneration of the neuronal processes. Immunocytochemical staining suggested that greater than 85% of the P19-derived neurons are cholinergic and that APP is present in the neuronal processes and cell bodies. These results suggest that APP may play an important role in construction of neuronal networks and neuronal differentiation and also indicate that this embryonal carcinoma cell line provides an ideal model system to investigate biological functions of APP and the roles of APP and tau protein in development of Alzheimer's disease in cholinergic neurons.     

Cellular HSP90 (HSP86) mRNA level and in vitro differentiation of mouse embryonal carcinoma (F9) cells

Treatment of mouse embryonal carcinoma (F9) cells with retinoic acid, an inducer of F9 cell differentiation, greatly increased the level of mRNA specific to one of the heat-shock proteins (HSP86). Experiments including the one employing differentiation-resistant mutant F9 cells suggested that the increase represents early molecular events associated with the embryonal differentiation. The increased HSP86 mRNA declined to the original level during further incubation. The presence of cyclic AMP, which stimulates conversion of the retinoic acid-induced primitive endoderm cells to parietal endoderm cells, prevented the decline. These results suggest that not only the elevation of HSP86 mRNA level represents early molecular events in F9 cell differentiation but also that sustaining the elevated level (by cyclic AMP) is associated with further differentiation of the embryonal cells.     

Saccharides on teratocarcinoma cell plasma membranes their investigation with radioactively labelled lectins

We have studied the interaction of five lectins differing in their sugar specificity, with the surface of clonal cell lines derived from transplantable murine teratocarcinoma. The results show that the differentiation from primitive embryonal carcinoma cells into parietal yolk sac cells is accompanied by changes in cell surface saccharides. These changes consist of a marked decrease in the total number of binding sites for the l-fucose-specific lectin of Lotus tetragonolobus and a large increase in the total number of binding sites for wax bean agglutinin. It is suggested that these differences can be used as markers in the study of this early embryonic differentiation. No agglutination of primitive embryonal carcinoma cells or of parietal yolk sac cells by low concentrations (10 μg/ml) of concanavalin A, soybean agglutinin or the fucose binding proteins was observed.     

H1 Histone and nucleosome repeat length alterations associated with the in vitro differentiation of murine embryonal carcinoma cells to extra-embryonic endoderm

The histone compositions and average distance between nucleosomes have been determined for F9.22 and PSA1 murine embryonal carcinoma cell lines, for primary extra-embryonic endoderm derived from the in vitro differentiation of PSA1 embryonal carcinoma cells, and for two long-term extra-embryonic endodermal cell lines. A change in the relative proportions of two forms of the H1 histones (H1A and H1B) was found to correlate with the extra-embryonic endodermal differentiated phenotype. The embryonal carcinoma cells had a ratio of H1A/H1B of 1.49 or greater. In contrast, extra-embryonic endoderm from either cell lines or freshly isolated from differentiating embryonal carcinoma cell cultures had a ratio of H1A/H1B of less than 0.9. Partial peptide mapping of gel purified H1A and H1B suggest the two proteins differ in primary structure. The nucleosome repeat length of the embryonal carcinoma cell lines was 196 bp of DNA. Primary extra-embryonic endoderm was found to have a value of 205 bp, but the long-term extra-embryonic endodermal cell lines had an average nucleosome repeat length of 187 bp. Since both freshly isolated primary endoderm and the long-term endodermal cell lines express differentiated functions (basement membrane glycoproteins and plasminogen activator activity), there appears to be no simple correlation between the nucleosome repeat length and the expression of these differentiated functions.     

Regulation of phenotype in somatic cell hybrids derived by fusion of teratocarcinoma cell lines with normal or tumor-derived mouse cells

The phenotypes of somatic cell hybrids between murine embryonal carcinoma cell lines, F9 BrdU 7C12 and PCC4 aza 1, and normal murine splenic lymphocytes or thymoma-derived cell lines were compared. Analysis of morphology in vivo and in vitro of cell surface markers and of the karyotype of these cloned hybrid cells did not reveal any simple mechanism for the regulation of the phenotype of such hybrids. Hybrids of either the embryonal carcinoma cell phenotype or of a differentiated morphology (resembling neither parental cell) but not of lymphoid morphology can be derived from fusions of this type. Moreover, transition from one phenotype to the other (ECC → differentiated cell and differentiated cell → ECC) can be found with passage of clonally derived hybrid cell lines. Coordinate control of the phenotypic markers of the state of differentiation in these hybrid cells was found.     

The response of several murine embryonal carcinoma cell lines to stimulation of differentiation by alpha-difluoromethylornithine

In an attempt to better establish the relationship between polyamine levels and the differentiation of embryonal carcinoma cells, we have examined the ability of alpha-difluoromethylornithine (DFMO), a known inducer of differentiation in one embryonal carcinoma cell line, to stimulate the differentiation of embryonal carcinoma cells from a variety of cell lines. Differentiation was monitored using a variety of criteria including morphological alterations and changes in biochemical and antigenic parameters. Depending on their response to difluoromethylornithine, three classes of cell lines could be identified, those which 1) differentiate extensively, 2) differentiate poorly, and 3) fail to differentiate. Three different classes of embryonal carcinoma cell lines reflect differential changes in polyamine levels resulting from inhibition of ornithine decarboxylase enzyme activity by DFMO. The specific cell lines which exhibit large decreases in both ornithine decarboxylase activity and polyamine levels also show extensive differentiation. The cell lines which show only moderate decreases in enzyme activity and polyamines differentiate poorly while the cell lines which fail to respond to DFMO in that polyamines do not drop below the threshold level necessary to induce differentiation fail to differentiate. These studies suggest that decreases in intracellular polyamines induce EC cell differentiation in vitro.