Protein Synthesis in Hybrid Cells Derived from Fetal Rat × Mouse Chimeric Organs

Abstract. Malignant hybrid cells (As3) derived from fusion of rat hepatoma cells (Fu5AH) with mouse teratocarcinoma cells (OTT6050) were injected into genetically marked mouse blastocysts which were subsequently transferred into pseudopregnant surrogate mothers. From a total of 61 fetuses developed, four normally differentiated fetuses at day 18 of gestation showed hybrid cell contributions in their livers and a few other organs of endo-mesodermal origin. The chimeric tissues were briefly cultured in vitro and then further investigated for their protein synthesis using two-dimensional gel electrophoresis. After comparison of the protein patterns obtained from the corresponding normal rat and mouse organs, several rat-specific polypeptides were detected in the cultured chimeric tissues illustrating functional xenogeneic gene expression during in situ differentiation. In addition, some other rat proteins characteristic of the parental hybrid cell line disappeared. The tumorigenicity of the chimeric tissues was tested by subcutaneous transplantation into immunodeficient nude mice. Tumors originating from two of the four chimeric organs differed histologically from those formed by cells of the hybrid As3 line since they also contained muscle-like structures resembling rhabdomyosarcomas. The tumors were analyzed for their protein synthesis and compared with the three malignant cell lines of parental origin. The morphologic differences between the tumors derived from the chimeric organs and those developed from the As3 cell line were also reflected in characteristic differences of their protein synthesis patterns. Our results demonstrate that interspecific rat × mouse hybrid cells, when implanted into early mouse embryos, participate in fetal tissue differentiation and selectively repress certain rat gene products typical of the malignant parental cells as well as functionally reactivate other rat genes presumably required for normal development.     

Induction of class 3 aldehyde dehydrogenase in the mouse hepatoma cell line Hepa-1 by various chemicals.

The mouse hepatoma cell line Hepa-1 was shown to express an aldehyde dehydrogenase (ALDH) isozyme which was inducible by TCDD and carcinogenic polycyclic aromatic hydrocarbons. The induced activity could be detected with benzaldehyde as substrate and NADP as cofactor (B/NADP ALDH). As compared with rat liver and hepatoma cell lines, the response was moderate (maximally 5-fold). There was an apparent correlation between this specific form of ALDH and aryl hydrocarbon hydroxylase (AHH) in the Hepa-1 wild-type cell line--in terms of inducibility by several chemicals. However, the magnitude of the response was clearly smaller for ALDH than for AHH. Southern blot analysis showed that a homologous gene (class 3 ALDH) was present in the rat and mouse genome. The gene was also expressed in Hepa-1 and there was a good correlation between the increase of class 3 ALDH-specific mRNA and B/NADP ALDH enzyme activity after exposure of the Hepa-1 cells to TCDD. It is concluded that class 3 ALDH is inducible by certain chemicals in the mouse hepatoma cell line, although the respective enzyme is not inducible in mouse liver in vivo.     

Activation of production of mouse liver enzymes in rat hepatoma-mouse lymphoid cell hybrids

The production of four liver-specific enzymes (tyrosine aminotransferase or TAT, alanine aminotransferase, aldolase B, and alcohol dehydrogenase) has been analyzed in rat hepatoma-mouse lymphoid cell hybrids containing a 1s or 2s complement of rat chromosomes. The hybrid clones which retain a nearly 2s complement of rat chromosomes show high activity of all four enzymes; those which contain a 1s rat complement show partial or complete extinction of these enzymes. The tyrosine aminotransferase produced by most of the hybrid clones is identifiable as being of both rat and mouse origin, based upon criteria of temperature sensitivity and electrophoretic mobility; antiserum to the rat liver enzyme was used to distinguish the pseudo-TAT produced by the lymphoid parent from liver-TAT produced by hepatoma and hybrid cells. By the criteron of electrophoretic mobility, the liver form (B) of aldolase, produced by only some of the hybrid clones, appears to be composed of both rat and mouse subunits. We conclude that when extinction of tissue-specific proteins does not occur or is only partial in hybrid cells (due to gene dosage effects), the genomes of both parents may be active in directing synthesis of these proteins.     

Human immature dental pulp stem cells' contribution to developing mouse embryos: production of human/mouse preterm chimaeras

Objectives:  In this study, we aimed at determining whether human immature dental pulp stem cells (hIDPSC) would be able to contribute to different cell types in mouse blastocysts without damaging them. Also, we analysed whether these blastocysts would progress further into embryogenesis when implanted to the uterus of foster mice, and develop human/mouse chimaera with retention of hIDPSC derivates and their differentiation.
Materials and Methods:  hIDPSC and mouse blastocysts were used in this study. Fluorescence staining of hIDPSC and injection into mouse blastocysts, was performed. Histology, immunohistochemistry, fluorescence in situ hybridization and confocal microscopy were carried out.
Results and Conclusion:  hIDPSC showed biological compatibility with the mouse host environment and could survive, proliferate and contribute to the inner cell mass as well as to the trophoblast cell layer after introduction into early mouse embryos ( n  = 28), which achieved the hatching stage following 24 and 48 h in culture. When transferred to foster mice ( n  = 5), these blastocysts with hIDPSC ( n  = 57) yielded embryos ( n  = 3) and foetuses ( n  = 6); demonstrating presence of human cells in various organs, such as brain, liver, intestine and hearts, of the human/mouse chimaeras. We verified whether hIDPSC would also be able to differentiate into specific cell types in the mouse environment. Contribution of hIDPSC in at least two types of tissues (muscles and epithelial), was confirmed. We showed that hIDPSC survived, proliferated and differentiated in mouse developing blastocysts and were capable of producing human/mouse chimaeras.     

Somatic cell hybrids between totipotent mouse teratocarcinoma and rat hepatoma cells.

We have produced somatic cell hybrids between totipotent mouse teratocarcinoma cells and rat hepatoma cells. These hybrids were tested for the expression of liver specific functions expressed in the hepatoma cell parent and for their ability to differentiate when injected into nude mice. The results of this study indicate that hybrid cell clones do not resemble either of the parental cells, since they do not produce albumin and tyrosine aminotransferase that are expressed in the rat hepatoma parent, and are incapable of forming either teratocarcinomas or hepatomas when injected in experimental animals.     

The presence of 17 beta-hydroxysteroid dehydrogenase activity in preimplantation rat and mouse blastocysts

When Day 5 rat blastocysts and Day 4 and 5 mouse blastocysts were cultured in 53 microliters of medium containing 1340 or 2680 pg [3H]estradiol (E2), large amounts of [3H]estrone (E1) were detected in the medium at daily intervals for up to 5 days. This indicates the presence of 17 beta-hydroxysteroid dehydrogenase in the embryos. The activity was higher at a higher concentration of E2 and was also higher in mouse than in rat blastocysts. In the mouse, the activity was higher in Day 5 than Day 4 blastocysts during the first day in culture; then it decreased in Day 5 but increased in Day 4 blastocysts. The importance of E2 in embryonic development and implantation as suggested by others may be related to the activity of 17 beta-hydroxysteroid dehydrogenase.     

Conditions required for activation of the mouse albumin or α-fetoprotein gene in hybrids between mouse lymphoblastoma and rat hepatoma cells

Activation of two previously silent mouse hepatic genes has been investigated in hybrid cells between pseudodiploid mouse lymphoblastoma cells and hyperdiploid or hypertetraploid rat hepatoma cells. In this material, activation of the mouse albumin gene is a frequent event, whereas activation of mouse alpha-fetoprotein (AFP) occurs only in those cells that produce large amounts of albumin. Quantitative tests of hybrid populations for the activated proteins and their mRNAs revealed the expected sizes and structures: moreover, as in hepatoma cells, the amount of both rat and mouse albumin produced was directly proportional to the intracellular concentration of the corresponding mRNA. The cellular environment required for activation of the liver-specific genes was investigated by cell-by-cell analysis of each hybrid clone. Immunostaining for the presence of rat and mouse albumin and mouse AFP revealed unexpected heterogeneity in the phenotypes of the hybrid populations, which were found to contain cells that: (a) failed to express either of the proteins; (b) produced all three; (c) produced both rat and mouse albumin; or (d) produced rat albumin only. Karyotypic analysis indicated that the hybrid-cell phenotype depended on parental chromosome ratios rather than absolute numbers of chromosomes. It was found for albumin and mouse AFP that the fraction of immunostained cells was equal to the fraction of metaphases that contained a minimal rat-to-mouse chromosome ratio of 2.5 and 9, respectively. It is concluded that in those hybrids, expression of liver-specific genes is regulated by extinguishers, but in a dose-dependent fashion, suggesting the intervention of antagonistic activators from the rat hepatoma chromosomes.     

Synthesis of a liver enzyme in hybrid cells.

Rat hepatoma cells were fused with cells of an established mouse lymphoma line, with normal diploid mouse macrophages, lymphocytes and fibroblasts and with normal diploid rat macrophages and lymphocytes. The liver-specific enzyme tyrosine aminotransferase was produced by almost all the hybrid cells, but usually at a lower level than in the parental hepatoma cells. Most of the hybrids also showed increased levels of this enzyme after exposure to dexamethasone. In the rat x mouse hybrids, the electrophoretic mobility of the enzyme indicated that only the rat hepatoma enzyme was produced. The findings are difficult to explain in terms of simple models involving a single diffusible repressor or activator of tyrosine aminotransferase synthesis.     

Stellate- and foci-formation of mouse fibroblast cells transfected with various cancer cell DNA

Two methods of DNA-mediated gene-transfer, namely, CaPO4 co-precipitation and polybrene/DMSO-induction were used to analyse oncogenes from various cancer cell-lines. Third time transfection of mouse fibroblast cells, NIH/3T3 with 10, 100, 1,000 and 3,000 ng of DNA from spontaneous human hepatoma cells produced 41, 4, 45 and 56 foci, respectively. It appears that 100 ng of this hepatoma cell DNA gave the least effective transformation ability. However, with two spontaneous mammary cancer cell lines, 100 ng DNA gave the highest number of foci. In general, during the initial transfection, the cells appeared semi-transformed, showing stellate growth patterns. With repeated transfections they gave way to foci. However, with aflatoxin-induced rat hepatoma cell (JB-1) DNA, only stellate growths persisted to indicate intermediate transformation. Transfection of the epithelial-like normal rat liver cell line, BL8 with JB-1 DNA produced haphazard growth pattern, although a hepatoma-associated enzyme, gamma-glutamyl transferase was introduced into the BL8 cells which previously had no detectable enzyme activity.     

Regulation of mouse haptoglobin synthesis

A cloned line of mouse hepatoma cells (Hepa-1) responded to treatment with dexamethasone by a 30-80-fold increase in synthesis and secretion of functional haptoglobin. Under the same conditions, the production of albumin was only slightly elevated whereas that of alpha 1-fetoprotein was reduced by 50%. The hormone concentration for half-maximal stimulation of haptoglobin synthesis was between 1 and 2 X 10(-8) M. The time course of induction is characteristic for a glucocorticoid- regulated protein. Cell-free translation of RNA indicated an increase in the amount of functional haptoglobin mRNA that can account for the change in the protein production. To correlate our findings on Hepa-1 cells with those on nontransformed liver cells, we tested the hormonal response of isolated hepatocytes in tissue culture. Haptoglobin was first synthesized and secreted by hepatocytes from 17-19-d-old fetuses. But neither prenatal nor adult hepatocytes showed a dexamethasone- dependent increase in haptoglobin synthesis. However, when several independent clones of hybrid cells formed from adult mouse hepatocytes and rat hepatoma cells were treated with dexamethasone, the synthesis of mouse haptoglobin was in all cases elevated. It appears that haptoglobin expression in mouse liver cells is potentially sensitive to glucocorticoids, but this modulation is manifested only in transformed cells and their derivatives.     

In vitro and in vivo study of pluripotency in intraspecific hybrid cells obtained by fusion of murine embryonic stem cells with splenocytes

Hypoxanthine phosphoribosyltransferase–deficient (HPRT^-) mouse embryonic stem (ES) cells, HM-1 cells (genotype XY), were fused with adult female DD/c mouse spleen cells. As a result, a set of HAT-resistant clones was isolated. Four hybrid clones most similar in morphology and growth characteristics to the HM-1 cells were studied in detail with respect to their pluripotency. Of these, three clones contained 41–43 chromosomes, and one clone was nearly tetraploid. All the clones had the XXY set of sex chromosomes and expressed the HPRT of the somatic partner only. The hybrid clones shared features with the HM-1 cells, indicating that they retained their pluripotent properties: (1) embryonic ECMA-7 antigen, not TROMA-1 antigen, was present in most cells; (2) the hybrid cells showed high activity of endogenous alkaline phosphatase (AP); (3) all the hybrid clones were able to form complex embryoid bodies containing derivatives of all the embryonic germinal layers; (4) the hybrid cells contained synchronously replicating X chromosomes, indicating that they were in an active state; and (5) a set of chimeric animals was generated by injecting hybrid cells into BALB/c and C57BL/6J mouse blastocysts. Evidence for chimerism was provided by the spotted coat derived from 129/Ola mice and identification of 129/Ola glucose phosphate isomerase (GPI) in many organs. Thus the results obtained demonstrated that the hybrid cells retain their high pluripotency level despite the close contact of the “pluripotent” HM-1 genome with the “somatic” spleen cell genome during hybrid cell formation and the presence of the “somatic” X chromosome during many cell generations. The presence of HPRT of the somatic partner in many organs and tissues, including the testes in chimeric animals, shows that the “somatic” X chromosome segregates weakly, if at all, during development of the chimeras. There were no individuals with the 129/Ola genotype among the more than 50 offspring from chimeric mice. The lack of the 129/Ola genotype is explained by the imbalance of the sex chromosomes in the hybrid cells rendering the passage of hybrid cell descendants through meiosis in chimeras impossible. As a result, chimeras become unable to produce gametes of the hybrid cell genotype. Mol. Reprod. Dev. 50:128–138, 1998. © 1998 Wiley-Liss, Inc.     

Aldehyde dehydrogenase isozymes in rat hepatoma-mouse fibroblast hybrids

A study of aldehyde dehydrogenase in rat hepatoma cells and rat hepatoma-mouse fibroblast hybrids revealed that the hepatoma cells had activity comparable to that found in whole rat liver and that the enzyme activity was suppressed in early hybrids and reappeared following chromosome loss. Starch gel electrophoresis and heat inactivation studies showed that a new form of enzyme was produced in the hybrids, possibly a heteropolymorphic combination between the HTC enzyme and a previously repressed mouse form. Staining methods for starch gel electrophoresis and histochemical detection of aldehyde dehydrogenase are described.This work was supported by grants from the Damon Runyon Foundation (DRG 1088s) and the Public Health Service (1-R01-Ca 12310-02).     

The synergistic interaction of hydrocortisone and dibutyryl cyclic AMP during enzyme induction in hybrids between rat C6 glioma cells and FU5AH hepatoma cells

The hormone-responsive enzymes tyrosine aminotransferase and glycerol-3-phosphate dehydrogenase were studied with respect to current models of the mechanism of glucocorticoid/cAMP interaction during the induction of enzyme activity in responsive cell hybrids between rat C6 glioma cells and rat FU5AH hepatoma cells. The results of experiments involving protein and mRNA synthesis inhibitors, sequential addition of inducers, and the assay of cyclic-AMP-dependent protein kinase could not be adequately explained by any one model of inducer interaction. Comparison of the hybrid clones revealed the presence of factors that may modify induction but that are not essential for synergistic induction.     

Interspecies chimera between primate embryonic stem cells and mouse embryos: monkey ESCs engraft into mouse embryos, but not post-implantation fetuses

Unequivocal evidence for pluripotency in which embryonic stem cells contribute to chimeric offspring has yet to be demonstrated in human or nonhuman primates (NHPs). Here, rhesus and baboons ESCs were investigated in interspecific mouse chimera generated by aggregation or blastocyst injection. Aggregation chimera produced mouse blastocysts with GFP-nhpESCs at the inner cell mass (ICM), and embryo transfers (ETs) generated dimly-fluorescencing abnormal fetuses. Direct injection of GFP-nhpESCs into blastocysts produced normal non-GFP-fluorescencing fetuses. Injected chimera showed >70% loss of GFP-nhpESCs after 21 h culture. Outgrowths of all chimeric blastocysts established distinct but separate mouse- and NHP-ESC colonies. Extensive endogenous autofluorescence compromised anti-GFP detection and PCR analysis did not detect nhpESCs in fetuses. NhpESCs localize to the ICM in chimera and generate pregnancies. Because primate ESCs do not engraft post-implantation, and also because endogenous autofluorescence results in misleading positive signals, interspecific chimera assays for pluripotency with primate stem cells is unreliable with the currently available ESCs. Testing primate ESCs reprogrammed into even more na?ve states in these inter-specific chimera assays will be an important future endeavor.     

Regulation of expression of tyrosine aminotransferase in somatic cell hybrids between rat hepatoma cells and mouse fibroblasts

Somatic cell hybrids between rat hepatoma cells and mouse 3T3 fibroblasts fail to produce the liver-specific enzyme tyrosine aminotransferase. A novel approach using gamma-irradiation to induce chromosome loss from the non-expressing parent cell was applied to dissect genetically the factors in 3T3 cells that interact with the regulation of expression of tyrosine aminotransferase in these hybrids. Suppression of basal and steroid-inducible tyrosine aminotransferase activities was progressively relieved with increasing dose of radiation. The wide range in degree of reexpression suggests a complex of regulatory mechanisms. Suppression of steroid-inducibility was not linked to the mouse X-chromosome. Nor did the mouse genome affect the modulation of enzyme activity induced by insulin and by serum.     

A mouse hepatoma cell line which secretes several serum proteins including albumin and alpha-foetoprotein.

A permanent cell line (BW) was established from a transplantable mouse hepatoma, BW7756, which produces alpha-foetoprotein (AFP). Three clones were isolated from the uncloned culture: BW1, BW2 and BWTG3. The cells of the latter clone, which was isolated after selection in the presence of thioguanine, are deficient in the enzyme hypoxanthine-guanine-phosphoribosyl transferase. Both BW1 and BWTG3 cells have mean chromosome number of 64 (60 telocentric and 4 metacentric chromosomes). All three clones secrete at least five serum proteins into the culture medium: albumin, AFP, and alpha 2 globulin, transferrin and C3, the third component of complement. The approximate rate of albumin secretion by BW1 and BWTG3 cells is 10 mug/24 h/10(6) cells. Both albumin and AFP can easily be detected in cell extracts. The simultaneous production of AFP and a hepatocyte specific marker (albumin) by cloned hepatoma cells show that the production of AFP by the tumour is due to the tumoural hepatocytes themselves.     

Is there any delta 5-3 beta hydroxysteroid dehydrogenase activity in preimplantation embryo of rhesus monkey?

This is the first report on the histochemical assessment of delta 5-3 beta hydroxysteroid dehydrogenase activity in all the preimplantation embryonic stages in the rhesus monkey (Macaca mulatta). An apparent stage dependent increase in enzyme activity was obtained, however, distinctively a high degree of non-specificity in enzyme reaction was noted primarily in morulae and blastocysts. Such marked non-specificity in the histochemical enzyme reaction for delta 5-3 beta hydroxysteroid dehydrogenase activity was not found in mouse blastocysts. High amounts of endogenous steroids present within rhesus embryos, or the participation of non-specific dehydrogenases could account for the observed non-specificity. Furthermore, the present report documents the pattern and degree of association (r = 0.9; P less than 0.01) between developmental stage and gestational age of preimplantation rhesus embryos, and thus provides a normal in situ cell cleavage rate of preimplantation embryo in the rhesus monkey.