Collagen synthesis in normal BHK cells and temperature-sensitive chemically transformed BHK cells

Summary Collagen synthesis in normal BHK 21/cl 13 and chemically transformed temperature-sensitive BHK 21/cl 13 cells (Me₂N4) was assessed by examination of hydroxyproline formation and collagenase-susceptible protein. The Me₂N4 cells lost their ability to synthesize collagen at both permissive and nonpermissive temperatures for transformation. These conclusions were confirmed by polyacrylamide-gel electrophoresis and CM-cellulose chromotography. Prolyl hydroxylase activity was present in both normal and transformed cells even when no collagen could be demonstrated. The production of noncollagen protein, although decreased in the transformed cell, did not change as drastically as the collagen synthesis. This paper was supported in part by a grant from the Public Health Service (AG00001), and by the Medical Research Service of the Veterans Administration.     

Phosphohydrolases on the cell surface of BHK cells: loss during long term culture.

Low passage BHK 21/13 cells contain two cell surface enzymes, a nucleotide pyrophosphatase and a monophosphoester hydrolase, which together hydrolyze exogenous UDP-galactose to free galactose. During serial passage, BHK cells successively lose both enzymes. Concomitant with the loss of these enzymatic activities, changes in cell morphology, as well as in the serum requirement for the initiation of DNA synthesis, were observed. Clonal sublines of BHK cells were isolated, which differed qualitatively in their ability to hydrolyze UDP-galactose. Clonal BHK sublines, which exhibited both enzymatic activities on their cell surface, resembled low passage BHK cells in morphology and serum requirement for the initiation of DNA synthesis. Sublines not containing these enzymes resembled BHK cells of high passage cultures. The ability of intact BHK cells to hydrolyze exogenous nucleotide sugars may serve as an indicator for the progression of BHK cells from a normal to a more transformed state.     

Glucose-regulated membrane properties of untransformed and virus-transformed BHK21 cells.

BHK21 fibroblasts transformed by hamster sarcoma virus have a higher rate of uptake of hexoses than their untransformed counterparts, and therefore rapidly exhaust glucose from the culture medium. The effects of culturing normal and transformed BHK cells, both in limiting and in excess glucose, on several membrane properties related to malignant transformation have been studied. The increase in the rate of hexose uptake in transformed cells is partially but not entirely dependent on extracellular glucose concentration. Two transformation-increased membrane proteins of molecular weights 95 000 and 78 000 are shown to be regulated by extracellular glucose concentration in both normal and transformed cells. The loss of LETS-protein, the high density of intramembranous particles, the increase in the amount of a 177K integral plasma membrane protein and the increase in the amount of high molecular weight surface glycopeptides in transformed cells, are not related to glucose depletion of the medium. Beside LETS, another iodinated protein, of molecular weight 160 000, is decreased in transformed cells. The exposure of this protein increased in both normal and transformed cells when arrested in G1 by asparagine deprivation.     

Transformed BHK cells exhibiting normal or subnormal sugar uptake

The uptake of deoxyglucose was compared in BHK cells and in DMN4B cells, a conditionally transformed line of BHK cells which exhibits transformed behavior at 38.5° but not at 32°. At 32°, DMN4B cells took up deoxyglucose more slowly than BHK cells, reflecting a higher Km for uptake of this sugar. When both cell lines were grown at 38.5°, the Km for DMN4B cells was reduced to a level only slightly greater than for BHK cells, and deoxyglucose uptake became similar in the two cell lines. Growth in glucose-free medium for 22 hours stimulated deoxyglucose uptake in both BHK and DMN4B cells; under these conditions, uptake was equal in the two cells lines, both at 32° and 38.5°. Glycolysis, as measured by lactic acid production, was slower in DMN4B than BHK cells, but in contrast to deoxyglucose uptake, this difference was observed at 38.5° rather than 32°. The observation that the subnormal deoxyglucose uptake of DMN4B cells in the untransformed state (32°) can be normalized by growth at 38.5°, a temperature permissive for transformation, suggests that membrane changes facilitating sugar uptake, which have been found in other transformed cells, are associated with transformation in DMN4B cells as well. However, the failure of uptake to exceed normal in these cells indicates that their transformed behavior is not attributable to excessive sugar uptake per se.     

Suppression of the chemically transformed phenotype of BHK cells by a human cDNA.

Transformation of the baby hamster kidney cell line BHK SN-10 by chemical carcinogens such as nitrosylmethylurea (NMU) is mediated by the loss of a gene product critical for the suppression of malignant transformation. Somatic cell hybrids between chemically transformed BHK SN-10 cells and either normal hamster kidney or human fibroblast cells are nontransformed; therefore, a recessive mechanism underlies the malignant transformation of BHK SN-10 cells after chemical carcinogenesis (A. Stoler and N. P. Bouck, Proc. Natl. Acad. Sci. USA 82:570-574, 1985). A human fibroblast cDNA library was constructed and introduced into NMU-transformed BHK SN-10 cells (NMU 34m) in order to identify a human cDNA capable of suppressing cellular transformation. NMU-transformed BHK cells were analyzed for reversion to an anchorage-dependent normal cellular phenotype after transfection with human cDNA. The human cDNA capable of inducing stable reversion of NMU 34m cells encodes the intermediate filament protein vimentin, which is apparently required for maintenance of the normal phenotype in BHK SN-10 cells.     

Localization of vimentin and desmin in BHK21/C13 cells and in baby hamster kidney

Specific antibodies against the intermediate filament protein subunits, desmin and vimentin, were used to characterize the fibroblastic tissue culture cell line BHK21/C13 and the cells comprising baby hamster kidney (BHK). The BHK21/C13 cells have previously been shown to contain desmin and vimentin by biochemical techniques. The results from double immunofluorescence analysis show that both immunologically distinct intermediate filament subunit proteins are expressed simultaneously within the same BHK21/C13 cell, and that the filamentous patterns are very similar, if not superimposable even in cells treated with colchicine. There are some cells that may contain vimentin only. Double immunofluorescence on cryostat sections of BHKs and preparations of dissociated kidney cells demonstrate that the cells, most likely smooth muscle, comprising the blood vessel walls contain vimentin and desmin simultaneously. The simultaneous expression of vimentin and desmin is not a phenomenon which is restricted to tissue culture cells. Thus, the simultaneous presence of these two intermediate filament proteins within the BHK21/C13 cell may not be the result of growth in tissue culture.     

Seven infection-specific polypeptides in BHK cells infected with Bunyamwera virus.

Virus-specific polypeptide synthesis was examined in BHK cells and Vero cells infected with Bunyamwera virus. In BHK cells, in addition to the four previously reported virus-coded proteins (L, G1, G2, and N), three other infection-specific proteins were detected. These proteins, of nominal molecular weight 50,000 (p50), 16,000 (p16), and 13,000 (p13), were not labeled in mock-infected cells, were first synthesized between 4 and 8 h after infection, and were relatively prominent among the limited number of proteins generated late in infection. In preparations of purified Bunyamwera virus from BHK cell supernatants, p16 was detected but not p50 or p13. In Vero cells infected with Bunyamwera virus, both p50 and p13 were labeled strongly. Maprik virus, a member of the Mapputta group of arboviruses, is a member of the Bunyavirus genus (S.E. Newton, unpublished data). Maprik virus did not induce the synthesis of p50, p16, or p13; however, two smaller proteins (p17 and p15) which may correspond to p16 and p13 were labeled late in Maprik infection. Our data argue that p16 is a virus-coded component of the Bunyamwera virus particle and that p50 and p13 are virus-coded, nonstructural proteins.     

The uptake of actinomycin D by normal and virus transformed BHK21 hamster cells

The uptake of actinomycin-D (AMD) in the hamster cell line BHK21 clone 13, and its polyoma virus-transformed derivative, were compared. In the transformed cell the internal AMD concentration at equilibrium was lower and was reached more quickly. The AMD-binding capacities of nuclei from normal and transformed cells were similar, suggesting that some control of AMD uptake occurs at the plasma membrane. This may be a control on the efflux of AMD since this process has a higher rate constant in transformed cells.     

The detection of smooth muscle desmin-like protein in BHK21/C13 fibroblasts.

Three distinct proteins, actin (42,000 daltons), the principal form of fibroblast 10 nm filament protein (55,000 daltons), and a protein with a molecular weight of 52,000 and a pI of 5.8 were detected in nonionic detergent-insoluble cytoskeletal and 10 nm filament preparations of control BHK21/C13 and line 9 hamster fibroblasts. Cytoskeletal preparations of other hamster fibroblast cell types, such as NIL8 and primary embryo fibroblasts, contained the 55,000-dalton component but lacked the 52,000-dalton protein. A Rous sarcoma virus transformant of the BHK21/C13 line and an adenovirus transformant of line 9, resembled the NIL8 and other fibroblast types in that they contained only the 55,000- and 42,000-dalton polypeptides. The identity of the 52,000-dalton protein in BHK21/C13 cells was studied. This protein co-electrophoreses on both one- and two-dimensional polyacrylamide gels with the predominant muscle form of 10 nm filament protein. Further, one-dimensional peptide maps of the hamster smooth muscle 10 nm filament protein and the hamster fibroblast 52,000-dalton protein are identical to one another and distinct from the peptide maps of both the 42,000- and the 55,000-dalton components of the fibroblast cytoskeletal preparations. We conclude that BHK21/C13 cells contain both the fibroblast and the muscle form of 10 nm filament protein.     

A monoclonal antibody to chicken gizzard desmin that recognizes intermediate filaments and nuclear granules in BHK21/C13 cells

One hybridoma (AC54), which produces monoclonal antibody (MAb) that recognizes both intermediate filaments (IFs) and nuclear granules in BHK21/C13 cells, and two hybridomas (AC19 and AC36) which produce MAbs that recognize IFs only, were obtained by using a crude actin preparation from chicken gizzard as an antigen. In immunoblotting, both the AC54 and AC19 MAbs reacted with the 52 kD protein (desmin) and some other proteins in gizzard and BHK21/C13 cells. Indirect immunofluorescent microscopy of BHK21/C13 cells showed that the cytoplasmic filaments stained by these MAbs were IFs based on their colchicine-induced whorl formation. The ability of AC54 MAb to recognize IFs was more limited than that of AC19 MAb. The nuclear granules recognized by AC54 MAb were in a different location than the cytoplasmic IFs and sometimes were concentrated in the nucleolus. These results indicate that AC54 MAb is an anti-desmin MAb that reacts with some desmin-related proteins; that it recognizes IFs differently than AC19 MAb, another anti-desmin MAb; and that it recognizes nuclear granules in locations where desmin or desmin-related protein has not yet been reported.     

Regulation of the microfilament system in normal and polyoma virus transformed cultured (BHK) cells

The content and state of actin in baby hamster kidney (BHK) cells before and after transformation with polyoma virus were examined by deoxyribonuclease assay and gel electrophoresis followed by dye elution. The actin content of the transformed cells, relative to total cell protein, was lower than that of the normal cells by 30-50%. In both the normal and transformed cells the greater part of the total actin was found on lysis to be in the monomeric state. Cytoplasmic and membrane fractions of the two cell lines were, in qualitative terms, very similar in their protein compositions. The plasma membrane isolated from the transformed cells was richer in actin than that from the untransformed, and both membrane fractions contained proteins corresponding to myosin, filamin and alpha-actinin on SDS-polyacrylamide gels. The cell extract from both the normal and transformed lines formed an actin-based gel on incubation at 30 degrees C, although the amount of the cross-linked actin was much smaller in the latter. This was a consequence not only of the lower concentration of total actin in the cell, but also, presumably, of a gross relative deficiency in the concentration or activity of filament cross-linking protein(s) in the cytoplasm. Thus, small aliquots of cytoplasmic fractions from transformed cells, when added to an excess of exogenous F-actin, were able to cross-link the filaments to a much smaller extent than those from the normal cells. A similar range of proteins was found to be associated with the actin gels formed from both cell extracts. One conspicuous difference was that a species migrating in SDS-gel electrophoresis as a doublet with a subunit molecular weight of about 58,000, and tentatively identified as intermediate filament protein, was replaced in the transformed cells by a single band. Filament cross-linking activity of the cytoplasmic fractions was enhanced by addition of Triton extracts of crude membranes, although the latter were not capable of cross-linking exogenous F-actin on their own. The effect of Triton extracts was much greater in the case of membranes from the transformed cells. The cytoplasmic fractions of BHK cells contain capping protein(s) and/or complexes of such proteins with actin; these reveal themselves by the propensity of the extracts to nucleate polymerization of exogenous G-actin. This activity was more abundant in transformed cells, despite their lower actin content. Their membranes were also more effective in nucleating G-actin polymerization, indicating the presence of a greater number of filament ends.(ABSTRACT TRUNCATED AT 400 WORDS)     

Staurosporine overrides checkpoints for mitotic onset in BHK cells.

Under normal conditions, mammalian cells will not initiate mitosis in the presence of either unreplicated or damaged DNA. We report here that staurosporine, a tumor promoter and potent protein kinase inhibitor, can uncouple mitosis from the completion of DNA replication and override DNA damage-induced G2 delay. Syrian hamster (BHK) fibroblasts that were arrested in S phase underwent premature mitosis at concentrations as low as 1 ng/ml, with maximum activity seen at 50 ng/ml. Histone H1 kinase activity was increased to approximately one-half the level found in normal mitotic cells. Inhibition of protein synthesis during staurosporine treatment blocked premature mitosis and suppressed the increase in histone H1 kinase activity. In asynchronously growing cells, staurosporine transiently increased the mitotic index and histone H1 kinase activity but did not induce S phase cells to undergo premature mitosis, indicating a requirement for S phase arrest. Staurosporine also bypassed the cell cycle checkpoint that prevents the onset of mitosis in the presence of damaged DNA. The delay in mitotic onset resulting from gamma radiation was reduced when irradiation was followed immediately by exposure to 50 ng/ml of staurosporine. These findings indicate that inhibition of protein phosphorylation by staurosporine can override two important checkpoints for the initiation of mitosis in BHK cells.     

高通量miRNA活性谱检测发现BHK21细胞中miR-206高活性

用我们建立的活细胞miRNA活性谱检测技术测定BHK21、HEK293和Vero三种肾来源细胞系中58种miRNA活性谱,发现miR-206在BHK21细胞中具有特征性高活性.鉴于miR-206是典型的横纹肌特征性miRNA,进一步以小鼠成肌细胞C2Cl2及人胚肾细胞HEK293为对照,检测了BHK21细胞中miR-206的活性及表达水平.之后,用马血清诱导培养BHK21细胞,检测诱导前后BHK21细胞中骨骼肌肌球蛋白重链(Slow skeletal myosin heavy chain,MHC)表达情况,miR-206活性和表达水平以及受miR-206负调控的Connexin43(Cx43)的表达水平.结果发现,miR-206在BHK21细胞中活性和表达水平都明显高于C2C12细胞;马血清诱导后,BHK21细胞中MHC表达水平升高,miR-206活性和表达水平都升高,而Cx43表达水平下降.结果提示BHK21细胞具有成肌细胞特性.本研究首次发现BHK21细胞中miR-206的高活性,从miRNA角度证实了BHK21细胞来源于肾间质细胞,而不是肾实质细胞.研究结果还提示BHK21细胞有可能作为一种体外模型用于miR-206的功能研究.     

Chemical carcinogens transform BHK cells by inducing a recessive mutation.

Treatment of BHK cells with mutagenic carcinogens induced neoplastic transformation in a single step. This transformation displayed the characteristics expected for a recessive mutation. Increasing doses of carcinogens induced transformants with kinetics similar to the kinetics with which they induced 6-thioguanine-resistant or ouabain-resistant mutants in the same population of cells. Transformants with temperature-restricted phenotypes were easily induced by carcinogens which cause mutations by base changes, but when ICR frameshift mutagens were used, the proportion of temperature-limited transformants was inversely related to the frequency with which a particular mutagen induced frameshift mutations. In hybrids between pseudodiploid isogenic strains of normal and transformed BHK cells, transformation was expressed as a dominant trait when the transformed parent was induced by a papovavirus, but was suppressed as a recessive trait when the transformed parent arose spontaneously or was chemically induced. Segregation of transformation was observed upon growth of suppressed normal hybrids, and the transformed phenotype which was reexpressed was in most cases characteristics of the original transformed parent.     

Abnormal response of glycolipid synthesis to temperature in transformed BHK cells thermosensitive for growth control.

In DMN4B cells, a line of chemically mutagenized BHK hamster cells which exhibit transformed behavior at 38.5°C but not at 32°C, [¹⁴C]-palmitate incorporation into mono-, di-, and trihexosylceramides was unimpaired at 32°C when compared with incorporation rates in untransformed BHK cells. At 38.5°C, labeling of these glycolipids increased greatly in the BHK cells, but failed to increase comparably in the DMN4B cells. Assay of cell-free preparations of the galactosyltransferase which catalyzes trihexosylceramide synthesis revealed a stimulatory effect of increased temperature on activity of the BHK enzyme, but not the DMN4B enzyme. The results suggest that transformation can result from a mutation affecting glycolipid synthesis.     

Increase of a high molecular weight protein in plasma membranes of BHK21 cells transformed by hamster sarcoma virus

Electrophoretic analysis of plasma membrane fractions from BHK21/13 cells non-transformed and transformed by the B34 strain of Hamster Sarcoma Virus showed a reproducible pattern of 18 main bands among which a band corresponding to a polypeptide of nominal molecular weight 177,000 daltons, is considerably increased in membranes of transformed cells. Labelling and solubilization studies suggest that it is an integral glycoprotein.     

Gene expression in normal and virally transformed mouse 3T3B and hamster BHK21 cells

Cell lines 3T3B (mouse), 3T3B-SV40, BHK21 (hamster) and BHK21 polyoma virus (PyY) were labelled with [³⁵S]methionine under conditions in which 500–600 cpm were incorporated per cell during a 20 h incubation period. Two-dimensional gel electrophoresis analysis of the total [³⁵S]methionine-labelled polypeptides from 200–300 cells followed by fluorography revealed about 500 acidic (isoelectric focusing, IEF) and 150 basic polypeptides (non-equilibrium pH gradient electrophoresis, NEPHGE) whose position could be reproducibly assessed. Counting of 33 abundant acidic polypeptides present in both 3T3B and 3T3B-SV40 revealed significant changes in the relative proportion of ten of them. Seven, including the subunit of the 100 Å filaments ‘fibroblast type’ (55K) (1.1% in 3T3B; 0.6% in 3T3B-SV40), three cytoarchitectural proteins and three soluble proteins, corresponded to a decrease of 40% or more in the radioactivity of the spots in transformed cells, and only in three cases was there a significant increase in radioactivity of polypeptides in 3T3B-SV40 cells. Among the polypeptides that show less than 40% variation we have identified total actin (42K) (13% of total label in 3T3B; 10% in 3T3B-SV40), α- and β-tubulin (55K) (1.6% of total label in 3T3B; 2% in 3T3B-SV40), eleven polypeptides present in Triton skeletons, and nine soluble proteins. We have also observed 25 obvious changes in polypeptide intensities (16 acidic and 9 basic) but these were not quantitated. Only three polypeptides were found in transformed cells that were not detected in normal cells. One of these corresponded to the large T antigen and the other two to Triton-soluble proteins of a molecular weight in the range of 52–54K. Similar quantitative studies on the hamster BHK21/BHK21PyY pair confirmed at least the major observations made in 3T3B and 3T3B-SV40.     

Effects of insulin and retinoic acid on the anchorage-independent growth of transformed BHK21/C13 cells cultured with different lots of fetal bovine serum

Several lots of fetal bovine serum (FBS) were divided into 2 groups; in one group, retinoic acid (RA) suppressed the anchorage-independent growth (AIG) of spontaneously transformed BHK21/C13 cells (clone Ag8-1) dose-dependently, but in the other group, little suppression occurred. In neither group of FBS was the anchorage-dependent growth (ADG) of the cells suppressed by RA. The addition of insulin enhanced the AIG of the cells in both groups even in the presence of RA. The 2 types of AIG systems in Ag8-1 cells, one susceptible and the other resistant to RA, are discussed.     

THE DIFFERENTIAL EFFECT OF ACTINOMYCIN D IN NORMAL AND VIRUS-TRANSFORMED CELLS

Actinomycin D (AMD) at concentrations up to 0,25 µg/ml shows a differential effect on cell RNA synthesis and on the replication of an influenza virus in normal and virally transformed cells, both functions being more resistant to AMD in the transformed cell. A possible explanation for these differences in AMD sensitivity is provided by the observation that isotopically labeled AMD is maintained at a lower concentration in transformed BHK 21/13 (BHK) cells. There is evidence that the decreased sensitivity of the transformed cells to AMD is a result of maintenance of a lower internal concentration of the drug, since a correlation exists for a number of polyoma virus-transformed clones between sensitivity to and uptake of AMD.     

Induction of a step in carcinogenesis that is normally associated with mutagenesis by nonmutagenic concentrations of 5-azacytidine.

The permanent cell line BHK-21/cl 13 can be transformed by mutagenic carcinogens as the result of the induction of a recessive somatic mutation. Yet when these cells were treated with 5-azacytidine under conditions in which no mutants resistant to either ouabain or 6-thioguanine could be detected, they were transformed efficiently. These transformants were induced, not selected. 6-Azacytidine was ineffective at transforming BHK cells; 2'-deoxy-5-azacytidine was exceptionally effective. When tested by cell fusion, transformants induced by 5-azacytidine fell into the same complementation group as those induced by highly mutagenic carcinogens, but they were phenotypically distinct in that they were unstable during prolonged passage and rarely displayed the temperature-limited phenotypes so common among BHK transformants induced by strongly mutagenic carcinogens. These results raise the possibility that a cell can be induced by either genetic or epigenetic means to traverse the same single step in carcinogenesis.