Comparative study of the cellular replication kinetics of rat mammary epithelial cells in vivo and in vitro

Ts-131b, one of the temperature-sensitive (ts) mutants isolated from mouse FM3A cells, was found to be defective in DNA replication at a non-permissive temperature. After the cells were transferred to 39.5 °C, the cell number increased by only 10% and the rate of incorporation of precursors into cellular DNA decreased rapidly. Cell cycle analysis by a flow cytometric method with the cells incubated at 39.5 °C revealed that progression of the cells through the S phase was inhibited and most of the cells were arrested in the S phase. To study the defect in DNA replication of this ts-mutant at 39.5 °C, DNA-fiber autoradiography was performed to measure the rate of DNA-chain elongation. The results showed that the rate of DNA-chain elongation was decreased at 6 h after the temperature shift. However, since the decrease in the rate of DNA-chain elongation was not sufficient to account for the decrease in the rate of incorporation of the precursors, it was suggested that there was also a decrease in the rate of initiation of DNA replication at some of the replicon origins.     

Immuno-electron microscopical identification of the two types of intermediate filaments in established epithelial cells

The intermediate filament systems of the established epithelial cell lines HeLa and PtK₂ have been characterized by electron microscopy using indirect immunoferritin labelling. The results provide a direct ultrastructural confirmation of the proposal based on indirect immunofluorescence microscopy, that vimentin and cytokeratin fibrils constitute two distinct 10 nm filament systems in much of the cell body. In agreement both with classical histology and with the finding that cytokeratins are typically present in many epithelial tissues, demosome-attached 10 nm filaments (tonofilaments) were found to be of the cytokeratin type. Vimentin, but not cytokeratin filaments were translocated into juxtanuclear caps after exposure of the cells to colcemid. Regions of the cytoplasm where the two distinct systems form mixed bundles were identified and both side-by-side arrangements and the occurrence of vimentin fibers in a sheath-like structure around a cytokeratin filament core are described. Our results emphasize that the two systems interact but differ in their organization and control.     

Clonal growth of primary cultures of rabbit ear chondrocytes in a lipid-supplemented defined medium

Clonal growth of primary cultures of rabbit ear chondrocytes in a defined medium without serum or other undefined additives has been achieved. The clonal inoculum is a suspension of fully differentiated chondrocytes prepared by collagenase digestion of rabbit ear cartilage and used with no prior adaptation or selection in culture. When inoculated into medium MCDB 104 supplemented with 100 ng/ml fibroblast growth factor (FGF), 1 microgram/ml insulin, and 5 micrograms/ml of a lipid supplement previously developed for human fibroblasts, the isolated chondrocytes undergo clonal multiplication to form large colonies of epithelial-like cells. Colonies grown in the defined medium for 14 days accumulate at their centers refractile cartilage-like matrix that is stained by acidified Alcian green, although the amount is significantly less than with undefined additives. This system opens the way for detailed studies, in a defined background medium, of factors that regulate phenotypic expression of cartilage-like differentiated properties.     

Glycopeptides prepared from mouse cerebrum inhibit protein synthesis and cell division in baby hamster kidney cells, but not in their polyoma virus-transformed analogs

Glycopeptides isolated from mouse cerebral cortex cell surfaces (BCSG) were shown to inhibit cell growth and protein synthesis in baby hamster kidney (BHK)-21 cells, whereas polyoma virus-transformed BHK-21 cells (pyBHK-21) were refractory to the inhibitory activity of the glycopeptides. Growth inhibition was shown to be reversible and non-lethal to BHK-21 cells. Despite that difference in sensitivity to the action of the glycopeptides, both cell lines could bind the inhibitor in a saturable fashion and in similar quantities. After trypsinization, BHK-21 cells appeared refractory to the inhibitor, whereas pyBHK-21 cells became sensitive. The data suggested the presence of a receptor for BCSG on the cell surface of both cell lines. Incubating BCSG with conditioned medium from pyBHK-21 cells resulted in loss of the glycopeptide's inhibitory activity. In contrast, medium conditioned by BHK-21 cells had no effect on the inhibitory activity of BCSG. We hypothesize that the refractoriness of pyBHK-21 cells to BCSG is related to their autonomous growth characteristics and failure to respond to topo-inhibitory growth control. BCSG may be a naturally occurring growth regulator whose function can be explored by use of the BHK-21/ pyBHK-21 model system.     

Cartilage-derived factor (CDF) I. Stimulation of proteoglycan synthesis in rat and rabbit costal chondrocytes in culture

A protease-sensitive factor was extracted from fetal bovine cartilage with 1 M guanidine hydrochloride and partially purified by gel filtration on Bio-Gel A 0.5 m and CM-Sephadex column chromatography. This cartilage-derived factor (CDF) stimulated proteoglycan synthesis in rat and rabbit costal chondrocytes in culture, as shown by increased incorporation of ³⁵SO₄^?2, [³H]-glucosamine and [³H]serine into material precipitated with cetylpyridinium chloride. In addition, CDF stimulated the synthesis of sulfated glycosaminoglycans in a dose-dependent manner. These findings suggest that CDF is involved in the control of chondrogenesis.     

Fibronectin on the surface of rat mast cells

Rabbit antiserum against rat plasma fibronectin induced histamine release in isolated rat peritoneal mast cells. Immunofluorescence revealed fibronectin on the mast cells in rat mesentery and on the surface of the isolated mast cells. Mast cells adhered to collagen-coated dishes. This cellular adherence was inhibited by the addition of anti-fibronectin. Fibronectin on the surface of mast cells may play a role of attachment of the cells to collagenous connective tissues.     

Modification of the surface ATPase activity in cultured hepatoma cells by lipid-depleted media

Several compounds have been described which elute fibronectin from a gelatin-Sepharose affinity support. In the present study, it has been found that the potent chaotrophic agent, lithium di-iodosalicylic acid, is 20-fold more effective in eluting fibronectin from collagen than any other presently described fibronectin elution agent. Lithium di-iodosalicylic acid and certain other fibronectin elution agents have been characterized in regard to several parameters involved in the elution of fibronectin from collagen and plastic substrata. By assaying for retention of the cell adhesive activity of fibronectin, it has been demonstrated that 8 M urea + 0.1 M citric acid, pH 4.7, is the most effective condition for preservation of biological activity following elution of fibronectin from the gelatin-Sepharose affinity support.     

Immunocytochemical localization of a calcium-activated protease in skeletal muscle cells

The 80 000-D subunit of a calcium-activated protease from skeletal muscle was purified to homogeneity using preparative sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis and was used to elicit antibody production in rabbits. Antiserum was purified using affinity chromatography to yield a monospecific antibody fraction (anti-80K) directed against the 80 000-D subunit. Localization studies showed that the 80 000-D subunit is present in or near the sarcolemma of cultured myoblasts and sectioned muscle tissue, in discrete areas of the cytoplasm of myoblasts, and in the Z disks of the myofibril. The location of the calcium-activated protease in the cell suggests that the enzyme may be involved in myofibril degradation and in membrane alterations in developing and mature muscle cells.     

Endothelial cells are a site of uptake and degradation of hyaluronic acid in the liver

In a recent communication it was shown that intravenously injected radioactively labelled hyaluronic acid was preferentially taken up by the liver and degraded. We now report that uptake occurs in the liver endothelial cells and that these cells degrade the polysaccharide in vitro into low-molecular weight (LMW) products.     

Human brown adipose cells in culture

Brown adipose tissue (BAT), obtained from the axillary and perirenal regions of newborns 24-48 h after death, was digested with collagenase and the free cells were cultured. Only the cultures of cells from tissue obtained later than 24 h post mortem were successful. These cells grew slowly to reach confluence. Their typical mitochondria gradually disappeared, being replaced by untypical mitochondria. After confluence, the cells accumulated large amounts of lipid in non-coalescent multivacuolar depots. This model can be useful for the study of the metabolic and morphological features of human brown fat cells.     

The co-induction of sister chromatid exchanges and virus synthesis in mammalian cells

The induction of virus synthesis and sister chromatid exchange (SCE) formation was investigated in several mammalian cell lines. Ultraviolet light co-induced the production of virus and SCEs in Simian virus 40 (SV40) transformed hamster cells. Post-irradiation treatment with caffeine enhanced virus induction, though it caused a smaller, less consistent elevation of SCE formation. Co-induction of oncovirus synthesis and SCEs was also observed in three murine cell lines exposed to increasing concentrations of 5-bromodeoxyuridine. These and previous data demonstrate a correlation between the induction of virus synthesis and SCE formation in rodent cells exposed to several agents, although inter-agent variation in the correlation may reflect differences between the two processes.     

Phosphorylation of non-histone proteins associated with mitosis in HeLa cells

Our previous studies indicated that certain non-histone proteins (NHP) extractable with 0.2 M NaCl from mitotic HeLa cells induce germinal vesicle breakdown and chromosome condensation in Xenopus laevis oocytes. Since the maturation-promoting activity of the mitotic proteins is stabilized by phosphatase inhibitors, we decided to examine whether phosphorylation of NHP plays a role in the condensation of chromosomes during mitosis. HeLa cells, synchronized in S phase, were labeled with ³²P at the end of S phase, and the cells subsequently collected while they were in G2, mitosis, or G1. Cytoplasmic, nuclear, or chromosomal proteins were extracted and separated by gel electrophoresis. The labeled protein bands were detected by radioautography. The results indicated an 8–10-fold increase in the phosphorylation of NHP from mid-G2 to mitosis, followed by a similar-size decrease as the cells divided and entered G1. The NHP phosphorylation rate increased progressively during G2 traverse and reached a peak in mitosis. Radioautography of the separated NHP revealed eight prominent, extensively phosphorylated protein bands with molecular masses ranging from 27.5 to 100 kD. These NHP were rapidly dephosphorylated during M-G1 transition. Phosphorylation—dephosphorylation of NHP appeared to be a dynamic process, with the equilibrium shifting to phosphorylation during G2-M and dephosphorylation during M-G1 transitions. These results suggest that besides histone H1 phosphorylation, phosphorylation of this subset of NHP may also play a part in mitosis.     

Differentiated cells from BALB/c mice differ in their radiosensitivity

Various isolated cells of an inbred mouse strain (BALB/c) differed widely in their sensitivity to gamma irradiation: fibroblasts are five times more resistant than peripheral lymphocytes. Among lymphocytes, T cells are more resistant than B cells. Cell lines derived from the primary cells conserved their radiosensitivity. Cytofluorometric measurements show that the differential reaction of a cell to gamma irradiation can be detected already 2–3 h after the irradiation event. Radiation-sensitive cells are delayed for a longer time in S phase and G2 phase of the cell cycle than radiation-resistant cells. No difference in the capacity of the cells to perform single-strand break repair, double-strand break repair or unscheduled DNA synthesis could yet be detected.     

Multiplication of Swiss 3T3 cells in a serum-free medium

Gently trypsinized Swiss 3T3 cells inoculated into medium MCDB 402 attach readily to polylysine-coated surfaces and remain viable for several days in the absence of exogenously added protein. Short-term multiplication under defined conditions can be obtained by supplementing the MCDB 402 with fibroblast growth factor (FGF), insulin (INS), and dexamethasone (DEX). Addition of bovine plasma fibronectin further improves attachment and viability. This system does not require initial plating in serum or the addition of poorly defined extracts for cellular attachment or for multiplication. In the complete system minus FGF, cells plated at a low density attach to the culture surface and become quiescent. The addition of FGF or PDGF 48–72 h after plating stimulates a high level of DNA synthesis during the following 24 h. EGF also stimulates DNA synthesis in these cells, but to a lesser extent. Insulin and dexamethasone are not needed for the initial DNA synthesis response to FGF, but are needed for continuing multiplication over a period of several days. This system provides a means for studying the effects of specific mitogens on Swiss 3T3 cells in the absence of undefined supplements, and without complications due to density-dependent inhibition.     

Increased proteolysis in chromatin of terminally differentiated and quiescent cells

Endogenous proteolysis in chromatin of terminally differentiated, quiescent, and actively proliferating cells was studied by measuring the released acid-soluble radioactivity of [³H]tryptophan-prelabelled nuclear proteins, and by following the specific quantitative and qualitative changes in electrophoregrams of chromosomal proteins. The experiments suggest that the chromatin of differentiated mouse kidney and liver cells, as well as chromatin from Friend cells induced to commit terminal differentiation, exhibit increased proteolysis in comparison with that of chromatin isolated from actively proliferating cells. Enhanced proteolysis was found also for the slowly renewing and quiescent cells from adult mice. The control experiments designated to discriminate between the two possible alternatives explaining the difference—increased activity of the proteolytic enzymes associated with chromatin, or increased susceptibility of the chromosomal proteins to proteases—supported the latter alternative.     

Doubling of cell mass is not necessary in order to achieve cell division in cultured human cells

When exponentially growing NHIK 3025 cells were shifted from medium containing 30% serum to medium containing 0.03% serum the rate of net protein accumulation was reduced due to both a reduction in the rate of protein synthesis and an increase in the rate of protein degradation. This change in growth conditions increased the protein doubling time from 18 to 140 h. The cell cycle duration of cells synchronized by mitotic selection was, however, only increased from 17 to 26 h by this treatment. Therefore, when the cells divide by the end of the first cell cycle following synchronization, the cells shifted to 0.03% serum contained far less protein than those growing continuously in 30% serum. Hence, the attainment of a critical cell mass is probably not controlling cell division for cells growing in a balanced state.     

Adult human retinal cells in culture. Identification of cell types and expression of differentiated properties

A method for culturing adult mammalian retinal neurons in serum-free N2 medium supplemented with nerve growth factor (NGF) is described. Identification of neurons in cultures of dispersed human retina was based upon morphology, immunocytochemical localization of bound tetanus toxin, and autoradiographic localization of 3H-neurotransmitter candidates (gamma-aminobutyric acid, glycine, dopamine) accumulated by high-affinity uptake mechanisms. Neurons would not attach to glass or plastic substrates, consequently the present studies were performed using neurons plated upon a feeder layer. Serum was required for the initial phase of attachment. The feeder layer was derived from retinal cells that had been plated on glass or plastic in the presence of serum and had later been passaged. Since these cells exhibited glial fibrillary acidic protein (GFAP) immunoreactivity, they were tentatively identified as being glial in origin. Under these conditions, neuron- and glia-specific properties were retained up to 28 days. The presence of interstitial retinol-binding protein (IRBP) in medium of cultures of neuronal cells on feeder layers was demonstrated by an immunoblot technique using rabbit antibovine IRBP antibodies. No IRBP was detected in medium in which the feeder layers alone had been cultured. IRBP biosynthesis was demonstrated by incubation of the cultures with [35S]methionine. Immunoprecipitable [35S]IRBP was detected only in medium from cultures containing neurons; cells of the feeder layer did not synthesize and secrete this glycoprotein. These findings are consistent with the hypothesis that IRBP, a 135K constituent of the interphotoreceptor matrix, is synthesized in vivo by a neuronal cell, specifically, the photoreceptors.     

An inhibitory effect of tumour promoters on human epithelial cell growth can be dissociated from an effect on junctional communication

Studies with rodent cells have indicated that the abilities of various tumour promoters to inhibit metabolic cooperation correlate with their potencies as mitogens. Here we have examined the effects of the most potent phorbol ester tumour promoter 12-O-tetradecanoyl phorbol-13-acetate (TPA), on metabolic cooperation and growth of human epidermal cells transformed by SV40 (SVK14 cells). In this system, TPA inhibits Junctional communication and at the same concentration also inhibits growth in a reversible fashion. These effects appear to be mediated by binding of phorbol ester to a single class of high affinity binding site with a Kd similar to that reported for rodent cells (K_d = 20.9 nM at 4 °C). Further studies on the effects of phorbol esters on other human epithelial cell lines reveal that the inhibitory effects of TPA on growth and metabolic cooperation may be completely dissociated. Alternative mechanisms by which TPA may exert its growth-inhibitory effects are discussed.     

Further evidence that phosphoprotein C23 (110 kD/pI 5.1) is the nucleolar silver staining protein

Previously we demonstrated a similar distribution between nucleolar organizing region-(NOR)-specific silver staining and localization of nucleolar phosphoprotein C23 (MW 110 kD/pI 5.1) [1, 2]. We now report that under fixation conditions which allow for antibody binding and subsequent silver staining, monoclonal antibody against protein C23 blocks NOR silver staining as well as silver staining in interphase nucleoli. Monoclonal antibody against nucleolar phosphoprotein B23 (MW 37 kD/pI 5.1) did not block silver staining in either NORs or interphase nucleoli. These, along with earlier observations, provide evidence that nucleolar phosphoprotein C23 is the major silver staining protein of the nucleolus and that it is directly or indirectly associated with rDNA.