Proliferation control in cloned normal and malignant human cells

A method for cloning of a variety of normal and malignant human cells in culture is described. Palladium is precipitated on agarose through masks prefabricated by a photolithographic technique. Practically any pattern can be produced where cells exclusively settle and multiply as ‘miniclones’ on the metal ‘islands’. This communication establishes

1. 1. that ‘miniclones’ settle and multiply with the same efficiency as cells of a mass population, thus constituting an unbiased cell sample

2. 2. that certain malignant lines cannot be studied with the unmodified technique suitable for normal glia-like cells because of excessive translocation between islands

3. 3. that this can be circumvented by the interposition of a thin agar overlay between the cells and the fluid medium. Proliferation of normal glia-like cells was inhibited on palladium islands in a cell density-dependent way. On sufficiently small islands even single cells could be prevented from dividing. Circles of about 3 000 μm² prevented multiplication of about 50% of single cells otherwise capable of division, suggesting that cell-to-cell contacts may not be necessary for proliferation inhibition of normal cells.

     

SUBSTRATE-ATTACHED GLYCOPROTEINS MEDIATING ADHESION OF NORMAL AND VIRUS-TRANSFORMED MOUSE FIBROBLASTS

When BALB/c 3T3, simian virus 40 (SV40)-transformed 3T3 (SVT2), and revertant variants of the transformed cells are removed by EGTA treatment from the substrate on which they were grown, they leave behind a layer of glycoprotein which has been characterized biochemically (Terry, A. H. and L. A. Culp. 1974. Biochemistry. 13:414.)—substrate-attached material (SAM). The influence of SAM from normal and from transformed cells on cellular attachment to the substrate, morphology, movement, and growth has been examined. All three cell types displayed a 30% higher plating efficiency when grown on 3T3 SAM. The morphology of SVT2 colonies and of individual SVT2 cells was dramatically affected by growth on 3T3 SAM—the cells (a) were more highly spread on the substrate, (b) resisted crawling over neighboring cells, and (c) resisted movement away from the edge of colonies; SVT2 SAM was not effective in causing these changes. A cell-to-substrate attachment assay using thymidine-radiolabeled cells and untreated or SAM-coated cover slips was developed. SVT2 cells attached to 3T3 SAM- or SVT2 SAM-coated cover slips with a faster initial rate and to a higher saturation level than to untreated substrate, whereas 3T3 and revertant cells exhibited no preference; there was no species specificity in these cell-substrate attachment phenomena. Trypsin-released cells attached much more slowly than EGTA-released cells. 3T3 SAM, however, was not effective in lowering the saturation density of mass cultures of virus-transformed cells. These experiments suggest that the substrate-attached glycoproteins of normal cells affect the cellular adhesivity, morphology, movement, and perhaps growth patterns of virus-transformed cells—i.e., causing partial reversion of these properties of transformed cells to those found in contact-inhibited fibroblasts. A model for the involvement of substrate-attached glycoproteins in cell-to-substrate adhesion, and possibly cell-to-cell adhesion, has been proposed.     

Increase in plasma membrane phosphodiesterase activity in contact-inhibited 3T3 cells and in phenotypically reverted SV-3T3 cells

Summary Contact-inhibited 3T3 mouse fibroblast cells, in contrast to logarithmically growing 3T3 cells and SV-3T3 transformed cells, have increased levels of plasma membranebound phosphodiesterase (oligonucleotidase, E.C. 3.1.4.19; nucleotide pryrophosphatase, E.C. 3.6.1.9) activity. The increase in enzyme, recorded as increased specific activity, is reversible, as evidenced by the return to normal values following dilution of confluent 3T2 cells and re-initiation of growth. Increased enzyme activity is induced again when the cells regain the confluent state. Transformed SV-3T3 cells can be induced to mimic the contact inhibited state, including increased plasma membrane phosphodiesterase activity, by exposure to a combination of: (i) agents that are known to induce increased intracellular cAMP levels and (ii) additions of purified 3T3 or SV-3T3 plasma membranes. Additions of either alone fails to induce the increase in membrane phosphodiesterase activity, although each alone can significantly suppress cell growth, as measured by incorporation of³H amino acids.We suggest that the elevation of plasma membrane phosphodiesterase activity may serve as a measure of conversion to the contact-inhibited state in both normal cells and phenotypically reverted transformed cells.     

Hyaluronate-cell interaction : Effects of exogenous hyaluronate on muscle fibroblast cell surface composition

Evidence that exogenous hyaluronate (HA) binds to the surface of muscle fibroblast cultures was obtained by incubating confluent fibroblasts with ¹⁴C-HA purified from fibroblast cell surfaces. Surface-bound ¹⁴C-HA was operationally defined as material resistant to six saline washes and solubilized by brief trypsinization. All of the surface-bound radioactivity remains as authentic HA. Exposure of fibroblasts to 100 μg/ml cold HA caused a nearly 3-fold ‘reduction’ in incorporation of isotopic precursors into glycosaminoglycan (GAG); but when intracellular ¹⁴C precursors to GAG were quantitated, the entire ‘reduction’ could be accounted for by decreased precursor uptake. Exposure to exogenous HA altered the distribution of newly synthesized GAG by stimulating an increase in total GAG secreted to the medium at the expense of that bound to the culture surface. Qualitatively, the cell surface ratio of ¹⁴C-HA: ¹⁴C-sulfated GAG (SGAG) of HA-treated cells is about 2.5 times greater than that of untreated cells and the medium ratio is correspondingly reversed. This is primarily the result of stimulated ¹⁴C-SGAG release to the culture medium. Addition of cold HA to prelabeled cultures also stimulates the selective turnover of SGAG from the culture surface. Thus, exposure to HA alters the fibroblast surface by accumulation of exogenous HA as well as by stimulation of SGAG turnover.     

Concentration and shear rate dependence of viscosity in random coil polysaccharide solutions

The concentration (c) and shear rate (γ) dependence of viscosity (η) has been studied for a wide range of random coil polysaccharide solutions, and the following striking generalities are observed:

1. 1. The transition from dilute to concentrated solution behaviour occurs at a critical concentration , when ‘zero shear’ specific viscosity (η_sp) ≈ 10. η_sp varies as c^1.4 for dilute solutions, and as c^3.3 for concentrated solutions.

2. 2. The shear rate dependence of viscosity, and frequency dependence of dynamic (oscillatory) viscosity are closely superimposable.

3. 3. Double logarithmic plots of against (where η₀ is ‘zero shear’ viscosity, and is the shear rate at which ) are essentially identical for all concentrated solutions studied, and thus the two parameters η₀ and completely define the viscosity at all shear rates of practical importance.

Departures from points 1 and 2, but not 3, are observed for concentrated solutions of locust bean gum, guar gum, and hyaluronate at low pH and high ionic strength and are attributed to specific intermolecular associations (‘hyperentanglements’) of longer timescale than non-specific physical entanglements.     

Increased T‐cell stimulating activity by mutated SEC2 correlates with its improved antitumour potency

Aims: To investigate the improved antitumour activity of SAM‐3 compared with recombinant staphylococcal enterotoxins C2 (rSEC2). Methods and Results: Methylthiazol tetrazolium and flow cytometry assays showed that the antitumour activity of SAM‐3 in vivo was improved because of enhanced T‐cell stimulating potency, resulting in massive activation of T cells, particularly CD4 ⁺ and CD8 ⁺ T cells, and subsequent cytokine release. Quantitative real‐time PCR assay showed that despite similar Vβ specificities induced by rSEC2 and SAM‐3, the quantities of activated T cells bearing specific Vβin vitro were different. Conclusions: The results strongly suggested that the increased SAM‐3–T‐cell receptor (TCR) binding affinity contributed to massive T‐cell activation and cytokine release, substantially amplifying antitumour immune response in vivo. Significance and Impact of the Study: This study provided evidence for the mechanism of SAM‐3 antitumour activity improvement compared with rSEC2. Results indicated that SAM‐3 could be used as a potent powerful candidate agent for tumour treatment in clinics.     

Bovine lens epithelium: A suitable model for studying growth control mechanisms : C6-substituted purines inhibit cell flattening and growth stimulation of G0 cells

1. 1. The resting lens epithelium of adult bovines has been used for the study of early events during stimulation to mitotic growth in primary culture. This system offers special advantages, since it consists of a pure population of ‘anchorage dependent’ epithelial cells with more than 99% of the cells in G0.

2. 2. Retraction of the cell sheet as well as respreading and cell flattening are characteristic phenomena of locomotion preceding the inception of DNA synthesis in primary culture.

3. 3. Sheet retraction has been characterized as an active, ATP-dependent process requiring both intact microfilaments and extracellular calcium.

4. 4. The early phase of respreading is dependent on neither intact microfilaments nor microtubules, but is specifically inhibited by adenine, hypoxanthine, guanine, adenosine, AMP and cAMP. Calcium uptake experiments reveal that these purine derivatives reduce the uptake of extracellular calcium which is suggested to be the virtual primary mitotic stimulator for resting lens cells.

5. 5. A conspicuous correlation does exist between the calcium depressing specificity of the purine derivatives, their well known capacity to depress the level of cellular phosphoribosylpyrophosphate (PRPP) and their ability to retard cell flattening.

6. 6. The calcium-depressing action of the purines has been suggested to be partially responsible for their PRPP-depressing capacity and it is concluded that both calcium and PRPP might be involved in the activation process of ‘anchorage dependent’ resting lens cells.

     

Suppression of the transformed phenotype with retention of the viral ‘src’ gene in cell hybrids between rous sarcoma virus-transformed rat cells and untransformed mouse cells

Hybrid cell lines between untransformed mouse 3T3TK-cells and normal rat kidney (NRK) cells transformed by the B77 strain of Rous Sarcoma Virus (RSV) express a non-transformed phenotype, as determined by anchorage-dependent growth and organization of microfilament bundles. Virus rescue experiments and genetic experiments using an RSV mutant temperature-sensitive for maintenance of the transformed phenotype demonstrate that RSV is retained in the non-transformed hybrids. The action of the viral transformation gene ‘src’ therefore appears to be ‘suppressed’ in these hybrids. The suppressed hybrids generate variants in which the expression of the transformed phenotype and the ‘src’ gene is regained. This system should prove to be of value in identifying cellular genes involved in the expression of virally induced transformation.     

The effects of ‘Step-down’ on RNA metabolism in HeLa cells

HeLa cells were subjected to ‘step-down’ conditions, and measurements were made of the high and low salt RNA polymerase activity, phosphorylation of uridine, incorporation of precursors into both RNA and protein and their respective acid-soluble pools, at different cell densities. It was found that ‘step-down’ conditions induced increased activity in both types of polymerase, decreased phosphorylation of uridine and reduced the incorporation of radioactive precursors into both the amino acid and nucleotide pools.     

Relationship between phosphatidylcholine biosynthesis and cellular commitment in concanavalin A-stimulated lymphocytes

The incorporation of [¹⁴C]choline into phosphatidylcholine was studied in lymphocyte cultures exposed to concanavalin A (ConA). The lectin was found to induce an increase in the incorporation of the label with following features:

1. 1. It occurs very promptly after exposure.

2. 2. It is not elicited by a non-mitogenic lectin.

3. 3. The increase in the early stage is proportional to lectin concentration.

4. 4. It can be terminated by a competitive inhibitor of ConA binding.

5. 5. The extent of the increase shows a correlation with the rate of cellular commitment to initiate DNA synthesis. These results suggest that in the mitogenic stimulation of T lymphocytes enhanced synthesis of membrane phospholipids is a precommitment event.

     

Cell density and amino acid transport in 3T3, SV3T3, and SV3T3 revertant cells

The transport of selected neutral and cationic amino acids has been studied in Balb/c 3T3, SV3T3, and SV3T3 revertant cell lines. After properly timed preincubations to control the size of internal amino acid pools, the activity of systems A, ASC, L, and Ly⁺ has been discriminated by measurements of amino acid uptake (initial entry rate) in the presence and absence of sodium and of transportspecific model substrates. L-Proline, 2-aminoisobutyric acid, and glycine were primarily taken up by system A; L-alanine and L-serine by system ASC; L-phenylalanine by system L; and L-lysine by system Ly⁺ in SV3T3 cells. L-Proline and L-serine were also preferential substrates of systems A and ASC, respectively, in 3T3 and SV3T3 revertant cells. Transport activity of the Na⁺-dependent systems A and ASC decreased markedly with the increase of cell density, whereas the activity of the Na⁺-independent systems L and Ly⁺remained substantially unchanged. The density-dependent change in activity of system A occurred through a mechanism affecting transport maximum (V_max) rather than substrate concentration for half-maximal velocity (K_m). Transport activity of systems A and ASC was severalfold higher in transformed SV3T3 cells than in 3T3 parental cells at all the culture densities that could be compared. In SV3T3 revertant cells, transport activity by these systems remained substantially similar to that observed in transformed SV3T3 cells. The results presented here add cell density as a regulatory factor of the activity of systems A and ASC, and show that this control mechanism of amino acid transport is maintained in SV40 virus-transformed 3T3 cells that have lost density-dependent inhibition of growth, as well as in SV3T3 revertant cells that have resumed it.     

Morphological characteristics and ganglioside composition of substratum adhesion sites in a hepatoma cell line (CMH5123 cells) during different phases of growth

This study compares the ganglioside composition of tissue culture substrate-attached material (SAM) with that of cell bodies in a line of transformed hepatocytes derived from the minimal deviation Morris hepatoma 5123 c (CMH5123 cells). We examined both confluent cultures (late-phase cultures) and cells which were allowed to attach for only 3 h (early-phase cultures). We also determined to what extent ganglioside compositions of SAM and cell bodies from early- and late-phase cultures of CMH5123 cells are affected by the block of complex ganglioside biosynthesis induced by treatment with chelating agents (EGTA + EDTA). The morphological characteristics of SAM were monitored by scanning electron microscopy during the different steps of this study. In early-phase cultures, SAM was composed of fragments of filopodia and small vesicles probably representing newly formed substratum adhesion sites. In contrast, SAM of late-phase cultures was made up of large pools of membranous material resulting from the breakage of thick retraction fibers connecting the cell body with broad, mature adhesion sites. SAM of early-phase cultures yielded ganglioside profiles with a higher content of GM1 and GD1 a than those of cell bodies, while in late-phase cultures there was no difference between SAM and cell body gangliosides. When cells were grown in the presence of chelating agents, SAM of early-phase cultures was composed of vesicles and filopodial fragments similar to those found in early-phase cultures grown in regular media; these morphological features also appeared in SAM of confluent cultures (in contrast to the membranous material characteristic of late-phase cultures grown in regular media). In early-phase cultures grown in the presence of chelating agents, gangliosides of SAM were enriched in complex homologs relative to their content in cell bodies. These ganglioside characteristics were also found in SAM of confluent cultures grown in the presence of chelating agents, reflecting the presence of newly formed adhesion sites. On the basis of these results, we may conclude that the molecular assembly of newly formed adhesion sites implies the preferential distribution of several surface components involved in cell adhesion, including complex gangliosides.     

Influence of mycoplasma infection on the incorporation of different precursors into RNA components of tissue culture cells

Seven different tissue culture cells have been cultured with and without mycoplasma (M. hyorhinis) in the presence of various precursors of RNA. Total cellular RNA was isolated and analysed by electrophoresis on polyacrylamide gels. The results obtained with mycoplasma-infected cells can be summarized as follows:

1. 1. When cells are labelled with [8-³H]guanosine or [5-³H]uridine there is some incorporation into host cell 28S and 18S rRNA, but it is less than into mycoplasma 23S and 16S rRNA. [8-³H]guanosine or [5-³H]uridine are also incorporated into host cell and mycoplasma tRNA and mycoplasma 4.7S RNA, but the incorporation into host cell 5S rRNA and low molecular weight RNA components (LMW RNA) is reduced.

2. 2. [5-³H]uracil is not incorporated into host cell RNA but into mycoplasma tRNA, 4.7S RNA, a mycoplasma low molecular weight RNA component M₁ and 23S and 16S rRNA.

3. 3. [³H]methyl groups are incorporated into mycoplasma tRNA, 23S and 16S rRNA, but not into host cell 28S, 18S, 5S rRNA nor into mycoplasma 4.7S RNA.

4. 4. With [³²P]orthophosphate or [³H]adenosine as precursors, the labelling is primarily in the host RNA.

Mycoplasma infection influences the labelling of RNA primarily by an effect on the utilization of the exogenously added radioactive RNA precursors, since the generation time of mycoplasma infected cells is about the same as that of uninfected cells. Mycoplasma infection may completely prevent the identification of LMW RNA components.     

Protein synthesis in transformed 3T3 cells permeabilized by exogenous ATP

Exogenous ATP has been shown to cause a rapid and reversible increase in permeability in transformed 3T3 cells (3T6 and SV3T3) but not in untransformed 3T3 cells. The cells remain viable, but lose intracellular acid-soluble pools. Treatment of transformed cells with ATP greatly reduces incorporation of ¹⁴C-leucine into protein, which is restored by the incubation of the cells with Dulbecco's modified Eagle's medium or by the external additions of certain ions and energy sources. tRNA is not required for the restoration of protein synthesis. In the permeabilized cells the energy for protein synthesis can be provided by glycolysis, oxidative phosphorylation, or direct addition of ATP. These studies demonstrate the usefulness of this method for studying the control of metabolism and macromolecular synthesis in monolayer cultures of transformed mammalian cells.     

Increase in IFNγ?IL-2+ Cells in Recent Human CD4 T Cell Responses to 2009 Pandemic H1N1 Influenza

Human CD4 T cell recall responses to influenza virus are strongly biased towards Type 1 cytokines, producing IFNγ, IL-2 and TNFα. We have now examined the effector phenotypes of CD4 T cells in more detail, particularly focusing on differences between recent versus long-term, multiply-boosted responses. Peptides spanning the proteome of temporally distinct influenza viruses were distributed into pools enriched for cross-reactivity to different influenza strains, and used to stimulate antigen-specific CD4 T cells representing recent or long-term memory. In the general population, peptides unique to the long-circulating influenza A/New Caledonia/20/99 (H1N1) induced Th1-like responses biased toward the expression of IFNγ⁺TNFα⁺ CD4 T cells. In contrast, peptide pools enriched for non-cross-reactive peptides of the pandemic influenza A/California/04/09 (H1N1) induced more IFNγ⁻IL-2⁺TNFα⁺ T cells, similar to the IFNγ⁻IL-2⁺ non-polarized, primed precursor T cells (Thpp) that are a predominant response to protein vaccination. These results were confirmed in a second study that compared samples taken before the 2009 pandemic to samples taken one month after PCR-confirmed A/California/04/09 infection. There were striking increases in influenza-specific TNFα⁺, IFNγ⁺, and IL-2⁺ cells in the post-infection samples. Importantly, peptides enriched for non-cross-reactive A/California/04/09 specificities induced a higher proportion of Thpp-like IFNγ⁻IL-2⁺TNFα⁺ CD4 T cells than peptide pools cross-reactive with previous influenza strains, which induced more Th1 (IFNγ⁺TNFα⁺) responses. These IFNγ⁻IL-2⁺TNFα⁺ CD4 T cells may be an important target population for vaccination regimens, as these cells are induced upon infection, may have high proliferative potential, and may play a role in providing future effector cells during subsequent infections.     

Fibronectin and proteoglycans as determinants of cell-substratum adhesion

When normal or SV40-transformed Balb/c 3T3 cells are treated with the Ca⁺⁺-specific chelator EGTA, they round up and pull away from their footpad adhesion sites to the serum-coated tissue culture substrate, as shown by scanning electron microscope studies. Elastic membranous retraction fibers break upon culture agitation, leaving adhesion sites as substrate-attached material (SAM) (Cells leave “footprints” of substrate adhesion sites during movement by a very similar process.) SAM contains 1–2% of the cell's total protein and phospholipid content and 5–10% of its glucosamine-radiolabeled polysaccharide, most of which is glycosaminoglycan (GAG). By one- and two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis, there is considerable enrichment in SAM for specific GAGs; for the glycoprotein fibronectin; and for the cytoskeletal proteins actin, myosin, and the subunit protein of the 10 nm-diameter filaments. Fibrillar fibronectin of cellular origin and substratum bound fibronectin of serum origin (cold-insoluble globulin, CIg) have been visualized by immunofluorescence microscopy. The GAG composition in SAM has been examined under different cellular growth and attachment conditions. Heparan sulfate content correlates with glycopeptide content (derived from glycoprotein). Newly attaching cells deposit SAM with principally heparan sulfate and fibronectin and little of the other GAGs. Hyaluronate and chrondroitin proteoglycans are coordinately deposited in SAM as cells begin spreading and movement over the substrate. Cells attaching to serum-coated or CIg coated substrates deposited SAM with identical compositions. The proteoglycan nature of the GAGs in SAM has been examined as well as the ability of proteoglycans to form two classes of reversibly dissociable “supramolecular complexes” - one class with heparan sulfate and glycopeptide-containing material and the second with hyaluronate-chondroitin complexes. Enzymatic digestion of “intact” SAM with trypsin or testicular hyaluronidase indicates that (1) only a small portion of long-term radiolabeled fibronectin and cytoskeletal protein is bound to the substrate via hyaluronate or chondroitin classes of GAG; (2) most of the fibronectin, cytoskeletal protein and heparan sulfate coordinately resist solubilization; and (3) newly synthesized fibronectin, which is metabolically labile in SAM, is linked to SAM by hyaluronate- and/or chondroitin-dependent binding. All of our studies indicate that heparan sulfate is a direct mediator of adhesion of cells to the substrate, possibly by binding to both cell-surface fibronectin and substrate-bound CIg in the serum coating; hyaluronate-chondroitin complexes in SAM appear to be most important in motility of cells by binding and labilizing fibronectin at the periphery of footpad adhesions, with subsequent cytoskeletal disorganization.     

Lys-tRNA4 levels and cell division in mouse 3T3 cells

tRNA₄^lys is an isoaccepting tRNA^lys which has been proposed as a necessary requirement for cell division in mammalian cells. We have measured the levels of this tRNA^lys during the growth cycle of mouse 3T3 fibroblasts. High levels of tRNA₄^lys were seen throughout exponential growth. However, a marked decrease in tRNA₄^lys occurred 24 h before the cells became confluent. This decrease was observed in three different 3T3 cell lines, but was not seen in a transformed 3T3 cell line. Trypsinization and replating of contact-inhibited cells returned tRNA₄^lys to the levels characteristic of exponential cells. Data from these and other cell lines show a direct relationship between the levels of tRNA₄^lys and the growth rate of cells in culture.     

Substrate-attached serum and cell proteins in adhesion of mouse fibroblasts.

The effects of serum and coatings of substrate-attached material (SAM, which remains tightly adherent to the substrate after EGTA-mediated removal of cells) on the kinetics of attachment of DNA-radiolabeled BALB/c 3T3. SV40-transformed 3T3, and concanavalin A-selected revertant cells to glass coverlips were studied. The presence of serum in the medium of attaching cells had a marked effect on (1) the initial time lag before stable attachment of cells, (2) the maximum level of attached cells, (3) the stability of attachment, and (4) pseudopodial spread of the cell over the substrate. These serum effects could be mimicked by measuring attachment in medium without serum and with use of serum-preadsorbed or 3T3 SAM-coated coverslips. Enzymatic treatment of serumpreadsorbed substrates indicated that the factor(s) in serum which affects attachment is very trypsin-sensitive. Serum preadsorption of substrates stimulated attachment of SVT2 cells in medium with serum in a manner very similar to the effects of 3T3 SAM coating, while attachment of 3T3 SAM coating, while attachment of 3T3 or revertant cells was unaffected. Slab gel electrophoretic analysis (PAGE-SDS gels) identified eight major serum proteins by Coomassie blue staining (a) which bind to the substrate in the absence of cells and (b) which persist on the substrate after growth to confluence of 3T3 or SVT2 cells; this suggests that major breakdown or serum-adsorbed components does not occur during growth of normal or transformed cells. Seven radioactive SAM proteins were detected by autoradiography in 3T3 or SVT2 SAM electropherograms -- two of which are high molecular weight components which correspond to the glucosamine-radiolabeled hyaluronate proteoglycans observed previously; the remaining five are newly-identified proteins in SAM (one of these proteins appears to be actin). 3T3 and SVT2 cells have unique proportions of these seven components. The data are consistent with the idea that normal or virus-transformed cells do not attach directly to the culture substrate, but to specific classes of substrate-adsorbed serum proteins via deposition of specific classes of cell surface proteins and polysaccharides.     

Effects of platelet-derived growth factor on Ca in 3T3 cells

The effect of platelet-derived growth factor (PDGF) on cellular Ca²⁺ was examined in BALB/c-3T3 cells. PDGF induced:

1. 1. A decrease in cell ⁴⁵Ca²⁺ content.

2. 2. An apparent increased rate of efflux of preloaded ⁴⁵Ca²⁺.

3. 3. A decrease in residual intracellular ⁴⁵Ca²⁺ remaining after rapid efflux.

4. 4. When added after the rapid phase of efflux of ⁴⁵Ca²⁺ had occurred, an immediate decrease in post-efflux residual intracellular ⁴⁵Ca²⁺.

All of the observed changes in ⁴⁵Ca²⁺ induced by PDGF are consistent with a rapid release of Ca²⁺ from an intracellular Ca²⁺ pool that has the slowest efflux and is relatively inaccessible to extracellular EDTA. When incubated with chlortetracycline (CTC), a fluorescent Ca²⁺ probe, 3T3 cell mitochondria became intensely fluorescent. Addition of PDGF resulted in a rapid decrease in CTC fluorescence intensity in both adherent and suspended 3T3 cells. The effects of PDGF on 3T3 cell Ca²⁺ stores and CTC fluorescence intensity were identical with the effects of the Ca²⁺ ionophore A23187 and of the proton ionophore carbonyl cyanide m-chlorophenyl hydrazone. Serum, which contains PDGF, also altered intracellular Ca²⁺ stores, but platelet-poor plasma, which does not contain PDGF, had no effect. EGF, insulin, and tetradecanoyl phorbol acetate (TPA), other factors which stimulate 3T3 cell growth, did not alter 3T3 cell Ca²⁺ stores. Release of Ca²⁺ from intracellular sequestration sites may be a mechanism by which PDGF Stimulates Cell growth.