Onset of DNA replication in nuclei of proliferating and resting NIH 3T3 fibroblasts following fusion

NIH 3T3 mouse fibroblasts arrested in medium containing 0.5% serum were fused with stimulated cells taken at 2-h intervals after replacing the medium with one containing 10% serum, and DNA synthesis was studied in mono-, homo- and heterokaryons using radioautography with double-labelling technique. The presence of a resting nucleus in a common cytoplasm with a stimulated nucleus from the prereplicative period has an inhibitory effect on the entry of the stimulated nucleus into the S period in medium containing either 0.5 or 10% serum, but ongoing DNA synthesis continues. After a 24-h stay in a common cytoplasm with resting nuclei the stimulated nuclei return into the state of rest. When resting cells are stimulated by 10% serum, their inhibitory effect on stimulated nuclei in heterokaryons still persists, at least for 2 h following stimulation. Preincubation of resting cells with cycloheximide for 4 h abolishes their ability to suppress DNA synthesis in stimulated nuclei.The data suggest that resting cells produce an endogenous inhibitor of cell proliferation, whose formation depends upon the synthesis of protein. When stimulated, the cells can proliferate only after decreasing the level of this inhibitor. The results obtained are consistent with the idea of a negative control of cell proliferation.     

Expression of c-fos in NIH3T3 cells is very low but inducible throughout the cell cycle.

It has previously been shown that the c-fos proto-oncogene is rapidly and transiently induced following growth factor stimulation of quiescent NIH3T3 mouse fibroblasts. To investigate a possible role of c-fos in growth control mechanisms we have studied its expression and inducibility during the NIH3T3 cell cycle. Two major conclusions can be drawn from this analysis. First, expression of c-fos is not cell cycle-regulated, and is barely detectable in all phases of the cycle. Second, cells at different stages of the cell cycle (except for mitosis) are as sensitive to c-fos induction by growth factors as quiescent cells. These observations suggest that induction of the c-fos gene does not play a role during the continuous cycling of NIH3T3 cells, but they are fully compatible with the hypothesis that a function of c-fos may be associated with the induction of competence in fibroblasts. Through such a function c-fos may contribute to moving cells out of the quiescent state.     

Cell cycle dependent gene expressions and activities of protein phosphatases PP1 and PP2A in mouse NIH3T3 fibroblasts.

We determined the mRNA levels and the activities in nuclear and non-nuclear fractions of protein phosphatase type 1 (PP1) and type 2A (PP2A) through the cell cycle in synchronized mouse NIH3T3 fibroblasts. The mRNA level for PP1 alpha was gradually elevated in late G1 phase, began to decrease in M phase, and reached the control level with entering into the next G1 phase. The mRNA level for PP2A was rapidly increased in early G1 phase, kept at the high level, and decreased after S phase. In nuclear fractions of cells, spontaneous activities of both PP1 and PP2A were gradually increased until M phase and rapidly decreased with entering the next G1 phase, while in non-nuclear fraction such dramatic alterations were not observed. Potential activities of PP1 in both fractions revealed by Co(2+)-trypsin treatment showed an oscillaion patterns similar to those of the spontaneous activities. These results strongly suggest that cell cycle dependent gene expressions and activities of PP1 and PP2A play roles in DNA synthesis and mitosis during the cell cycle.     

The gene expression profile induced by Wnt 3a in NIH 3T3 fibroblasts

Wnt proteins play important roles in regulating cell differentiation, proliferation and polarity. Wnts have been proposed to play roles in tissue repair and fibrosis, yet the gene expression profile of fibroblasts exposed to Wnts has not been examined. We use Affymetrix genome-wide expression profiling to show that a 6-h treatment of fibroblasts of Wnt3a results in the induction of mRNAs encoding known Wnt targets such as the fibrogenic pro-adhesive molecule connective tissue growth factor (CTGF, CCN2). Wnt3a also induces mRNAs encoding potent pro-fibrotic proteins such as TGFβ and endothelin-1 (ET-1). Moreover, Wnt3a promotes genes associated with cell adhesion and migration, vasculature development, cell proliferation and Wnt signaling. Conversely, Wnt3a suppresses gene associated with skeletal development, matrix degradation and cell death. Results were confirmed using real-time polymerase chain reaction of cells exposed to Wnt3a and Wnt10b. These results suggest that Wnts induce genes promoting fibroblast differentiation towards angiogenesis and matrix remodeling, at the expense of skeletal development.     

The gene expression profile induced by Wnt 3a in NIH 3T3 fibroblasts

Wnt proteins play important roles in regulating cell differentiation, proliferation and polarity. Wnts have been proposed to play roles in tissue repair and fibrosis, yet the gene expression profile of fibroblasts exposed to Wnts has not been examined. We use Affymetrix genome-wide expression profiling to show that a 6-h treatment of fibroblasts of Wnt3a results in the induction of mRNAs encoding known Wnt targets such as the fibrogenic pro-adhesive molecule connective tissue growth factor (CTGF, CCN2). Wnt3a also induces mRNAs encoding potent pro-fibrotic proteins such as TGFbeta and endothelin-1 (ET-1). Moreover, Wnt3a promotes genes associated with cell adhesion and migration, vasculature development, cell proliferation and Wnt signaling. Conversely, Wnt3a suppresses gene associated with skeletal development, matrix degradation and cell death. Results were confirmed using real-time polymerase chain reaction of cells exposed to Wnt3a and Wnt10b. These results suggest that Wnts induce genes promoting fibroblast differentiation towards angiogenesis and matrix remodeling, at the expense of skeletal development.     

Hormonal regulation of expression of the oncogene v-src in mouse fibroblasts NIH 3T3

NIH 3T3 cells were transfected by plasmid containing v-src under control of hormone-regulated LTR MMTV (pMLsrc10). This plasmid caused the foci of morphologically transformed cells. The transformed cells induced rapidly growing tumours in nude mice. In the presence of dexamethasone the efficiency of NIH 3T3 cell transformation increased ten times, while tumourigenicity remained unchanged.     

Metabolic fate of plasma membrane diacylglycerols in NIH 3T3 fibroblasts.

We have examined the metabolism of three radiolabeled 1,2-diacylglycerols (DGs) in NIH 3T3 fibroblasts. Since the lipids used are not appreciably taken up by the cells, we used a phosphatidylserine (PS)-based liposome fusion system to rapidly associate the lipid species with the plasma membrane. When 1,2-[1-14C]dioleoyl-sn-3-glycerol ([14C]DOG) is delivered in this way, it is rapidly converted predominantly to phosphatidylcholine (PC) and triacylglycerol (TG) and to a lesser extent, to monoacylglycerol (MG) and fatty acids (FA), as well as phosphatidic acid (PA) and phosphatidylinositol (PI). We present evidence that [14C] DOG is largely utilized as an intact molecule rather than being broken down to FA and then incorporated to cell lipids. Examination of the metabolism of 1-stearoyl-2-[1-14C]myristoyl-sn-3-glycerol ([14C]SMG) and 1-stearoyl-2-arachidonoyl-sn-3-glycerol ([14C]SAG) reveal important differences. Both produce substantial labeling of PC but [14C]SMG gives rise to the highest proportion of TG and the lowest of PA and PI, whereas [14C]SAG yields the opposite pattern. When phosphatidic acid labeled on its glycerol backbone (1,2-dioleoyl-sn-[U-14C] glycero-3-phosphate) was supplied to the cells via the liposomes, rapid appearance of labeled DG was found which then decreased with concomitant labeling of cellular PC and TG. Only small amounts of the glycerol backbone were recovered in PI. Our experiments identify three types of processes involved in the metabolism of plasma membrane DGs: (i) transferase-catalyzed conversions to PC and TG, (ii) lipolytic breakdown to MG and FA, and (iii) phosphorylation to PA and then conversion to PI. The relative proportions of each DG species converted to these different products are strongly dependent on the fatty acyl composition of the particular DG molecular species, even though formation of PC is the major event in all cases. Since DGs are important second messengers, our study supports the view that conversion to PC and TG can play a key role in DG signal attenuation.     

Alpha B-crystallin expression in mouse NIH 3T3 fibroblasts: glucocorticoid responsiveness and involvement in thermal protection.

alpha B-crystallin, a major soluble protein of vertebrate eye lenses, is a small heat shock protein which transiently accumulates in response to heat shock and other kinds of stress in mouse NIH 3T3 fibroblasts. Ectopic expression of an alpha B-crystallin cDNA clone renders NIH 3T3 cells thermoresistant. alpha B-crystallin accumulates in response to the synthetic glucocorticoid hormone dexamethasone. Dexamethasone-treated NIH 3T3 cells become thermoresistant to the same extent as they accumulate alpha B-crystallin. A cell clone in which alpha B-crystallin is superinduced upon heat shock acquires augmented thermotolerance. Expression of the ras oncogene causes a rapid but transient accumulation of alpha B-crystallin within 1 day. Later, sustained ras oncogene expression suppresses the dexamethasone-mediated alpha B-crystallin accumulation. Thus, oncogenic transformation triggered by the ras oncogene interferes with hormone-mediated accumulation of alpha B-crystallin and concomitant acquisition of thermoresistance. Other known heat shock proteins do not accumulate in response to ectopic alpha B-crystallin expression or to dexamethasone treatment. These results indicate that alpha B-crystallin can protect NIH 3T3 fibroblasts from thermal shock.     

Lipid droplet changes in proliferating and quiescent 3T3 fibroblasts

Lipid droplets (LDs) are fat-storing organelles present in virtually all eukaryotic cells and involved in many aspects of cell biology related to lipid metabolism and cholesterol homeostasis. In this study, we investigated the presence of LDs in proliferating and quiescent (contact-inhibited) 3T3 fibroblasts to verify a correlation with cell growth. LDs were characterized by Nile red staining, positivity to adipophilin and negativity to perilipin. LDs were numerous in proliferating cells, but very few in quiescent cells. However, the fraction of quiescent cells, which resumed proliferation after scratch-wound assay, also resumed the formation of LDs. In proliferating cells, the number of LDs correlated with the DNA content, suggesting a continuous accumulation of LDs during cell growth. These findings were supported by biochemical data showing much higher rates of cholesterol esterification and triglyceride synthesis in proliferating cells. Both filipin staining and the fluorescent cholesterol analog dehydroergosterol revealed the presence of an intense traffic of free cholesterol, mediated by acidic vesicles, in proliferating cells. Nile red ratiometric measurements revealed a different lipid composition of LDs in proliferating and quiescent cells. Changes in the number and composition of LDs were also found in growing cells treated with inhibitors of cholesterol esterification (Sandoz 58-035), endosomal cholesterol efflux (U18666A) and V-ATPase (bafilomycin-A1).     

Nuclear and cytosolic calcium levels in NIH 3T3 fibroblasts

The spatial distribution of intracellular calcium in resting NIH 3T3 fibroblasts loaded with Fura-2 has been studied by digital image analysis. Calibration parameters were determined separately for the nucleus and the cytosol to take into account possible differences in the physico-chemical properties of the two compartments and were found not to differ significantly. The apparent resting calcium concentration in these cells was found to be significantly lower in the nucleus than in the cytoplasm; however, this difference appears to be an artefact arising from the presence in the cytoplasm of regions with higher calcium levels. Application of thapsigargin, to block active uptake of calcium into these compartments, substantially eliminated the differences between nuclear and cytosolic calcium concentrations. These observations indicate that nuclear and cytosolic calcium are in equilibrium in the resting fibroblasts and argue against the existence of diffusional barriers between these two compartments.     

RalA mediates v-Src, v-Ras, and v-Raf regulation of CD44 and fibronectin expression in NIH3T3 fibroblasts

Oncogenic transformation of fibroblasts by v-Src and v-Ras is often associated with downregulation of fibronectin (FN) and increased expression of CD44, a receptor for hyaluronan. Both v-Src and v-Ras as well as v-Raf activate phospholipase D through the small GTPase, RalA, an important mediator of transformation and tumorigenesis in vivo. We have therefore investigated whether RalA is involved in the downregulation of FN and overproduction of CD44 upon oncogenic transformation. We report here that compared to untransfected cells NIH3T3 cells transformed by v-Src, v-Ras, or v-Raf have reduced levels of FN and increased levels of CD44. Moreover, the ability to form extracellular FN fibrils was significantly reduced in the oncogene-transformed cells compared to parental controls. Coexpression of the dominant negative S28N-RalA mutant restored the levels of CD44 and FN and the capacity of v-Src-, v-Ras-, and v-Raf-expressing cells to form extracellular FN fibrils, to those observed in NIH3T3 cells. The data presented here show a novel regulatory role for RalA, which is required for tumor formation in transformed NIH3T3 cells, in mediating the signal transduction pathway activated by v-Src, v-Ras, and v-Raf, that leads to FN downregulation and CD44 overexpression.     

High expression of the taurine transporter TauT in primary cilia of NIH3T3 fibroblasts

Taurine, present in high concentrations in various mammalian cells, is essential for regulation of cell volume, cellular oxidative status as well as the cellular Ca2+ homeostasis. Cellular taurine content is a balance between active uptake through the saturable, Na(+)-dependent taurine transporter TauT, and passive release via a volume-sensitive leak pathway. Here we demonstrate that: (i) TauT localizes to the primary cilium of growth-arrested NIH3T3 fibroblasts, (ii) long-term exposure to TNF(alpha) or hypertonic sucrose medium, i.e., growth medium supplemented with 100 mM sucrose, increases ciliary TauT expression and (iii) long-term exposure to hypertonic taurine medium, i.e., growth medium supplemented with 100 mM taurine, reduces ciliary TauT expression. These results point to an important role of taurine in the regulation of physiological processes located to the primary cilium.     

Regulation of the expression and subcellular localization of the taurine transporter TauT in mouse NIH3T3 fibroblasts.

The cellular level of the organic osmolyte taurine is a balance between active uptake and passive leak via a volume sensitive pathway. Here, we demonstrate that NIH3T3 mouse fibroblasts express a saturable, high affinity taurine transporter (TauT, Km = 18 microm), and that taurine uptake via TauT is a Na+- and Cl(-)-dependent process with an apparent 2.5 : 1 : 1 Na+/Cl-/taurine stoichiometry. Transport activity is reduced following acute administration of H2O2 or activators of protein kinases A or C. TauT transport activity, expression and nuclear localization are significantly increased upon serum starvation (24 h), exposure to tumour necrosis factor alpha (TNFalpha; 16 h), or hyperosmotic medium (24 h); conditions that are also associated with increased localization of TauT to the cytosolic network of microtubules. Conversely, transport activity, expression and nuclear localization of TauT are reduced in a reversible manner following long-term exposure (24 h) to high extracellular taurine concentration. In contrast to active taurine uptake, swelling-induced taurine release is significantly reduced following preincubation with TNFalpha (16 h) but unaffected by high extracellular taurine concentration (24 h). Thus, in NIH3T3 cells, (a) active taurine uptake reflects TauT expression; (b) TauT activity is modulated by multiple stimuli, both acutely, and at the level of TauT expression; (c) the subcellular localization of TauT is regulated; and (d) volume-sensitive taurine release is not mediated by TauT.     

The effect of orthovanadate on phosphoinositide metabolism in NIH 3T3 fibroblasts.

Orthovanadate is an agent known to stimulate cell growth and mimic insulin action. The effects of this compound on phosphoinositides in NIH 3T3 cells were examined. Both 100 and 1000 microM orthovanadate were found to increase the cellular content of inositol phosphate secondary to the activation of phosphatidylinositol-specific phospholipase C (PtdIns-PLC). The time course, dependence on orthovanadate concentration, and sensitivity to the isoflavone genistein were similar for orthovanadate-induced accumulation of inositol phosphate and protein tyrosine phosphate, indicating that there is a correlation between cellular protein tyrosine phosphate levels and PtdIns-PLC activity. Increased phosphatidylinositol phosphate (PtdInsP) content also occurred when cells were incubated with orthovanadate and appeared to result from the activation of PtdIns kinase. This effect was not correlated with cellular protein tyrosine phosphate content. Hence, orthovanadate is shown to affect phosphoinositide metabolism at a minimum of two sites by both tyrosine phosphate-dependent and -independent mechanisms.     

The surface topography of the NIH 3T3 line in proliferating and resting states

The surface topography of resting (serum-deprived) and proliferating (serum-stimulated) NIH 3T3 monolayer cell cultures has been examined by scanning electron microscopy. During G1 and S periods of the cell cycle the cells exhibited well pronounced surface microvilli localized mainly in the perinuclear zone, whereas serum deprivation led to a relatively smooth surface with few microvilli. The observed differences are not likely to be associated with the degree of cell spreading over the substrate, rather reflecting metabolic peculiarities of proliferating and resting cells.