Use of a DNA microfluorometric assay to measure proliferative response of mink lung cells to purified TGFβ and to TGFβ activity found in prostate cell conditioned medium

Summary The proliferative response of Mv1Lu cells to purified TGFβ₁, or TGFβ-like activity released by various cells into medium conditioned over a 24-h period was quantitated by adapting a rapid DNA fluorometric assay. Acid activation of the conditioned medium allowed the amount of biologically latent versus active TGFβ to be quantitated. A neutralizing antibody specific for TGFβ_{1, 1.2, and 2.0} completely blocked the growth inhibition observed treating Mv1Lu cells with either purified TGFβ₁ or medium containcing secreted TGFβ-like activity conditioned by DU145 prostate cells. In contrast to other assays commonly used to measure TGFβ activity, the proliferative response is related directly to DNA content rather than as a reflection of enzymatic activity or incorporation of³H-thymidine. The necessity for radioactive isotope usage has been eliminated, and the biological response can be quantitated over a period of days.     

Regulation of L-leucine transport in rat kidney by dexamethasone and triiodothyronine

We have investigated the transport mechanisms involved in the stimulation of renal tubular reabsorption of large amino acids by glucocorticoids in vivo through the examination of activity and expression of specific transport systems L and y(+)L for L-leucine in membrane preparations of rat kidneys. Kidneys were removed from adult female Wistar rats treated with dexamethasone or triiodothyronine, and the fractions of brush-border and basolateral membranes were isolated by density gradient centrifugation. Functional analysis of L-leucine uptake using rapid filtration technique revealed induction of a sodium-dependent, arginine-inhibitable system y(+)L transport component in the basolateral membrane in the dexamethasone-treated group. A minor sodium-independent, BCH-inhibitable, system L transport component was unaffected by glucocorticoids. L-leucine uptake remained unaffected in the triiodothyronine-treated group. Expression of both subunits of the system y(+)L transporter was increased in dexamethasone-treated rat kidneys: Western blot analysis showed a significant (46%) increase of 4F2hc protein abundance in the basolateral membrane fraction and competitive RT-PCR revealed an almost 4-times induced expression of y(+)LAT1 mRNA. Our results indicate that system y(+)L in rat kidney is regulated by glucocorticoids. We suggest that enhancement of both 4F2 heavy chain and y(+)LAT1 light chain is necessary for induction of this transport system in the kidney.     

Regulation of transglutaminase 1 gene expression by 12-O-tetradecanoylphorbol-13-acetate, dexamethasone, and retinoic acid in cultured human keratinocytes.

Transglutaminase 1 (TG1) is an enzyme that is expressed at the late stage of terminal differentiation of keratinocytes and catalyzes the epsilon-(gamma-glutamyl)lysine cross-linking reaction to form a highly insoluble cell envelope. To elucidate the mechanism of TG1 gene expression in keratinocytes, we examined the effects of 12-O-tetradecanoylphorbol-13-acetate (TPA), dexamethasone, 1,25-dihydroxyvitamin D3, and retinoic acid on the levels of TG1 mRNA in cultured normal human epidermal keratinocytes (NHEK). Treatment of NHEK with TPA, up to 10 nM, markedly increased the levels of TG1 mRNA in a dose-dependent manner. The effect by treatment with 1 nM TPA reached a peak after 16 h of incubation (20-fold above the basal level). In contrast, phorbol had no effect on TG1 gene expression. The induction of TG1 mRNA expression by TPA was inhibited by 1-(5-isoquinolinylsulfonyl)-2-methyl-piperazine (H-7) and staurosporine. Dexamethasone at a concentration of 1 microM also increased the TG1 mRNA levels, but the maximum induction was observed (3-fold above the basal level) after 72 h of incubation. The effect of dexamethasone was not suppressed by H-7. Moreover, 1 microM of retinoic acid completely inhibited the induction of TG1 mRNA by both TPA and dexamethasone. 1,25-Dihydroxyvitamin D3 showed no effect on the TG1 mRNA levels. From these results, we suggest that the expression of TG1 gene may be upregulated by protein kinase C and glucocorticoid receptor systems and down-regulated by the retinoic acid receptor system.     

Regulation of transglutaminase 1 gene expression by 12-O-tetradecanoylphorbol-13-acetate, dexamethasone, and retinoic acid in cultured human keratinocytes

Transglutaminase 1 (TG1) is an enzyme that is expressed at the late stage of terminal differentiation of keratinocytes and catalyzes the ε-(γ-glutamyl)lysine cross-linking reaction to form a highly insoluble cell envelope. To elucidate the mechanism of TG1 gene expression in keratinocytes, we examined the effects of 12-O-tetradecanoylphorbol-13-acetate (TPA), dexamethasone, 1,25-dihydroxyvitamin D₃, and retinoic acid on the levels of TG1 mRNA in cultured normal human epidermal keratinocytes (NHEK). Treatment of NHEK with TPA, Up to 10 nM, markedly increased the levels of TG1 mRNA in a dose-dependent manner. The effect by treatment with 1 nM TPA reached a peak after 16 h of incubation (20-fold above the basal level). In contrast, phorbol had no effect on TG1 gene expression. The induction of TG1 mRNA expression by TPA was inhibited by 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7) and staurosporine. Dexamethasone at a concentration of 1 μM also increased the TG1 mRNA levels, but the maximum induction was observed (3-fold above the basal level) after 72 h of incubation. The effect of dexamethasone was not suppressed by H-7. Moreover, 1 μM of retinoic acid completely inhibited the induction of TG1 mRNA by both TPA and dexamethasone. 1,25-Dihydroxyvitamin D₃ showed no effect on the TG1 mRNA levels. From these results, we suggest that the expression of TG1 gene may be upregulated by protein kinase C and glucocorticoid receptor systems and down-regulated by the retinoic acid receptor system.     

Stimulation of DNA synthesis in primary cultures of adult rat hepatocytes by rat platelet-associated substance(s)

Summary Experiments in whole animals have shown that normally quiescent adult rat hepatocytes are induced to proliferate by blood borne substances, which we are now probing in primary monolayer cultures. Under our conditions, freshly isolated adult hepatocytes do not proliferate actively in a defined medium, but are stimulated to synthesize DNA — an essential first step — by either serum or an EGF-hormone combination. Stimulation of [³H]thymidine incorporation into hepatocyte DNA by addition of dialyzed mouse, human, horse, or bovine (fetal, newborn, or calf) serum, whose activities are all similar, is regularly surpassed by an EGF-insulin mixture without serum. This, in turn, is exceeded by dialyzed normal rat serum, which is several times more potent than the other sera tested. Removal of blood platelets reduces the activity of normal rat serum by over 50%. Heat inactivation (56° C) causes a similar loss, but heat treatment of platelet-poor serum fails to cause further reduction. The activity of mouse and human serum is not reduced by platelet removal. Serum from partially hepatectomized rats is not significantly more stimulatory than normal rat serum, and its activity is depressed in the same way by platelet deprivation and heat inactivation. Lack of enhancement by partial hepatectomy is not consonant with whole animal studies and requires further investigation. The heat-labile portion of the DNA synthesis-stimulating activity of rat serum appears to derive from platelets. This activity differs from the well-characterized heat-stable human PDGF. Its relation to other reported platelet-associated growth factors is still undetermined. This work was supported by USPHS Grants CA-02146 and AM-19435.     

Circadian rhythm of DNA synthesis and mitotic activity in tongue keratinocytes

Tongue keratinocytes have a high mitotic index (MI) with an evident circadian variation. Our study set out to compare and contrast two phases of the cell cycle: DNA synthesis (S-phase), with inmunocytochemical detection by bromodeoxyuridine (BrdU), and mitosis (M-phase), by the colchicine-arrest of metaphase method, exploring both the dorsal and ventral surfaces of the mouse tongue throughout a circadian period. Adult male mice standardized for light periodicity used for MI experiment were injected intraperitoneally with colchicine. Other animals were injected intraperitoneally with 5-BrdU for S-phase determination. Animals given both treatments were divided into six groups and killed at 4 h intervals until 20:00 h. Tongue samples were processed for histology and immuno-histochemistry. S and M indices were expressed as labelled nuclei or colchicine metaphases, respectively, per 1000 nuclei. Peak MI occurred at 12:00, with the minimum value at 20:00 on dorsal and ventral tongue surfaces. Peak S-phase was at 04:00, whereas the minimum value was at 16:00 for both surfaces. These results show that the proliferative activity of the tongue epithelium is of similar intensity and temporal distribution on both surfaces.     

Regulation of survivin by retinoic acid and its role in paclitaxel-mediated cytotoxicity in MCF-7 breast cancer cells

The chemotherapeutic drug paclitaxel induces microtubular stabilization and mitotic arrest associated with increased survivin expression. Survivin is a member of the inhibitor of apoptosis (iap) family which is highly expressed in during G2/M phase where it regulates spindle formation during mitosis. It is also constitutively overexpressed in most cancer cells where it may play a role in chemotherapeutic resistance. MCF-7 breast cancer cells stably overexpressing the sense strand of survivin (MCF-7(survivin-S) cells) were more resistant to paclitaxel than cells depleted of survivin (MCF-7(survivin-AS) despite G2/M arrest in both cell lines. However, survivin overexpression did not protect cells relative to control MCF-7(pcDNA3) cells. Paclitaxel-induced cytotoxicity can be enhanced by retinoic acid and here we show that RA strongly reduces survivin expression in MCF-7 cells and prevents paclitaxel-mediated induction of survivin expression. Mitochondrial release of cytochrome c after paclitaxel alone or in combination with RA was weak, however robust Smac release was observed. While RA/paclitaxel-treated MCF-7 (pcDNA3) cultures contained condensed apoptotic nuclei, MCF-7(survivin-S) nuclei were morphologically distinct with hypercondensed disorganized chromatin and released mitochondrial AIF-1. RA also reduced paclitaxel-associated levels of cyclin B1 expression consistent with mitotic exit. MCF-7(survivin-S) cells displayed a 30% increase in >2N/<4N ploidy while there was no change in this compartment in vector control cells following RA/paclitaxel. We propose that RA sensitizes MCF-7 cells to paclitaxel at least in part through survivin downregulation and the promotion of aberrant mitotic progression resulting in apoptosis. In addition we provide biochemical and morphological data which suggest that RA-treated MCF-7(survivin-S) cells can also undergo catastrophic mitosis when exposed to paclitaxel.     

Regulation of the transmodulated epidermal growth factor receptor by cholera toxin and the protein phosphatase inhibitor okadaic acid.

Addition of tumor promoting phorbol esters, such as phorbol 12-myristate 13-acetate (PMA), to many cell lines results in a decrease of 125I-epidermal growth factor (EGF) binding and increased serine/threonine phosphorylation of the EGF receptor in a process termed transmodulation. It is, however, unclear whether or not receptor phosphorylation is causally related to the inhibition of high affinity EGF binding. We have investigated the significance of phosphorylation/dephosphorylation events in the mechanism of PMA-induced transmodulation using the adenylate cyclase activator cholera toxin and the serine/threonine protein phosphatase inhibitor okadaic acid. In Rat-1 fibroblasts treated at 37 degrees C, PMA induced a rapid decrease in EGF binding which persisted for 3 hours. In contrast, cells exposed to PMA in the presence of cholera toxin exhibited a marked recovery of binding within 60 minutes. The PMA-stimulated decrease in binding correlated with a rapid increase in the phosphorylation state of the EGF receptor. While phosphorylation of the receptor was sustained at an elevated level for at least three hours in cells receiving PMA alone, EGF receptor phosphorylation decreased between 1 and 3 hours in cells treated with PMA and cholera toxin. Furthermore, the cholera toxin-stimulated return of EGF binding was inhibited by treatment with the phosphatase inhibitor okadaic acid. These results suggest that a cholera toxin-activated phosphatase can increase binding capacity of the transmodulated EGF receptor in Rat-1 cells. Cholera toxin treatment elicited a qualitatively similar response in cells transmodulated by platelet-derived growth factor (PDGF). Okadaic acid antagonized the natural return of binding observed in cells stimulated with PDGF alone, indicating that a dephosphorylation event may be required for the recovery of normal EGF binding after receptor transmodulation.     

Regulation of selenoprotein mRNA expression by hormones and retinoic acid in bovine mammary cells

Selenium is essential for maintaining many body functions through the actions of selenoproteins. To find factors regulating selenoprotein biosynthesis in the bovine mammary cell line MAC-T, the effects of supplementation with selenite and also with retinoic acid, insulin, hydrocortisone and prolactin on the mRNA expression of a number of selenoproteins were investigated. It was found that MAC-T cells express glutathione peroxidase (GPx) 1 and 4, thioredoxin reductase 1 and selenoprotein P, but not GPx 3, which is interesting considering that GPx 3 is one of the only few selenoproteins detected in milk so far. Addition of selenite to the cell culture resulted in a large increase in GPx 1 expression and an increase in selenoprotein P expression, which is similar to the findings made in other systems investigated. Increased mRNA levels of GPx 1 were also observed in cells treated with insulin and hydrocortisone or with retinoic acid. The expression of thioredoxin reductase 1 was increased in cells treated with retinoic acid, whereas that of selenoprotein P was decreased in cells exposed to insulin. The results indicate that several hormones, selenium, and retinoic acid regulate the biosynthesis of various selenoproteins differently in the bovine mammary cell. The possible implications of the findings for processes related to milk formation and mammary carcinogenesis will need additional investigation. Further study of the detailed mechanisms involved is also necessary.     

Effect of calf and rat serum on the induction of DNA synthesis and mitosis in primary cultures of adult rat hepatocytes by cyproterone acetate and epidermal growth factor

Summary Induction of hepatocyte DNA synthesis in culture by cyproterone acetate (CPA), a potent hepatomitogen in vivo, was studied. Adult rat hepatocytes were grown on collagen gels in primary culture for 3 to 10 d. Epidermal growth factor (EGF) was used as a model inducer to establish appropriate culture conditions. (a) In serum-free medium EGF stimulated a wave of DNA synthesis in 10 to 30% of the hepatocytes. CPA had only a weak effect. (b) Increasing concentrations of newborn bovine serum (NBS) at 5 to 95% progressively inhibited the stimulatory effect of EGF. A similar inhibition was obtained by adding bovine serum albumin; 20% NBS, however, had a slightly stimulatory effect on the induction of DNA synthesis by CPA. (c) Portal rat serum (RS) at concentration of 5 to 95% markedly stimulated DNA synthesis, a plateau being reached between 20 and 95%. EGF had a distinct enhancing effect on DNA synthesis in the presence of 5 and 20% RS but not at 50 and 95%. CPA stimulated DNA synthesis in the presence of 20, 50, and 95% RS in a synergistic way. (d) Mitoses were found after treatment with EGF or with CPA. These results show that CPA can induce DNA synthesis in cultured hepatocytes and that RS contains factors facilitating the response to CPA. This study was supported by Gesellschaft für Strahlen-und Umweltforschung mbH, München, Germany.     

Coordinated synthesis of the nuclear protein cyclin and DNA in serum-stimulated quiescent 3T3 cells

Quantitative two-dimensional gel electrophoretic analysis (IEF) of the nuclear polypeptide cyclin together with autoradiographic studies have revealed a coordinate synthesis of cyclin and DNA after serum stimulation of quiescent 3T3 cells. These results strengthen the notion that cyclin may be a central component of the pathway(s) that regulate cell proliferation.     

Regulation of plant peptide hormones and growth factors by post‐translational modification

The number, diversity and significance of peptides as regulators of cellular differentiation, growth, development and defence of plants has long been underestimated. Peptides have now emerged as an important class of signals for cell‐to‐cell communication over short distances, and also for long‐range signalling. We refer to these signalling molecules as peptide growth factors and peptide hormones, respectively. As compared to remarkable progress with respect to the mechanisms of peptide perception and signal transduction, the biogenesis of signalling peptides is still in its infancy. This review focuses on the biogenesis and activity of small post‐translationally modified peptides. These peptides are derived from inactive pre‐pro‐peptides of approximately 70–120 amino acids. Multiple post‐translational modifications (PTMs) may be required for peptide maturation and activation, including proteolytic processing, tyrosine sulfation, proline hydroxylation and hydroxyproline glycosylation. While many of the enzymes responsible for these modifications have been identified, their impact on peptide activity and signalling is not fully understood. These PTMs may or may not be required for bioactivity, they may inactivate the peptide or modify its signalling specificity, they may affect peptide stability or targeting, or its binding affinity with the receptor. In the present review, we will first introduce the peptides that undergo PTMs and for which these PTMs were shown to be functionally relevant. We will then discuss the different types of PTMs and the impact they have on peptide activity and plant growth and development. We conclude with an outlook on the open questions that need to be addressed in future research.     

Effects of starvation and hormones on DNA synthesis in silk gland cells of the silkworm,Bombyx mori

Silk gland cells of silkworm larvae undergo multiple cycles of endomitosis for the synthesis of silk proteins during the spinning phase. In this paper, we analyzed the endomitotic DNA synthesis of silk gland cells during larval development, and found that it was a periodic fluctuation, increasing during the vigorous feeding phase and being gradually inhibited in the next molting phase. That means it might be activated by a self‐regulating process after molting. The expression levels of cyclin E, cdt1 and pcna were consistent with these developmental changes. Moreover, we further examined whether these changes in endomitotic DNA synthesis resulted from feeding or hormonal stimulation. The results showed that DNA synthesis could be inhibited by starvation and re‐activated by re‐feeding, and therefore appears to be dependent on nutrition. DNA synthesis was suppressed by in vivo treatment with 20‐hydroxyecdysone (20E). However, there was no effect on DNA synthesis by in vitro 20E treatment or by either in vivo or in vitro juvenile hormone treatment. The levels of Akt and 4E‐BP phosphorylation in the silk glands were also reduced by starvation and in vivo treatment with 20E. These results indicate that the activation of endomitotic DNA synthesis during the intermolt stages is related to feeding and DNA synthesis is inhibited indirectly by 20E.     

The effects of aphidicolin and α-amanitin on DNA synthesis in preimplantation mouse embryos

The effects of aphidicolin and α-amanitin on DNA synthesis by preimplantation mouse embryos were studied. It was found that both blastocyst and 8-cell embryos showed marked inhibition of ³H-thymidine incorporation into DNA by aphidicolin at concentrations of 20–50 μg/ml. However, aphidicolin did not inhibit the conversion of morula embryos to blastocyst embryos, although aphidicolin-treated blastocysts lost their blastocoel and collapsed into a compact form after prolonged exposure to the drug. Both 8-cell and blastocyst embryos were found to be susceptible to inhibition of DNA synthesis by α-amanitin.     

The effect of oestradiol on the DNA synthesis in neonatal mouse uterus and cervix

Summary (³H)-Thymidine autoradiography was used to study the DNA synthesis in the stroma and epithelium in the uterus proper and the uterine cervix of neonatal mice treated with oestradiol. It was found that in the epithelium of the uterus proper the DNA synthesis is stimulated between 6 and 12 h after injection of oestradiol and decreases again at 18 h. In the stroma of the uterus proper the DNA synthesis is increased 18 h after oestradiol injection.In the epithelium and stroma of the uterine cervix the DNA synthesis decreases from 5 h and is strongly depressed 18 h after oestradiol treatment.This work has been supported by grants from the Norwegian Research Council for Science and the Humanities and from the Norwegian Cancer Society (Landsforeningen mot Kreft).     

Modulation of DNA precursor pools, DNA synthesis, and ultraviolet sensitivity of a repair-dificient CHO cell line by deoxycytidine

The presence of 2 mM deoxycytidine (CdR) in growth medium substantially increased the deoxycytidine triphosphate (dCTP) and deoxuthymidine triphosphate (dTTP) pools in a Chinese hamster ovary cell line, CHO-K1, and in a radiation-sensitive mutant, xrs-5, derived from it (Jeggo et al., 1982). We observed significant differences in alkaline-sucrose gradient profiles of pulse-labeled DNA from unirradiated CHO-K1 and xrs-5 cells. For the latter cell line, a sizable fraction of the DNA synthesized during 5 or 10 min of growth subsequent to a 5-min radiolabeling period was found to co-sediment with large-chromosome DNA. This characteristics of xrs-5 was dramatically reduced by the presence of 2 mM CdR in the culture medium, and the UV resistance of the mutant increased to nearly that of the parent cell line under these culture conditions. These results show that the locus conferring UV-radiation sensitivity to xrs-5 affects DNA replication and that replicative activity and UV-radiation sensivity are jointly modulated by CdR, possibly through its impact on the size of deoxynucleoside triphosphate pools.     

Rate of DNA synthesis in exponentially growing cell lines in the presence and absence of antimetabolites

Experimental tumor cell lines were used to show that in the presence of 5-fluorodeoxyuridine (FdUrd), the rate of DNA synthesis remains unaltered as long as a saturating concentration of thymidine is present. This unimpeded rate of DNA synthesis in combination with FdUrd-blocked de novo thymidylate synthesis makes it possible to accurately measure the total rate of increase of DNA using tritiated thymidine of known specific activity. The observed amount of incorporated tritiated thymidine is in excellent agreement with the calculated theoretical maximal incorporation in cultures with exponentially increasing DNA and cell number.