Promotion of spermatogonial proliferation by neuregulin 1 in newt (Cynops pyrrhogaster) testis

We have previously shown that mammalian follicle-stimulating hormone (FSH) promotes the proliferation of spermatogonia and their differentiation into primary spermatocytes in organ culture of newt testis. In the current study, we performed microarray analysis to isolate local factors secreted from somatic cells upon FSH treatment and acting on the germ cells. We identified neuregulin 1 (NRG1) as a novel FSH-upregulated clone homologous to mouse NRG1 known to control cell proliferation, differentiation and survival in various tissues. We further isolated cDNAs encoding two different clones. Amino acid sequences of the two clones were 75% and 94% identical to Xenopus leavis immunoglobulin (Ig)-type and cysteine-rich domain (CRD)-type NRG1, respectively, which had distinct sequences in their N-terminal region but identical in their epidermal growth factor (EGF)-like domain. Semi-quantitative and quantitative PCR analyses indicated that both clones were highly expressed at spermatogonial stage than at spermatocyte stage. In vitro FSH treatment increased newt Ig-NRG1 (nIg-NRG1) mRNA expression markedly in somatic cells, whereas newt CRD-NRG1 (nCRD-NRG1) mRNA was only slightly increased by FSH. To elucidate the function of newt NRG1 (nNRG1) in spermatogenesis, recombinant EGF domain of nNRG1 (nNRG1-EGF) was added to organ and reaggregated cultures with or without somatic cells: it promoted spermatogonial proliferation in all cases. Treatment of the cultures with the antibody against nNRG1-EGF caused remarkable suppression of spermatogonial proliferation activated by FSH. These results indicated that nNRG1 plays a pivotal role in promoting spermatogonial proliferation by both direct effect on spermatogonia and indirect effect via somatic cells in newt testes.     

Primary culture of medaka (<Emphasis Type="Italic">Oryzias latipes</Emphasis>) testis: a test system for the analysis of cell proliferation and differentiation

An in vitro test system using primary testis cells of the medaka (Oryzias latipes) was established that provides quantitative data on cell proliferation and spermatocyte differentiation. The primary cultures were characterised over a period of 2 days with respect to cell viability and the distribution of adherent and suspended cells. These two cell populations were maintained at a dynamic equilibrium in vitro for several days. The proliferating cells were predominantly present amongst the clusters of suspended cells as determined by BrdU labelling (cytological identification and quantification by ELISA). Based on cytological criteria the proliferating cells were mostly spermatogonia and preleptotene spermatocytes. Differentiation of spermatocytes to spermatids or spermatozoa was also observed mainly amongst suspended cells. Quantification of cell proliferation and cell differentiation by flow cytometry was achieved by labelling the primary cells with carboxyfluorescein diacetate N-succinimidyl ester, which allowed the identification and quantification of meiotically or mitotically dividing primary cells. Addition of the flavonoid genistein (10 µg/ml) to the primary cultures inhibited both cell proliferation and cell differentiation significantly. The test system is suitable for the study of the effect of substances which interfere with spermatogenesis in the vertebrate medaka model.     

Pharmacological blockade of mGlu2/3 metabotropic glutamate receptors reduces cell proliferation in cultured human glioma cells

Glial cell proliferation in culture is under the control of metabotropic glutamate (mGlu) receptors. We have examined whether this control extends to human glioma cells. Primary cultures were prepared from surgically removed human glioblastomas. RT-PCR combined with western blot analysis showed that most of the cultures (eight out of 11) expressed group-II mGlu receptors. In two selected cultures (MZC-12 and FCN-9), the mGlu2/3 receptor antagonist, LY341495, slowed cell proliferation when applied to the growth medium from the second day after plating. This effect was reversible because linear cell growth was restored after washing out the drug. LY341495 reduced glioma cell proliferation at concentrations lower than 100 nm, which are considered as selective for mGlu2/3 receptors. In addition, its action was mimicked by the putative mGlu2/3 receptor antagonist (2S)-alpha-ethylglutamate. The anti-proliferative effect of LY341495 was confirmed by measuring [methyl-3H]-thymidine incorporation in cultures arrested in G0 phase of the cell cycle and then stimulated to proliferate by the addition of 10% fetal calf serum or 100 ng/mL of epidermal growth factor (EGF). In cultures treated with EGF, LY341495 was also able to reduce the stimulation of the mitogen-activated protein kinase (MAPK) pathway, as well as the induction of cyclin D1. Both effects, as well as decreased [methyl-3H]-thymidine incorporation, were partially reduced by co-addition of the potent mGlu2/3 receptor agonist, LY379268. We conclude that activation of group-II mGlu receptors supports the growth of human glioma cells in culture and that antagonists of these receptors should be tested for their ability to reduce tumour growth in vivo.     

ASK-1 (apoptosis signal-regulating kinase 1) is a direct E2F target gene

S1P (sphingosine 1-phosphate) receptor expression and the effects of S1P on migration were studied in one papillary (NPA), two follicular (ML-1, WRO) and two anaplastic (FRO, ARO) thyroid cancer cell lines, as well as in human thyroid cells in primary culture. Additionally, the effects of S1P on proliferation, adhesion and calcium signalling were addressed in ML-1 and FRO cells. All cell types expressed multiple S1P receptors. S1P evoked intracellular calcium signalling in primary cultures, ML-1 cells and FRO cells. Neither proliferation nor migration was affected in primary cultures, whereas S1P partly inhibited proliferation in ML-1 and FRO cells. Low nanomolar concentrations of S1P inhibited migration in FRO, WRO and ARO cells, but stimulated ML-1 cell migration. Consistently, S1P1 and S1P3, which mediate migratory responses, were strongly expressed in ML-1 cells, and S1P2, which inhibits migration, was the dominating receptor in the other cell lines. The migratory effect in ML-1 cells was mediated by G(i) and phosphatidylinositol 3-kinase. Both S1P and the S1P1-specific agonist SEW-2871 induced Akt phosphorylation at Ser473. However, SEW-2871 failed to stimulate migration, whereas the S1P1/S1P3 antagonist VPC 23019 inhibited S1P-induced migration. The results suggest that aberrant S1P receptor expression may enhance thyroid cancer cell migration and thus contribute to the metastatic behaviour of some thyroid tumours.     

Application of morphometric techniques to postnatal rat testes in organ culture: insights into testis growth

The extent of Sertoli cell proliferation during fetal and neonatal development determines the final adult testis size and potential for sperm output. To gain further knowledge of the factors that regulate Sertoli cell proliferation, the present study used a new approach to analyse changes in morphology and proliferation in the postnatal testis by combining organ culture with morphometric analysis. Fragments of rat testes from days 0 to 10 postpartum were cultured in contact with DMEM for 6 h or 72 h and fixed. The effects of ovine follicle-stimulating hormone (FSH) and activin were studied in an additional 72-h organ culture experiment using day 9 testes. Bromodeoxyuridine (BrdU) was added for the last 6 h of culture to mark proliferating cells. Two-microm sections of the fragments were analysed for morphological changes of the seminiferous cords, and the proportion of BrdU-labelled Sertoli and germ cells was determined. Assessment of 6-h samples revealed growth characteristics consistent with those observed in vivo during days 1-10 of postnatal development. From day 2 onwards, the volume fraction of seminiferous cords began to increase, while significant growth in cross-sectional area of the cords occurred only after day 6. In these culture conditions, germ cell proliferation and testicular architecture was consistent with that expected for the age of the tissue at time of explant. The proportion of dividing Sertoli cells declined from 15-20% at days 0-4 postpartum to below % at day 10 postpartum in the 6-h culture, and it was low or abolished in the 3-day culture at all time points. Activin and FSH together, but not singly, stimulated Sertoli cell proliferation in the 72-h culture. This paper presents a new approach to analysis of in vitro testis development. The combination of fragment culture and stereological analysis permits rigorous and detailed assessment of developmental changes in the postnatal testis.     

The role of IL 1 in the antigen-specific activation of murine class II-restricted T lymphocyte clones

The role of IL 1 in the antigen-specific activation of class II-restricted T lymphocytes was examined by using a model system consisting of cloned WEHI 5 B lymphoma accessory cells and class II-restricted, soluble antigen- or alloantigen-reactive T cell clones. The addition of exogenous recombinant IL 1 to the T cell cultures resulted in a significant enhancement of the antigen-specific T cell proliferation response, but at best, only small increases in IL 2 release. Goat IgG anti-IL 1 antibodies were added to the T cell cultures to assess their effect on T cell activation. The IL 1 enhancement of the T cell proliferation response was inhibited by the anti-IL 1 antibodies in a dose-dependent manner. In contrast, only modest levels (10 to 25%) of proliferation inhibition were observed in T cell cultures containing either WEHI 5 or splenocyte accessory cells but no exogenous IL 1. When the anti-IL 1 antibodies were added to primary mixed lymphocyte cultures stimulated by WEHI 5 cells in the absence of exogenous IL 1, no significant inhibition of proliferation was observed. A small but statistically significant proliferation inhibition was observed when anti-IL 1 antibodies were added to mixed lymphocyte reaction cultures stimulated by splenocytes. Two-color cytofluorometric analysis of the effects of IL 1 on antigen-activated T cell clones demonstrated that under suboptimal stimulation conditions, IL 1 stimulated a small but significant increase in the number of T cells bearing IL 2 receptors. In the presence of optimal numbers of WEHI 5 accessory cells, IL 1 enhanced T cell proliferation in the absence of a detectable increase in the number of T cells bearing IL 2 receptors, the number of IL 2 receptors per T cell, or the levels of IL 2 released. Finally, exogenous IL 1 can be added as late as 18 to 24 hr after culture initiation without significantly reducing its ability to enhance the T cell proliferation response. These data indicate that IL 1 has pleiotropic effects on murine T lymphocytes and can function to enhance T cell activation at multiple points during the activation sequence.     

Role of transforming growth factor-alpha and the epidermal growth factor receptor in embryonic rat testis development

Embryonic testis development requires the morphogenesis of cords and growth of all cell populations to allow organ formation. It is anticipated that coordination of the growth and differentiation of various cell types involves locally produced growth factors. The current study was an investigation of the hypothesis that transforming growth factor-alpha (TGF-alpha) is involved in regulating embryonic testis growth. TGF-alpha has previously been shown to function in the postnatal testis. TGF-alpha and other members of the epidermal growth factor (EGF) family act through the epidermal growth factor receptor (EGFR) to stimulate cell proliferation and tissue morphogenesis. To understand the potential actions of TGF-alpha in the embryonic testis, general cell proliferation was investigated. Characterization of cell proliferation in the rat testis throughout embryonic and postnatal development indicated that each cell type has a distinct pattern of proliferation. Germ cell growth was transiently suppressed around birth. Interstitial cell growth was high embryonically and decreased to low levels around birth. A low level of Sertoli cell proliferation was observed at the onset of testis cord formation. Sertoli cell proliferation in early embryonic development was low; the levels were high later in embryonic development and remained high until the onset of puberty. Both TGF-alpha and the EGFR were shown to be expressed in the embryonic and postnatal rat and mouse testis. Perturbation of TGF-alpha function using neutralizing antibodies to TGF-alpha on testis organ cultures dramatically inhibited the growth of both embryonic and neonatal testis. TGF-alpha antibodies had no effect on cord formation. The TGF-alpha antibody was found to be specific for TGF-alpha in Western blots when compared to EGF and heregulin. Testis growth was also inhibited by perturbation of EGFR signaling using an EGFR kinase inhibitor. Therefore, TGF-alpha appears to influence embryonic testis growth but not morphogenesis (i.e., cord formation). Treatment of embryonic testis organ cultures with exogenous TGF-alpha also perturbed development, leading to an increased proliferation of unorganized cells. Testis from EGFR and TGF-alpha knockout mice were analyzed for testis morphology. TGF-alpha knockout mice had no alterations in testis phenotype, while EGFR knockout mice had a transient decrease in the relative amount of interstitial cells before birth. Observations suggest that there may be alternate or compensatory factors that allow testis growth to occur in the apparent absence of TGF-alpha actions in the mutant mice. In summary, the results obtained suggest that TGF-alpha is an important factor in the regulation of embryonic testis growth, but other factors will also be involved in the process.     

Studies on Calpain Expression during Differentiation of Rat Satellite Cells in Primary Cultures in the Presence of Heparin or a Mimic Compound

We have synthesized dextran derivatives called RGTAs (for regenerating agents) that were designed to mimic some of the properties of heparin or heparan sulfate to interact with and protect heparin binding growth factors. Some of these growth factors have been described to be involved in myogenesis control. In previous studies, we have shown that muscle regeneration in adults could be greatly enhanced in vivo by treatment with RGTA. Since muscle regeneration occurs through the activation of satellite cells, in the present study we have used primary cultures of rat satellite cells and treated them with the heparan sulfate analogue RGTA or heparin in order to stimulate their growth and differentiation. We also studied the effect of these substances on calpain (calcium-activated neutral proteases) expression in these cultures. Indeed, several reports, principally based on fetal myoblast cultures or myogenic cell lines, have suggested that calpains might be involved in myoblast fusion during myogenic differentiation. We therefore studied the expression of microcalpain (mu-calpain), millicalpain (m-calpain), and calpain 3 in the course of differentiation of these satellite cell cultures in the absence or in the presence of heparin or of a mimic compound (the RGTA RG1282). RGTA and heparin were shown to have a dual effect on satellite cell proliferation and differentiation: RGTA stimulated proliferation with a maximum dose effect at 1 microgam/ml. Heparin used at concentrations similar to those of RGTA was less efficient at stimulating proliferation. Both substances were shown, however, to induce precocious and enhanced differentiation of satellite cells. We showed by quantitative RT-PCR analysis that mu-calpain, m-calpain, and calpain 3 mRNAs were expressed in satellite cell cultures in proliferating myoblasts (day 3) and differentiating cultures (days 7 and 12). The level of mu-calpain mRNA was increased by a factor of 3 during differentiation of satellite cells, whereas the level of m-calpain mRNAs was slightly increased at day 12 only, and calpain 3 mRNA was slightly reduced in these differentiating cultures. Interestingly enough, RGTA and heparin, which both strongly increased differentiation, reduced the expression of the mu- and m-calpains and slightly increased that of calpain 3 in differentiating cultures. These results showed that there was no correlation between the extent of myoblast differentiation and the level of calpain expression in satellite cells grown in primary cultures and underscored the differences between these adult cells and fetal myoblasts.     

Retinoic acid decreases fetal lung mesenchymal cell proliferation in vivo and in vitro

Retinoic acid (RA) is an important coordinator of mammalian organogenesis. RA is implicated in critical lung developmental events. Cell proliferation is precisely regulated during development. We investigated the effect of RA on proliferating mesenchymal cells in both whole organ lung cultures and cell cultures. The potential pathways required for the response were studied in cultures of lung mesenchymal cells from embryonic day (e) 12. We observed an RA-dependent reduction in proliferation of mesenchymal cells in both whole organ and in cell culture. In mesenchymal cell cultures, RA decreased proliferation in lung mesenchymal cells by 72%. This was associated with a decrease of erk-1/2 activity by 68%. Mesenchymal cell proliferation is erk-1/2 dependent. Erk-1/2 can be activated by G-protein coupled receptors (GPCR) or tyrosine kinase receptors (RTK). RA treatment altered both the RTK and the GPCR pathways in primary lung mesenchymal cells. The Epidermal Growth Factor (EGF) dependent erk-1/2 activation was increased by 35% whereas the G(i)-protein cascade was inhibited by 44% in cells treated with RA. Our results suggest that RA decreases proliferation of lung mesenchyme via a G(i)-protein and the erk-1/2 signaling cascade.     

Xyloside effects on in vitro hematopoiesis: functional and biochemical studies

Xyloside supplementation of long-term bone marrow cultures (LTBMCs) has been reported to result in greatly enhanced proliferation of hematopoietic stem cells. This was presumed to be the result of xyloside-mediated perturbation of proteoglycan synthesis by marrow-derived stromal cells. To investigate this phenomenon, we first studied the effects of xyloside supplementation on proteoglycan synthesis by D2XRadII bone marrow stromal cells, which support hematopoietic stem cell proliferation in vitro. D2XRadII cells were precursor labelled with 35S-sulfate, and proteoglycans separated by ion exchange chromatography, isopyknic CsCl gradient centrifugation, and gel filtration HPLC. Xyloside-supplemented cultures showed an approximately fourfold increase in total 35S incorporation, mainly as free chondroitin-dermatan sulfate (CS/DS) glycosaminoglycan chains in the culture media. Both xyloside supplemented and nonsupplemented cultures synthesized DS1, DS2, and DS3 CS/DS proteoglycans as previously described. In contrast to previous reports, xyloside was found to inhibit hematopoietic cell growth in LTBMC. Inhibitory effects were observed both in cocultures of IL-3-dependent hematopoietic cell lines with supportive stromal cell lines and in primary murine LTBMCs. Xyloside was found to have a marked inhibitory effect on the growth of murine hematopoietic stem cells and IL-3-dependent hematopoietic cell lines in clonal assay systems and in suspension cultures. In contrast, dialyzed concentrated conditioned media from LTBMCs had no such inhibitory effects. These findings suggest that xyloside-mediated inhibition of hematopoietic cell growth in LTBMC resulted from a direct effect of xyloside on proteoglycan synthesis by hematopoietic cells.     

Influence of fetal bovine serum and hormones on primary vs. long-term cultures of human breast cancers

Summary We investigated the influence of fetal bovine serum, complemented or otherwise with estradiol or insulin or both, on the proliferation of mammary cancer cells from long-term and primary cultures. The long-term culture corresponded to mouse MXT and MCF-7 cell lines whereas the primary culture corresponded to primitive breast cancers squashed onto histologic slides and maintained in cultures for between 12 and 48 h. Cell proliferation was evaluated by means of digital cell image analysis of Feulgen-stained nuclei. Our results show that the addition of estradiol and insulin slightly but nevertheless significantly increases the proportion of cells still living at Hour 48 of culture. Fetal bovine serum, necessary for the growth of MXT and MCF-7 mammary cells, was highly cytotoxic with respect to the primary cultures of the 20 breast cancers under study. We are now conducting new experiments using chemically defined media to study the influence of new antineoplastic compounds on primary cultures of breast cancers.     

Effect of the beta(3)-adrenergic agonist Cl316,243 on functional differentiation of white and brown adipocytes in primary cell culture

We investigated the effect of the specific beta(3)-adrenergic receptor agonist CL 316,243 (CL) on proliferation and functional differentiation of the Siberian hamster (Phodopus sungorus) white and brown preadipocytes in primary cell culture. Proliferation of both white and brown preadipocytes was stimulated by a general beta-adrenergic agonist (isoproterenol) but not by CL. Lipolysis of differentiated white and brown adipocytes was stimulated similarly by CL with maximum effect at 10 nM. Thermogenic properties of cells were assessed by immunodetection of UCP-1, the brown adipocyte specific uncoupling protein, and measurement of cytochrome c oxidase (COx) activity as an index of mitochondrial capacity. UCP-1 content was largely increased by CL in BAT but not in WAT cultures. Basal UCP-2 mRNA levels were similar in WAT and BAT cultures and increased by both CL and isoproterenol. COx activity of BAT cultures was twice as high as that of WAT cultures but in neither cell culture system could it be increased by beta-adrenergic stimulation. We suggest (i) that white and brown preadipocyte proliferation is increased in vitro via beta1 or beta(2), but not beta(3)-adrenergic pathways, (ii) that white and brown preadipocytes represent different cell types, and (iii) that in vitro beta-adrenergic stimulation it is not sufficient to induce complete thermogenic adaptation of brown adipocytes.     

Cellular origin of cytotoxic effectors and secondary educated lymphocytes in human mixed leukocyte reaction

Human lymphocytes sensitized in vitro during a mixed leucocyte reaction (MLR) against an allogeneic-stimulating cell respond by blast transformation and generation of specific cytotoxic effector cells. Both proliferation and cytotoxicity are maximum on Days 6 and 7 of culture. On Day 14, no more dividing cells or cytotoxic cells are detected in such primary cultures. Restimulation by the specific priming cell triggers a secondary proliferative response and rapid reappearance of specific cytotoxic effector cells. The velocity sedimentation cell separation method which separates cells according to their size was applied to human lymphocytes sensitized in vitro during an MLR on Day 7 of culture. Blast cells were separated from nondividing small lymphocytes. It was shown that: (1) cytotoxic effectors generated at the peak of a primary response are exclusively present in the isolated blast population; (2) highly cytotoxic secondary effector cells are induced to reappear mainly from the blast-derived population upon restimulation; and (3) secondary educated proliferative cells mainly derive from the blast population. Conversely, the blast-depleted small lymphocyte population is operationally depleted of cells able to respond by proliferation to the priming cell while responding normally against third party control cells. HLA-D region specificity of the secondary proliferative response is suggested.     

Sexually dimorphic and laterally asymmetric development of the embryonic duck syrinx: effect of estrogen on in vitro cell proliferation and chondrogenesis

The syrinx, the vocal organ in birds, shows sexual dimorphism in the duck, Anas platyrhynchos. At the cellular level, to examine the role of estrogen in sexually dimorphic and laterally asymmetric development of duck syrinx, cells dissociated from the right and left halves of sexually monomorphic and primitive masculine syrinxes from 10 2/3-day embryos of male and female ducks were cultured by the micromass culture method, with or without estrogen. In the absence of estrogen, primary cell cultures from either side of male syrinx revealed identical abilities in both cell proliferation and chondrogenesis. In the female cell cultures, the right- and left-side cells proliferated equally but the right-side cells accumulated a larger amount of sulfated proteoglycans than the left-side cells did. Both proliferation and chondrogenesis in the male cell cultures were more active than those in the female cell cultures. Estradiol inhibited significantly cell proliferation as well as chondrogenesis in cell cultures from either side of female syrinx. Cultures from right-side cells of male syrinx were less inhibited by estradiol in cell proliferation and especially in chondrogenesis than the other three cultures. Generally, in both sexes the left-side cells of syrinx were more responsive to estrogen than the right-side cells in diminishing proliferation and chondrogenesis. The present results suggest that estrogen inhibits both cell proliferation and chondrogenesis in the female syrinx and that this process may contribute to the development of sexual dimorphism in the duck syrinx.     

Ano1 as a regulator of proliferation

Ano1 is a recently discovered Ca(2+)-activated Cl(-) channel expressed on interstitial cells of Cajal (ICC) that has been implicated in slow-wave activity in the gut. However, Ano1 is expressed on all classes of ICC, even those that do not contribute to generation of the slow wave, suggesting that Ano1 may have an alternate function in these cells. Ano1 is also highly expressed in gastrointestinal stromal tumors. Mice lacking Ano1 had fewer proliferating ICC in whole mount preparations and in culture, raising the possibility that Ano1 is involved in proliferation. Cl(-) channel blockers decreased proliferation in cells expressing Ano1, including primary cultures of ICC and in the pancreatic cancer-derived cell line, CFPAC-1. Cl(-) channel blockers had a reduced effect on Ano1(-/-) cultures, confirming that the blockers are acting on Ano1. Ki67 immunoreactivity, 5-ethynyl-2'-deoxyuridine incorporation, and cell-cycle analysis of cells grown in low-Cl(-) media showed fewer proliferating cells than in cultures grown in regular medium. We confirmed that mice lacking Ano1 had less phosphorylated retinoblastoma protein compared with controls. These data led us to conclude that Ano1 regulates proliferation at the G(1)/S transition of the cell cycle and may play a role in tumorigenesis.     

Lignin isolated from primary walls of hybrid aspen cell cultures indicates significant differences in lignin structure between primary and secondary cell wall.

Hybrid aspen (Populus tremula x tremuloides) cell cultures were grown for 7, 14 and 21 days. The cell cultures formed primary cell walls but no secondary cell wall according to carbohydrate analysis and microscopic characterization. The primary walls were lignified, increasingly with age, according to Klason lignin analysis. Presence of lignin in the primary walls, with a higher content in 21-day old cells than in 7-day old cells, was further supported by phloroglucinol/HCl reagent test and confocal microscopy after both immunolocalization and staining with acriflavin. Both laccase and peroxidase activity were found in the cultures and the activity increased during lignin formation. The lignin from the cell culture material was compared to lignin from mature aspen wood, where most of the lignin originates in the secondary cell wall, and which served as our secondary cell wall control. Lignin from the cell walls was isolated and characterized by thioacidolysis followed by gas chromatography and mass spectrometry. The lignin in the cell cultures differed from lignin of mature aspen wood in that it consisted exclusively of guaiacyl units, and had a more condensed structure. Five lignin structures were identified by mass spectrometry in the cell suspension cultures. The results indicate that the hybrid aspen cell culture used in this investigation may be a convenient experimental system for studies of primary cell wall lignin.     

Expression of inducible nitric oxide synthase in human umbilical vein endothelial cells during primary culture

The adaptive response of endothelial cells to stress may lead to the upregulation of nitric oxide (NO) production. Herein, we report inducible nitric oxide synthase (iNOS) induction in primary cultures of human umbilical vein endothelial cells (HUVEC). The enzyme expression was earlier observed in 12-h cultures, reaching maximal levels after 3 days and decreasing when cells become confluent. The time course of NO production by HUVEC paralleled iNOS expression during the whole culture period, indicating that enzyme was functionally active. Conversely, iNOS induction could not be further detected in HUVEC subcultures passed once from cells presenting maximal levels of iNOS expression in the primary culture. Induction of iNOS in HUVEC was not related to lipopolysaccharide contamination, since the enzyme expression was not affected in the presence of polymyxin B added to primary cultures. Further analysis showed that aminoguanidine, a specific iNOS inhibitor, did not affect cell proliferation, suggesting that the NO produced by HUVEC may not be directly related to cell growth. Platelet endothelial cell adhesion molecule-1 expression was upregulated during cell confluence, in contrast to the decrease of iNOS expression and activity. The data suggest that iNOS expression may be a molecular mechanism mediating the adaptive response of endothelial cells to culture environment.     

Changes in responsiveness of rat tracheal epithelial cells to transforming growth factor-β1 with time in culture

Primary rat tracheal epithelial (RTE) cell cultures have previously been shown to be highly sensitive to growth inhibition by transforming growth factor-β1 (TGF-β1) when treated within 1–2 days after plating. The purpose of the present studies was to examine the effects of TGFβ1 on the growth of RTE cells as a function of time in culture. We found that the sensitivity of RTE cells to growth inhibition by TGFβ1 decreased dramatically as the cultures aged. The IC₅₀ for inhibition of colony forming efficiency was 0.18 pM when TGFβ1 was added 24 h after cell plating. When TGFβ1 treatment was begun on day 5 of culture, the IC₅₀ was 3–4 pM as measured by inhibition of growth (cell number) and DNA synthesis. However, when TGFβ1 was begun on day 19, the IC₅₀ was 65 pM or > 500 pM, depending on whether inhibition of growth or DNA synthesis, respectively, was measured. TGFβ1 accelerated cell death, as measured by exfoliation of cells, and inhibited cell proliferation. The decrease in responsiveness to TGFβ1 in late cultures was shown to be dependent on culture age as well as on cell density. No evidence was found for inactivation or degradation of the added TGFβ1 by the late stage cultures. Cells subcultured from late stage primary cultures remained less responsive to TGFβ1 than subcultured cells from early cultures. Similar to its effect on proliferation, TGFβ1 down-regulated the expression of two proliferation-related genes, c-myc and transforming growth factor-α, in early but not late RTE cell cultures. On the other hand, fibronectin expression was increased by TGFβ1 by about twofold at both early and late times in culture. This indicates that the changes in TGFβ1 responsiveness with time in culture are selective, apparently affecting primarily proliferation-related events. © 1992 Wiley-Liss, Inc.