Effect of hormones on cyclic AMP levels in cultured human cells.

Cultured cells derived from human adipose tissue grew more slowly and had significantly higher basal levels of cyclic AMP than cultured fibroblasts. Cyclic AMP levels in cultured adipose tissue cells were unaffected by epinephrine and were elevated 15-fold by prostaglandin E₁ while fibroblast cyclic AMP levels were elevated 27-fold by epinephrine and 95-fold by prostaglandin E₁. These results support the postulate that the cultured adipose tissue cell is a distinct cell type which may represent an adipocyte or preadipocyte in culture.     

Promotion of collagen production by human fibroblasts with gastric cancer cells in vitro

To elucidate the histogenesis of gastric scirrhous cancer, the promotion of collagen production by normal human skin fibroblasts (HSF-1) with human gastric cancer cells (KATO-III, MKN-45 and MKN-28) was investigated by direct coculture and parabiotic culture. Argyrophilic collagenous fibers were demonstrated among fibroblasts on both direct cocultures and parabiotic cultures of the fibroblasts with gastric cancer cells. Microscopic examination showed that these fibers appeared earlier and were more abundant and thicker in direct cocultures and parabiotic cultures than in single cultures of fibroblasts. Gastric cancer cells in single or parabiotic culture did not form argyrophilic fibers. For quantitative proof of the promotion of collagen production by fibroblasts with gastric cancer cells, hydroxyproline produced by fibroblasts was measured. Much higher fibroblast hydroxyproline values were obtained in parabiotic cultures with gastric cancer cell lines than in single cultures of HSF-1. Moreover, the rate of collagen synthesis by HSF-1 was much higher than that of any gastric cancer cell line tested. These results demonstrate that gastric cancer cells enhance collagen production by fibroblasts in vitro. This finding suggests that they may produce a factor promoting fibroblast collagen synthesis and that this may contribute to the formation of stromal collagen in human gastric scirrhous cancer.     

Sites of transcription of the Müllerian inhibiting substance gene in mouse testis

The factors involved in the inhibition of ovarian follicular cellular growth after the luteinizing hormone (LH) surge are poorly established. The aim of this study was to investigate the production of an inhibitory growth factor by human ovarian cells. Luteinized granulosa cells were obtained from an assisted fertilization program and were cultured in the presence or absence of follicle-stimulating hormone (FSH) and estradiol. Data obtained by cell counting showed that the number of human luteinized granulosa cells cultured in the presence of fetal bovine serum (10%) increased 1.8-fold within a 2-day period. In serum-free medium, human luteinized granulosa cells were able to incorporate ³H-thymidine, measured during consecutive 48 h periods. During all the periods tested (up to 7 days), low basal levels of thymidine incorporation were measured and were further reduced in the presence of FSH (200 ng/ml) and estradiol (500 ng/ml). To elucidate the possible production of an inhibitory growth factor, ³H-thymidine incorporation by rat granulosa cell cultures was measured in the presence of conditioned media (CM; from human granulosa cell cultures). In this system, FSH and estradiol elicited a tenfold increase in thymidine incorporation. The addition of CM (10% v/v collected on day 2) to FSH- and estradiol-treated granulosa cell cultures produced an inhibition (61%) of thymidine incorporation. The active factor in CM withstood freeze-thawing, was stable for several weeks at – 20°C, became unstable at 4°C, and was heat labile and sensitive to proteolysis. Ultrafiltration using membranes with different molecular weight cutoffs suggested that the factor had a molecular weight >30,000 dalton. We suggest that an inhibitory growth factor produced by human luteinized granulosa cells could be involved in the differentiation of growing follicles to corpus luteum. © 1993 Wiley-Liss, Inc.     

Growth characteristics of human first trimester decidual cells cultured in serum-free medium: production of prolactin, prostaglandins and fibronectin

A procedure for the establishment of pure human first trimester decidual cells in primary cultures has been developed. The high rate of success in obtaining such cultures resulted from the elimination of fibroblasts by appropriate enzyme dissociation and filtration of the initial tissue sample, and subsequent maintenance of the cells in a serum-free medium supplemented with insulin, fibroblast growth factor (FGF), estradiol, progesterone, hydrocortisone, transferrin and sodium selenite. Under these culture conditions, we obtained pure and actively dividing decidual cells forming tightly packed and nonoverlapping epithelioid cell monolayers covering more than 75% of the culture area. The cultured decidual cells retained their in vivo capacity to produce prolactin and various prostaglandins (PGs), primarily PGE2. There was a marked reduction in hormone production after 20 days in culture. A massive network of fibrillar surface fibronectin was detected by indirect immunofluorescence staining of the cultured cells. The production of prolactin and PGs together with the secretion of fibronectin may play a role in the implantation and subsequent growth of the embryo. The described procedure of obtaining fibroblast-free decidual cell monolayers will promote studies on the hormonal regulation of this tissue at the time of early intrauterine life.     

Modulation of queuine uptake and incorporation into tRNA by protein kinase C and protein phosphatase

It has been suggested that the rate of queuine uptake into cultured human fibroblasts is controlled by phosphorylation levels within the cell. We show that the uptake of queuine is stimulated by activators of protein kinase C (PKC) and inhibitors of protein phosphatase; while inhibitors of PKC, and down-regulation of PKC by chronic exposure to phorbol esters inhibit the uptake of queuine into cultured human fibroblasts. Activators of cAMP- and cGMP-dependent kinases exert no effect on the uptake of queuine into fibroblast cell cultures. These studies suggest that PKC directly supports the activity of the queuine uptake mechanism, and that protein phosphatase activity in the cell acts to reverse this. Regardless of the modulation of uptake rate, the level of intracellular queuine base saturates in 6 h. However, there is still an effect on the incorporation rate of queuine into tRNA of fibroblast cultures even after 24 h. We now show that the incorporation of queuine into tRNA in cultured human fibroblasts by tRNA-guanine ribosyltransferase (TGRase) is also stimulated by activators of PKC and inhibitors of protein phosphatase: while inhibitors of PKC decrease the activity of this enzyme. These studies suggest that PKC supports both the cellular transport of queuine and the activity of TGRase in cultured human fibroblasts, and that protein phosphatase activity in fibroblasts acts to reverse this phenomenon. A kinase-phosphatase control system, that is common to controlling both intracellular signal transduction and many enzyme systems, appears to be controlling the availability of the queuine substrate and the mechanism for its incorporation into tRNA. Since hypomodification of transfer RNA with queuine is commonly observed in undifferentiated, rapidly growing and neoplastically transformed cells, phosphorylation of the queuine modification system may be critical regulatory mechanism for the modification of tRNA and subsequent control of cell growth and differentiation.     

TGF-β1 stimulates cultured human fibroblasts to proliferate and produce tissue-like fibroplasia: A fibronectin matrix-dependent event

During wound repair, fibroblasts accumulate in the injured area until any defect is filled with stratified layers of cells and matrix. Such fibroplasia also occurs in many fibrotic disorders. Transforming growth factor-β (TGF-β), a promotor of granulation tissue in vivo and extracellular matrix production in vitro, is expressed during the active fibroplasia of wound healing and fibroproliferative diseases. Under usual tissue culture conditions, normal fibroblasts grow to confluence and then cease proliferation. In this study, culture conditions with TGF-β1 have been delineated that promote human fibroblasts to grow in stratified layers mimicking in vivo fibroplasia. When medium supplemented with serum, ascorbate, proline, and TGF-β was added thrice weekly to normal human dermal fibroblasts, the cells proliferated and stratified up to 16 cell layers thick within the culture dish, producing a tissue-like fibroplasia. TGF-β stimulated both DNA synthesis as measured by 1H-thymidine uptake and cell proliferation as measured by a Hoechst dye DNA assay in these postconfluent cultures. The stratification was dependent on fibronectin assembly, as demonstrated by anti-fibronectin antibodies which inhibited both basal and TGF-β-stimulated cell proliferation and stratification. Suppression of collagen matrix assembly in cell layers with β-amino-proprionitrile (BAPN) did not inhibit basal or TGF-β stimulated in vitro fibroplasia. BAPN did not interfere with fibronectin matrix assembly as judged by immunofluorescence microscopy. Thus, in concert with serum factors, TGF-β stimulates postconfluent, fibronectin matrix-dependent, fibroblast growth creating a fibroplasia-like tissue in vitro. J Cell Physiol 170:69–80, 1997 © 1997 Wiley-Liss, Inc.     

Germ cell mitogenic activity is associated with nerve growth factor-like protein(s).

The mitogenicity of germ cell proteins released from round spermatids (RS) and pachytene spermatocytes (PS) was investigated. Germ cells were isolated by centrifugal elutriation from 90-day-old rat testes and incubated in a supplement enriched culture media that lacked exogenous proteins. The conditioned culture media of RS and PS were dialysed/concentrated and lyophilized to prepare RS protein (RSP) and PS protein (PSP). Mitogenic activity of RSP and PSP was determined by 3H-thymidine incorporation into Swiss 3T3 fibroblasts. RSP and PSP stimulated 3H-thymidine incorporation by fibroblasts in a dose-dependent manner. At a higher concentration of RSP (300 micrograms/ml), fibroblast proliferation was stimulated from 6- to 20-fold of control cultures, whereas PSP (300 micrograms/ml) stimulated fibroblast proliferation 2.5-fold of control cultures. Since RSP exhibited substantially greater mitogenic activity than PSP we further investigated the RSP mitogenic substance(s) by immunoneutralization with antibodies against several growth factors. The mitogenic activity of RSP was significantly reduced by treatment with nerve growth factor (NGF) antibody, while neither the treatment of RSP with acidic fibroblast growth factor (aFGF) antibody, nor basic fibroblast growth factor (bFGF) antibody significantly modified the mitogenic activity of RSP. Interestingly, murine NGF-beta, recombinant human NGF-beta, and bovine serum albumin (BSA) did not exhibit mitogenic activity on 3T3 fibroblasts. Nevertheless, the presence of a NGF-like protein in RS and PS was confirmed by indirect immunofluorescence staining with a murine NGF antibody. Subsequently, a Western blot analysis with the NGF antibody identified two immunoreactive bands of 41 +/- 2 kDa and 51 +/- 1 kDa in both RSP and PSP under reduced conditions. These germ cell NGF-like proteins were apparently different from similarly prepared murine and human NGFs (13 kDa) in their molecular weight. Furthermore, neurite outgrowth from pheochromocytoma cells (PC-12), a functional bioassay for NGF-like activity, was stimulated by addition of RSP and PSP to the culture media of the PC-12 cells. These results demonstrate mitogenic activity in germ cell proteins (RSP and PSP) and identify a NGF-like protein(s) which is associated with most of this activity.     

Transforming growth factor beta increases cell surface binding and assembly of exogenous (plasma) fibronectin by normal human fibroblasts.

Transforming growth factor beta (TGF-beta) enhances the cell surface binding of 125I-fibronectin by cultured human fibroblasts. The effect of TGF-beta on cell surface binding was maximal after 2 h of exposure to TFG-beta and did not require epidermal growth factor or protein synthesis. The enhancement was dose dependent and was found with the 125I-labeled 70-kilodalton amino-terminal fragment of fibronectin as well as with 125I-fibronectin. Treatment of cultures with TGF-beta for 6 h resulted in a threefold increase in the estimated number of fibronectin binding sites. The increase in number of binding sites was accompanied by an increased accumulation of labeled fibronectin in detergent-insoluble extracellular matrix. The effect of TGF-beta was biphasic; after 6 h of exposure, less labeled fibronectin bound to treated cultures than to control cultures. Exposure of cells to TGF-beta for greater than 6 h caused a two- to threefold increase in the accumulation of cellular fibronectin in culture medium as detected by a quantitative enzyme-linked immunosorbent assay. The second phase of the biphasic effect and the increase in soluble cellular fibronectin were blocked by cycloheximide. Immunofluorescence staining of fibroblast cultures with antifibronectin revealed that TGF-beta caused a striking increase in fibronectin fibrils. The 70-kilodalton amino-terminal fragment of fibronectin, which blocks incorporation of fibronectin into extracellular matrix, blocked anchorage-independent growth of NRK-49F cells in the presence of epidermal growth factor. Our results show that an increase in the binding and rate of assembly of exogenous fibronectin is an early event preceding the increase in expression of extracellular matrix proteins. Such an early increase in cell surface binding of exogenous fibronectin may be a mechanism whereby TGF-beta can modify extracellular matrix characteristics rapidly after tissue injury or during embryonic morphogenesis.     

Serum glucocorticoids have persistent and controlling effects on insulinlike growth factor i action under serum-free assay conditions in cultured human fibroblasts

Summary The biological actions of insulinlike growth factor I (IGF-I) measured under serum-free assay conditions were found to be significantly influenced by prior subculture conditions for adult human fibroblasts. Glucocorticoids seemed to be the major medium variable affecting IGF-I action. IGF-I added to serum-free cultures had little or no effect on [¹⁴C]aminoisobutyric acid uptake or [³H]thymidine incorporation in human fibroblasts previously maintained in media containing serum with low glucocorticoid levels or in serum stripped of endogenous steroids. However, a 48-h preincubation with dexamethasone resulted in a marked synergistic increase in IGF-I stimulation of [¹⁴C]aminoisobutyric acid uptake and [³Hthymidine incorporation in these cultures. In contrast, IGF-I in serum-free medium seemed to be a potent mitogenic and metabolic stimulus for human fibroblasts which had been subcultured in media with a high glucocorticoid content, either endogenous, or supplemented. After these culture conditions, a 48-h preexposure to dexamethasone had no further enhancing effect on IGF-I action. Dexamethasone also potentiated IGF-I, insulin, and epidermal growth factor stimulation of fibroblast replication depending on the earlier subcultivation conditions. Thus, glucocorticoids are important modulators of IGF-I bioactivity in cultured human fibroblasts. Serum glucocorticoids can exert a profound influence on the biological phenomena measured in cell culture, even when the serum has been removed before the actual experiment, and must be carefully taken into account for accurate evaluation of the biological function of IGF-I and other growth factors. This work was supported in part by grants DK28229, DK36054, CA42106, RCDA01275, and DK24085 from the National Institutes of Health, Bethesda, MD.     

Modulation of the invasive phenotype of human colon carcinoma cells by organ specific fibroblasts of nude mice

We examined whether fibroblasts from subcutaneous, colon or lung tissues of nude mice influence the invasive potential of highly metastatic human colon carcinoma KM12SM cells. Primary cultures of nude mouse fibroblasts from skin, lung and colon were established. Invasive and metastatic KM12SM cells were cultured alone or with fibroblasts. Growth and invasive properties of the KM12SM cells were evaluated as well as their production of gelatinase activity. KM12SM cells were able to grow on monolayers of all three fibroblast cultures but did not invade through skin fibroblasts. The conditioned media of KM12SM cells cocultured with skin, colon or lung fibroblasts were examined for the presence of type IV collagenase (gelatinase). KM12SM growing on plastic and on colon or lung fibroblasts produced significant levels of latent and active forms of 64 kDa type IV collagenase, whereas KM12SM cells cocultivated with nude mouse skin fibroblasts did not. In contrast, human squamous cell carcinoma A431 cells produced significant levels of collagenase type IV when cocultured with nude mouse skin fibroblasts, a tissue they invaded and completely penetrated. Incubation of KM12SM cells in serum-free medium containing recombinant human interferon-beta (fibroblast interferon) was associated with significant reduction in gelatinase activity. Since the production of type IV collagenase by human colon cancer cells is specifically inhibited by mouse skin fibroblasts but not by colon or lung fibroblasts the data suggest that organ-specific fibroblasts can influence the invasive and metastatic properties of KM12SM cells.     

DNA replication in mammalian cells after the action of physical, chemical or biological factors. VI. The recovery of DNA synthesis in a culture of irradiated cells

The kinetics of DNA synthesis restoration in cultured HeLa cells and in L-929 mouse fibroblasts irradiated by gamma-rays of 60Co with a dose of 10 Gy was studied. Early after irradiation the rate of DNA synthesis in HeLa cells measured with 3H-thymidine incorporation was seen to decrease. Two hours later the incorporation starts to increase to reach the control level 4 hours after irradiation and then becomes even higher than this level. The distribution of cells among phases of the cell cycle measured with flow cytometry undergoes changes. 4-6 hours after irradiation part of S-phase cells increased contributing presumably to the elevating of 3H-thymidine incorporation observed at this time. The restoration of the incorporation was suppressed by inhibitors of protein and RNA synthesis--cycloheximide and actinomycin D. It is suggested that the processes of restoration of DNA synthesis in irradiated cells can be of inducible nature. In irradiated HeLa and L-929 cells the restoration of DNA synthesis is resistant to novobiocin, an inhibitor of DNA replication.     

Variables controlling somatomedin production by cultured human fibroblasts

Somatomedin is secreted by multiple types of cultured cells including human fibroblasts. Since the control of somatomedin (Sm) production by fibroblasts may be an important regulatory step in cell division, we undertook studies to define the variables in tissue culture experimental design that may have significant effects on the secretion of Sm. Cell density was an important parameter in determining basal Sm production rates. Cultures plated at 2.5 X 10(4) cells/well produced 0.38 +/- 0.06 U/ml/10(5) cells whereas an increase in culture density to 6.2 X 10(4) cells/well was associated with a decrease in Sm production per cell to 0.23 +/- 0.04 U/ml/10(5) cells (P less than .01). Cultures stimulated by platelet-derived growth factor (PDGF) showed a similar reduction in Sm production with increasing cell density. Epidermal growth factor was stimulatory (5.4-fold increase) in low-density cultures but had no effect when high-density cultures were used. If the experiments were initiated between 2 and 4 days after the last media change there were no significant differences in basal or PDGF-stimulated Sm concentrations. Between days 5 and 9 however, there was a progressive increase in the basal Sm production rate. The duration of incubation was an important variable since Sm production increased during the first 12 h in noncycling cells and showed an accelerated increase between 4 and 8 h in cycling cells. Cells between the eighth and 12th passage had similar basal Sm production (0.22 +/- 0.04 U/ml/10(5) cells) rates; cells between the 19th and 20th passages had significantly higher basal Sm production rates (0.41 +/- 0.05 U/ml/10(5) cells) (P less than .01). These results suggest that several variables, particularly cell density and passage number, are critical variables when quantitating the effect of hormones and growth factors on Sm production by cultured fibroblasts.     

Comparative study of human chromosome replication in primary cultures of embryonic fibroblasts and in cultures of peripheral blood leucocytes

Early and late replication of chromosomes in primary cultures of embryonic fibroblasts and in cultures of peripheral blood leucocytes were analysed using pulse and continuous incorporation of ³H-thymidine. In both types of cells chromosomes begin the synthesis period synchronously. The termination of the DNA synthesis of chromosomes is an asynchronous process and has peculiarities in every type of cells, chromosomes 1, 16, 21–22 are labelled relatively more intensively in fibroblast cultures than in leucocytes but the chromosomes of group 4–5, on the contrary, contain more grains in leucocyte cultures than in fibroblast cultures. It is highly probable that the discovered differences in late replication of the mentioned chromosomes in the investigated types of cells are connected with the differences in functioning of these chromosomes in the two different types of cell systems.     

Modulation of plasminogen activator production by interleukin 1: differential responses of fibroblasts derived from human skin and rheumatoid and non-rheumatoid synovium

Rheumatoid synovial fibroblasts were treated with purified porcine interleukin 1 alpha and recombinant human interleukin 1B, and the production of secreted and cell-associated plasminogen activator activity was measured. No stimulation of plasminogen activator activity was seen in response to either preparation of interleukin 1, and in more than half of the cell cultures interleukin 1 caused a significant decrease in the secreted levels of PA activity. Increased levels of prostaglandin E were produced in the same experiments, indicating that the cells were responsive to the interleukin 1 preparations. Both retinoic acid and unfractionated monocyte conditioned medium were able to stimulate the production of PA activity by the rheumatoid synovial fibroblast cultures. The rheumatoid synovial fibroblasts produced two species of plasminogen activator as indicated by SDS polyacrylamide gel electrophoresis, with apparent Mr of approx. 50,000 and 100,000. The Mr = 50,000 species co-migrates with urokinase-type plasminogen activator. No species is produced which co-migrates with tissue type plasminogen activator. Studies with antibodies also indicate that the activity produced is urokinase-type plasminogen activator. The Mr = 100,000 species may be an enzyme-inhibitor complex. Two non-rheumatoid synovial fibroblast cultures and two out of six human skin fibroblast cultures did produce elevated levels of plasminogen activator activity in response to recombinant human interleukin 1B. The results suggest that fibroblast populations may differ in their response to interleukin 1, in terms of production of plasminogen activator activity.     

Glucose reduces PDGF production and cell proliferation of cultured vascular endothelial cells

The effect of glucose on PDGF production and cell proliferation was studied on cultured bovine aortic endothelial cells. PDGF levels were measured using an enzyme-linked immunosorbent assay technique newly developed in our laboratory. The cell proliferation rate was determine on the basis of 3H-thymidine incorporation into cellular DNA. PDGF levels in culture medium were below the detection limit of the assay. However, PDGF levels were measurable in cultured endothelial cells at confluence. Both PDGF production and thymidine incorporation were significantly reduced in the endothelial cells cultured with high concentrations of glucose. These results suggest that reduced PDGF production and cell proliferation may be involved in altered vascular endothelial function in diabetics.     

Alterations in craniofacial growth induced by isotretinoin (13-cis-retinoic acid) in mouse whole embryo and primary mesenchymal cell culture

Recent evidence has demonstrated that 13-cis-retinoic acid (13-cis-RA, or isotretinoin) is responsible for various craniofacial malformations in the rodent and human embryo. Our studies have been directed toward understanding this effect using mouse whole embryo and primary cell cultures. In whole embryo culture, 13-cis-RA caused significant overall embryonic growth retardation, especially in the primary and secondary palatal processes. In embryos explanted on day 10 of gestation and exposed for 24 or 48 hr, the mesenchyme beneath the epithelium of the nasal and maxillary processes contained pyknotic nuclei as well as a dramatically reduced number of nuclei incorporating 3H-thymidine. The secondary palatal processes and the roof of the oral-nasal cavity had fewer mesenchymal cells than control embryos. The incorporation of 3H-thymidine into TCA-insoluble macromolecules was 30% less in the retinoid-treated heads. In primary cell cultures from day-12 mouse secondary palatal mesenchyme, subsequent cell growth was decreased at concentrations of 13-cis-RA greater than 1 X 10(-5) M. After a 40-hr treatment period, labeling indices in retinoid-treated cells were significantly lower than control values (25% compared with 40%). Retinoic acid also caused a significant, concentration-dependent decrease in 3H-thymidine incorporation. The inhibitory effect of 13-cis-RA on proliferation of oral-nasal mesenchymal cells appears to be related to the production of craniofacial malformations.     

Human epidermal growth factor and the proliferation of human fibroblasts

The effect of human epidermal growth factor (hEGF), a 5,400 molecular weight polypeptide isolated from human urine, on the growth of human foreskin fibroblasts (HF cells) was studied by measuring cell numbers and the incorporation of labeled thymidine. The addition of hEGF to HF cells growing in a medium containing 10% calf serum resulted in a 4-fold increase in the final density. The presence of hEGF also promoted the growth of HF cells in media containing either 1% calf serum or 10% gamma globulin-free serum. The addition of hEGF to quiescent confluent monolayers of HF cells, maintained in a medium with 1% calf serum for 48 hours, resulted in a 10- to 20-fold increase in the amount of ³H-thymidine incorporation after 20–24 hours. The stimulation of thymidine incorporation was maximal at an hEGF concentration of 2 ng/ml, was dependent on the presence of serum, and was enhanced by the addition of ascorbic acid. In confluent cultures of HF cells, subject to density dependent inhibition of growth, hEGF was able to stimulate DNA synthesis more effectively than fresh calf serum. Human EGF stimulated DNA synthesis in quiescent cultures, however, regardless of cell density. The addition of rabbit anti-hEGF inhibited all effects of this growth factor on HF cells.     

Supernatant derived from a human hepatocellular carcinoma cell line (PLC/PRF/5) activates a population of T-suppressor cells

Harvest fluid derived from a primary hepatocellular carcinoma cell line (PLC/PRF/5) inhibited the incorporation of 3H-thymidine into PHA-activated human lymphocytes. A similar effect was observed when lymphocytes were pre-incubated with the tumour supernatant and washed prior to mitogen activation. Not only did the tumour supernatant inhibit 3H-thymidine incorporation by mitogen-activated lymphocytes, but it also inhibited production of the lymphokine leucocyte inhibitory factor (LIF). In experiments designed to establish whether a component of the tumour harvest fluid was activating a population of suppressor cells, normal mononuclear (MN) cells were treated with the PLC/PRF/5 or embryonic fibroblast supernatant for 48 h, after which they were washed and added to normal mitogen-activated lymphocyte cultures. Only cells pretreated with the PLC/PRF/5 supernatant suppressed mitogenesis. The cell responsible for the suppressor effect was a T cell, which after a further 24 h in culture liberated a suppressor factor responsible for inhibiting lymphocyte function. Although the nature of the factor/s in the PLC/PRF/5 supernatant responsible for activation of the T-suppressor cell population is unknown, it is suggested that this mechanism may be important in protecting the tumour from the immune response.     

Pulmonary macrophages alter the collagen phenotype of lung fibroblasts

Cultured lung fibroblasts produced and secreted interstitial collagen types I and III. The relative proportion of type III collagen increased as a linear function of cell density, with confluent cultures producing 8.6% type III collagen. When human lung fibroblasts were cultured in the presence of newly harvested lung macrophages, the proportion of type III collagen secreted rose to 15.5%. This high level of type III collagen synthesis was greater than could be induced by withdrawal of serum, a perturbation known to alter the proportion of types I and III collagen synthesized by fibroblasts. This effect on fibroblast phenotype was independent of cell density, as both low and high density cultures of fibroblasts responded similarly when cultured with macrophages. There was no evidence that fibroblasts synthesize new or different collagen types (such as type I trimer) in response to macrophages. Optimal conditions for eliciting an effect on fibroblast connective tissue metabolism required interaction of the two cell types for 5–8 days. These in vitro changes are analogous to the sequence of interactions and changes in connective tissue metabolism seen during recovery from tissue injury.     

Hyaluronic acid stimulates human fibroblast proliferation within a collagen matrix

Human dermal fibroblasts suspended in a collagen matrix exhibit a 4-day delay in cell division, while the same cells in monolayer divided by day 1. The initial rates of ³H-thymidine incorporation by cells in monolayer or suspended in collagen were not significantly different. When suspended in collagen, there was a threefold increase in the proportion of cells in a tetraploidal (4N) DNA state compared to the same cells in monolayer. Flow cytometry analysis and ³H-thymidine incorporation studies identified the delay of cell division as a consequence of a block in the G2/M of the cell cycle and not an inhibition of DNA synthesis. The inclusion of 150 μ/ml of hyaluronic acid (HA) in the manufacture of fibroblast populated collagen lattices (FPCL) caused a stimulation of cell division, as determined by cell counting; increased the expression of tubulin, as determined by Western blot analysis; and reduced the proportion of cells in a 4N state, as determined by flow cytometry. HA added to the same cells growing in monolayer produced a minimal increase in the rate of cell division or DNA synthesis. HA supplementation of FPCLs stimulated cell division as well as tubulin concentrations, but it did not enhance lattice contraction. The introduction of tubulin isolated from pig brain or purchased tubulin into fibroblasts by electroporation prior to their transfer into collagen lattices promoted cell division in the first 24 hours and enhanced FPCL contraction. It is proposed that tubulin protein, the building blocks of microtubules, is limited in human fibroblasts residing within a collagen matrix. When human fibroblasts are suspended in collagen, one effect of added HA may be to stimulate the synthesis of tubulin which assists cells through the cell cycle. J. Cell. Physiol. 177:465–473, 1998. © 1998 Wiley-Liss, Inc.