Glial conditioned media inhibit the proliferation of cultured rat cerebellar astrocytes

Conditioned medium (CM) obtained from rat cerebellar astrocytes cultured in a serumcontaining medium was able to inhibit [³H]thymidine incorporation into proliferating astrocytes, when compared to fresh medium. This effect could be attributed to two fractions of the CM with different molecular weights. The low molecular weight fraction (M_r<1,000) inhibited the cellular transport of the labeled precursor, without significantly affecting cell proliferation. The high molecular weight fraction (M_r>10,000) showed a strong inhibitory effect on astrocyte proliferation, which was documented using different assay techniques: i) [³H]thymidine incorporation performed in conditions preventing the effects of CM on transport; ii) [³H]thymidine autoradiography; iii) determination of the DNA content of the cultures. The inhibitory activity was present in media conditioned by non proliferating astrocytes treated with the antimitotic cytosine arabinoside, but not in media conditioned by neuron-enriched cultures nor in a chemically defined (N2) CM. The antiproliferative activity of astrocyte CM could be due either to a rapid depletion of mitogenic factors present in serum, or, to a secretion of growth inhibitory factor(s) by cultured astrocytes.Special Issue Dedicated to Dr. Abel Lajtha.     

A correction: inhibitory activity in the conditioned medium of embryonic chick bones is due to thymidine

Earlier studies from this laboratory suggested that embryonic chick bones in organ culture released into the culture medium a specific inhibitor of bone cell proliferation as defined by inhibition of [3H]TdR incorporation into DNA. Dialysis and membrane ultrafiltration experiments suggested that the inhibitory substance (IS) had a molecular weight between 6000 and 14,000. However, subsequent studies on the purification of IS have revealed that the inhibitory activity in bone-conditioned medium is of lower molecular weight and has several properties in common with thymidine (TdR): (1) IS coeluted with [3H]TdR upon gel filtration chromatography on Sephadex G-10. (2) IS bound to charcoal but not to cation or anion exchange resins. (3) Bone-conditioned medium decreased incorporation of [3H]TdR into the free [3H]TdR pool of cells in monolayer culture. (4) Conditioned medium inhibited [3H]TdR incorporation into [3H]thymidine monophosphate in a reaction catalyzed by thymidine kinase. The equivalent concentration of TdR in conditioned medium as estimated by thymidine kinase assay was sufficient to account for the reduction in [3H]TdR incorporation into bone cell DNA. No evidence was found for a specific inhibitor of bone cell proliferation other than TdR. Hence we conclude that the inhibitory effect of IS is due to dilution of [3H]TdR by nonradioactive TdR. Furthermore, media conditioned by several tumor cell lines also contained a low-molecular-weight component which inhibited [3H]TdR incorporation. The results suggest that organ- and cell-conditioned media can contain significant concentrations of TdR which can artifactually inhibit [3H]TdR incorporation in cell proliferation assays.     

Growth factor-independent proliferation of normal human neonatal keratinocytes: production of autocrine- and paracrine-acting mitogenic factors

When normal human foreskin keratinocytes were cultured in the absence of polypeptide growth factors at densities above 5 x 10(3)/cells cm2, the cells proliferated continuously and the addition of IGF-I, EGF, TGF alpha, bFGF, or aFGF did not significantly alter growth rate. Heparin sulfate, TGF beta, or suramin inhibited keratinocyte growth factor-independent proliferation. The addition of EGF, TGF alpha, or aFGF reversed heparin-induced growth inhibition, while bFGF partially negated this effect. RIA of keratinocyte-derived conditioned medium (CM) indicated the presence of TGF alpha peptide at a concentration of approximately 235 pg/ml. In contrast, clonal growth of keratinocytes required the addition of growth factors to the basal medium. Keratinocyte-derived CM replaced EGF in stimulating keratinocyte clonal growth, and an anti-EGF receptor mAb inhibited CM-induced keratinocyte clonal growth. In addition to its effect on keratinocytes, keratinocyte-derived CM stimulated the incorporation of [3H]thymidine by quiescent cultures of human foreskin fibroblasts, mouse AKR-2B cells, and EGF-receptorless mouse NR6 cells. CM-stimulated [3H]thymidine incorporation into quiescent normal human fibroblasts was partially reduced in the presence of anti-EGF receptor mAb. Heparin sulfate partially inhibited CM-induced keratinocyte clonal growth and [3H]thymidine incorporation into quiescent AKR-2B cells. We hypothesize from these data that autocrine and paracrine-acting factors produced by keratinocytes mediated their effect through the activation of both EGF receptor-dependent and EGF receptor-independent mitogenic pathways and that some of these factors appear to be sensitive to inhibition by heparin.     

Regulation of cell proliferation inhibitory and stimulatory factors diffused by 3T3 cultured cells

The growth rate of normal cells multiplied in vitro decreases as the cell density of the culture increases. Previous results suggested that this density-dependent inhibition of growth in nontransformed cells was due to the diffusion of growth inhibitory substances in the medium of dense cultures. In this paper, we demonstrate that dense cultures of 3T3 cells secrete inhibitory and stimulatory factors. Macromolecules of conditioned medium were fractionated on Biogel P150 and the different fractions were tested on quiescent cultures of 3T3 cells stimulated or not to proliferate by addition of alpha globulin. When target cells were not stimulated to proliferate by addition of exocrine growth factors, we observed the inhibitory activity of a large molecular weight inhibitor (IDF45) and the stimulatory activity of autocrine growth factors (fraction about 35 and 10 K molecular weight), on the incorporation of 14C inosine into nucleotide pool and RNA. However, DNA synthesis was significantly stimulated with fraction 10 K only. This discrepancy between the stimulation of RNA and DNA synthesis may be explained by the presence, simultaneously, of inhibitory and stimulatory factors in fraction 35 and 10 K molecular weight. The presence of inhibitory factor was demonstrated when the fractions were tested on target cells stimulated to proliferate by alpha globulin addition and labeled with 14C thymidine. In these conditions, the stimulatory activity of autocrine growth factors was not observable, and only the inhibitory activity on DNA synthesis of fractions 35 and 10 K appeared. It is tempting to assume that the regulation of in vitro cell proliferation is determined by the balance between these antagonist stimulatory and inhibitory autocrine growth factors.     

Insulin-like growth factor-binding protein-1 inhibits binding of IGF-I on fetal skin fibroblasts but stimulates their DNA synthesis

Insulin-like growth factor-binding protein-1 (IGFBP-1) was purified from human midtrimester amniotic fluid using monoclonal anti-IGFBP-1 affinity column. Two peaks were obtained in anion exchange chromatography. Both had the same molecular mass of 30 kDa. In monolayer cultures of fetal skin fibroblasts both forms of IGFBP-1 inhibited binding of [125I]IGF-I onto the cells, but amplified the IGF-I-stimulated [3H]thymidine incorporation into the same cells. Radiolabeled IGFBP-1 did not bind to the cells. No detectable IGFBP-1 was released into conditioned medium from the cells, and they contained no specific IGFBP-1 mRNA. Recently we found that the same IGFBP-1 preparation inhibits IGF-I-stimulated [3H]thymidine incorporation into human hyperstimulated granulosa cells. These results show that, depending on target cells, the same protein is capable of either stimulating or inhibiting DNA synthesis.     

Potentiation of the T lymphocyte response to mitogens IV. Serum-free production and testing of macrophage soluble products.

Serum-free cultures of activated macrophages generate conditioned media containing both potentiating and inhibitory activities for the lectin-induced transformation of syngeneic thymocytes, lymph node cells, or spleen cells, also cultured in serum-free medium. Exhaustive dialysis of macrophage conditioned medium (MCM) eliminates its inhibitory activity. At mitogenic doses of lectin, the dialyzable material enhances the potentiating activity exerted by macro-molecular factors at low and optimal concentration of MCM. The inhibitory effect of intermediate concentrations of nondialyzed MCM on [³H]thymidine uptake can be reversed if the cells are washed and pulsed in fresh medium, and thus is artefactual. On the other hand, high doses have a real inhibitory effect on proliferative response of transformed lymphocytes. Rat MCM is not mitogenic for any of the target lymphocytes tested. Its effect is observed both in primary cultures of lymphocytes and secondary cultures of blast cells.     

Extracellular matrix alters the relationship between tritiated thymidine incorporation and proliferation of MC3T3-E1 cells during osteogenesis in vitro

Bone cells in vivo exist in direct contact with extracellular matrix, which regulates their basic biological processes including metabolism, development, growth and differentiation. Thus, the in vitro activity of cells cultured on tissue culture treated plastic could be different from the activity of cells cultured on their natural substrate. We selected MC3T3-E1 pre-osteoblastic cells to study the effect of extracellular matrix on cell proliferation because these cells undergo a progressive developmental sequence of proliferation and differentiation. MC3T3-E1 cells were cultured on plastic or plastic coated with ECM, fibronectin, collagen type I, BSA or poly l-lysine and their ability to proliferate was assessed by incorporation of [3H]dT or by enumeration of cells. Our results show that (1) ECM inhibits incorporation of [3H]dT by MC3T3-E1 cells; (2) collagen type I, but not BSA, poly l-lysine or fibronectin also inhibits incorporation of [3H]dT; (3) the level of ECM inhibition of [3H]dT incorporation is directly related to the number of cells cultured, but unrelated to the cell cycle distribution or endogenous thymidine content; (4) the kinetic profile of [3H]dT uptake suggest that ECM inhibits transport of [3H]dT from the extracellular medium, and (5) cell counts are similar in cultures whether cells are grown on plastic or ECM. These results suggest that decreased incorporation of [3H]dT by cells cultured on ECM is not reflective of bone cell proliferation.     

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.     

Keratinocyte-derived granulocyte/macrophage colony-stimulating factor induces DNA synthesis by peritoneal macrophages

Keratinocytes have been demonstrated to produce a number of cytokines, including growth factors such as the CSF IL-3. Circulating blood monocytes and some elicited macrophages retain a significant proliferative potential in response to colony-stimulating activity. Because a macrophage response is prominent in a variety of cutaneous immune reactions, we have studied the ability of conditioned media (CM) from a transformed murine keratinocyte cell line (PAM 212) and from normal murine keratinocytes to induce growth of peritoneal macrophages. CM from both normal and transformed keratinocyte cultures induces [3H]thymidine incorporation by thioglycollate-elicited, but not resident, peritoneal macrophages. IEF of PAM 212 CM reveals peaks of activity at pI 4.8 and less than or equal to 4.2. Analysis of CM by reversed-phase HPLC demonstrates active fractions that elute at 46 to 48% and 53 to 55% acetonitrile. The Mr of the 46 to 48% acetonitrile factor is 25 to 30 kDa by gel filtration HPLC. Polyclonal anti-granulocyte/macrophage (GM) CSF antibody blocks the induction of macrophage [3H]thymidine incorporation by factors with pI 4.8 and eluting at 46 to 48% acetonitrile but does not reduce the activity of crude CM or the factor eluting at 53 to 55% acetonitrile. Based on both physiochemical criteria and antibody neutralization, keratinocytes produce GM-CSF. Keratinocyte-derived factors, including GM-CSF, may play an important role in regulating cutaneous macrophage responses.     

The effect of culture density and proliferation rate on the expression of ouabain-sensitive Na/K ATPase pumps in cultured human retinal pigment epithelium

The number and activity of ouabain-sensitive Na/K ATPase pumps expressed by many cell types in vitro, including human retinal pigment epithelial cells (RPE), have been shown to decline with increasing culture density. Cell proliferation also declined as cultures became dense so it was unclear if pump number was modulated by cell proliferation or culture confluency. By exposing RPE cultures to various feeding regimens, using culture medium containing or lacking serum, it was possible to produce RPE cultures with a range of culture densities and growth rates. These were analyzed for proliferative activity by quantifying [3H]thymidine incorporation and for Na/K ATPase pump number by measuring specific [3H]ouabain binding. The results suggest that pump number is modulated by culture density and, further, that the density-dependent regulation of pump number requires serum. Although density-dependent modulation of culture growth is also serum requiring, cell proliferation and pump number did not appear to be related; cultures of similar density which differed significantly in growth rate had similar numbers of pumps. The view that elevated numbers of pumps were not necessarily found in proliferating cells was further supported by qualitative examination of radioautographs of cells dually labeled with [3H]thymidine and [3H]ouabain. Cycling cells which had [3H]thymidine-labeled nuclei did not have notably higher labeling with [3H]ouabain. However, [3H]ouabain labeling, as an indicator of pump site number and distribution, did vary among cells in an RPE population and also within individual cells. This latter observation suggests that unpolarized RPE cells in sparse cultures may have regionally different requirements for ionic regulation.     

Alterations of the incorporation of [3H]thymidine in cells in culture regulated by nucleoplasmic extract

Porcine skin nucleoplasmic extract (PSNE) was shown to alter the incorporation of [³H]thymidine into DNA of selected porcine, bovine, and human cell populations in culture. PSNE stimulated incorporation of [³H]thymidine into DNA of porcine and bovine dermal cells an average of 300 and 200% of control value, respectively. When porcine and bovine epidermal cells were exposed to PSNE the treatment inhibited [³H]thymidine incorporation into DNA by an average of 48 and 45%, respectively. Similar inhibitions were observed for porcine and bovine kidney, porcine lung, and human KB cells. Thus, the effect of PSNE on the incorporation of [³H]thymidine into DNA of various cultured cells was either stimulatory to dermal cells or inhibitory to a variety of other cell types, including skin epidermal cells. The stimulatory and inhibitory effects of PSNE were abolished by heating PSNE for 5 min in boiling water before its addition to cell cultures. This suggests that macromolecular structure is important in the action of PSNE. This project was supported by a grant from the Research Advisory Board, University of Nevada, Reno, NV.     

Limitations in the use of [3H]thymidine incorporation into DNA as an indicator of epidermal keratinocyte proliferation in vitro

The validity of using the incorporation of [3H]thymidine into DNA as an indicator of epidermal keratinocyte proliferation in vitro has been investigated. Other parameters of cell proliferation, direct count of cell number and measurement of DNA content, consistently fail to correlate with changes in [3H]thymidine incorporation into DNA in primary and first passage cultures of rabbit and human epidermal keratinocytes. Maximum incorporation of [3H]thymidine precedes the active growth period by three days. Incorporation declines markedly during the proliferative period. Thymidine kinase activity decreases during the proliferative growth phase. Incorporation of another pyrimidine nucleotide precursor, [14C]aspartic acid, suggests that in epidermal keratinocytes in vitro the extent of utilization of the salvage and the de novo pathways may be inversely related. In such cases [3H]thymidine incorporation into TCA precipitable material fails to reflect accurately cell proliferation.     

Insulin-like growth factor I (IGF-I) production and the presence of IGF-I receptors in rat medullary thyroid carcinoma cell line 6-23 (clone 6)

To clarify whether insulin-like growth factor I (IGF-I) is an autocrine growth factor of rat medullary thyroid carcinoma (MTC) cell line, 6-23 (clone 6), IGF-I binding to MTC cell membranes, IGF-I levels in the conditioned culture medium of MTC cells and the effects of IGF-I on methyl-[3H]thymidine incorporation to MTC cells were examined. Scatchard analysis of saturation binding studies revealed the association constant and the maximal binding capacity were 1.0 x 10(9) M-1 and 199 fmol/mg of membrane protein, respectively. The binding of [125I]IGF-I to MTC cell membranes was inhibited by unlabeled IGF-I, IGF-II and insulin; the relative potencies were IGF-I greater than IGF-II much greater than insulin, suggesting the presence of type I IGF receptors in MTC cells. IGF-I levels in the conditioned culture medium of MTC cells were 120 +/- 3 pM (mean + SE). IGF-I (10(-10) to 10(-8) M) dose-dependently stimulated methyl-[3H]thymidine incorporation to MTC cells. These findings suggest a possible role of IGF-I as an autocrine growth factor for MTC cells.     

Effect of mechanical stimulation on the production of soluble bone factors in cultured fetal mouse calvariae

Mechanical stimulation by intermittent compressive force (ICF) stimulates bone formation and inhibits bone resorption in cultured fetal mouse bone. Fetal bone tissue can produce autocrine factors that stimulate bone cell replication and matrix formation, and paracrine factors that increase the formation of osteoclast precursor-like cells from bone marrow. In the present study, we have tested whether ICF affects the production of such local factors in fetal mouse calvariae. Calvariae were cultured for 4 days in the presence and absence of ICF (130 mbar, 0.3 Hz). Conditioned medium was collected daily and pooled. We found that conditioned medium from ICF-exposed cultures stimulated [³H]-TdR incorporation into DNA, and [³H]-proline incorporation into collagenase digestible protein but not into non-collagen protein in fresh calvarial cultures. Treatment with conditioned medium from ICF-exposed cultures had earlier effects on [³H]-TdR and [³H]-proline incorporation than direct treatment with ICF. Conditioned medium from ICF-exposed cultures decreased the number of osteoclast precursor-like cells in bone marrow cultures stained for tartrate-resistant acid phosphatase. We conclude that ICF stimulates the release (activity) of an autocrine growth-factor from bone. In addition, ICF can stimulate the release (activity) of a paracrine factor, inhibiting the growth and/or differentiation of osteoclast precursor-like cells. These data suggest that mechanical forces may modulate skeletal (re)modeling by affecting the production of local growth factors.     

Stimulation of DNA synthesis,cell multiplication,and ornithine decarboxylase in 3T3 cells by multiplication stimulating activity (MSA)

Multiplication stimulating activity (MSA) has been purified from the conditioned media of rat liver cells in culture by a modification of the procedure of Dulak and Temin. Purified MSA stimulates [³H] thymidine incorporation into DNA in subconfluent, serum starved 3T3 cells. Cell cycle analysis by the flow microfluorometer shows that the [³H] thymidine incorporation data reflects DNA synthesis. MSA also stimulates the multiplication of serum starved subconfluent 3T3 cells. MSA is approximately 10-fold less active in 3T3 cells than in chick embryo fibroblasts in stimulating [³H] thymidine incorporation into DNA. MSA causes a 2–10-fold increase in ornithine decarboxylase (ODC) activity in 3T3 cells and the dose response curve parallels the dose response curve for [³H] thymidine incorporation into DNA. The Km of ODC for ornithine is 0.12 mM. There is a 30% decrease in the activity of ornithine transaminase (OTA) during the time period in which MSA causes an increase in ODC activity. Insulin also stimulates [³H] thymidine incorporation into DNA, cell multiplication and ODC activity over the same concentration range as shown for MSA, however, the extent of stimulation by insulin is less than that observed following MSA addition.     

Human endometrial carcinoma cells release factors which inhibit the growth of normal epithelial cells in culture

Autocrine and paracrine interactions between cells are important homeostatic mediators in normal tissues. Alterations to growth factor signalling pathways are likely to play a role in multistep carcinogenesis. In this study normal human endometrial epithelial cells (NHEC) after 3 days in culture were treated with serum-free medium conditioned for 24 h by log phase or confluent cultures of established RL95-2, HEC1A, or AN3CA endometrial carcinoma (EC) cell lines. By day 4, NHEC treated with either log phase or confluent conditioned medium (CM) showed a significant decrease (50–90% of control) in [³H]thymidine ([³H]TdR) incorporation. DNA synthesis was inhibited more by confluent than by log phase CM. By day 7, NHEC treated with CM exhibited fewer colonies per culture, fewer cells per colony, and an increased percentage of single cells. Several growth-regulatory gene products found in the nucleus or at the cell membrane have been shown to be expressed differently in normal and transformed cells. We selected the p53 and c-Ha-ras p21 proteins to further investigate the mechanism of alteration of proliferation in cells treated with carcinoma CM. Thus, by day 7, the percentage of NHEC with nuclear localization of wild type p53 (wt p53) was elevated by treatment with CM. In contrast, CM-treated EC cells continued to proliferate, and showed a decrease in the percentage of cells expressing nuclear wt p53 and an increase in the cytoplasmic expression of c-Ha-ras p21. Our studies show that EC cell lines release factors which inhibit the proliferation of NHEC, thus favoring the proliferation of EC cells.Abbreviations CM conditioned medium - EC endometrial adenocarcinoma - NHEC normal human endometrial epithelial cells     

Secretion of a TGF-beta-like growth inhibitor by normal rat mammary epithelial cells in vitro

We have examined conditioned medium (CM) from cultures of normal rat mammary epithelial (RME) cells for growth factor activity on fresh RME cell cultures. RME cell-derived CM contained potent growth inhibitory activity toward fresh RME cell cultures when the medium was acidified by dialysis against 1% acetic acid prior to concentration. Dialysis of the CM at neutral pH resulted in CM that had growth stimulatory activity and no inhibitory activity. The acid-activated growth inhibitor was heat and acid stable, protease sensitive, and eluted from a Bio-Gel p60 column with a peak of activity in the 28 kDa range. Incubation of the acidified-concentrated CM with neutralizing antiserum (affinity purified IgG) against transforming growth factor (TGF)-beta completely abolished the inhibitory activity of the CM. Furthermore, RME cell growth in the presence of the growth inhibitor plus TGF-beta antiserum was greater than that observed in growth medium alone. Subsequent experiments demonstrated that addition of TGF-beta antiserum alone to serum-free medium enhanced RME cell growth, whereas addition of nonimmune IgG was without effect even at 25-fold higher concentrations. Zymographic analysis of RME-CM revealed the presence of plasminogen activator proteases that may mediate the partial activation of the latent growth factor. These results indicate that normal RME cells secrete a latent TGF-beta-like growth factor into conditioned medium. Furthermore, the results indicate that some of the latent growth factor is activated in situ and contributes to the growth potential of the cells in primary culture in an autocrine manner.     

Heat shock modulates the ability of A-549 cell line from human lung adenocarcinoma to regulate the intensity of DNA and protein biosynthesis by an autocrine mechanism]

A-549 cells of human lung adenocarcinoma were subjected to heat shock (30 min, 44 degrees C) which caused substantial decreases in the rates of biosynthesis of the great bulk of cellular proteins with simultaneous increases in the synthesis rates of the 70 kDa protein predominantly localized in cell cytosol. By the 6th hour after the heat shock cessation this protein synthesis reached its maximum; by the 18th hour it was no longer detectable, while the protein itself was not denatured. During the recovery after the heat shock the ability of the serum-free culture medium conditioned by A-549 cells in autocrine regulation of [3H]thymidine incorporation into DNA and [3H]leucine incorporation into proteins changed also. The conditioned medium obtained within 1-3 hours after the heat shock did not influence the intensity of DNA synthesis, while the medium obtained 4-48 hours after the heat shock stimulated this process, the maximal effect (3.3-fold stimulation) being observed in the case of the 48-hour conditioned medium. Temporary (1 hour) acidification of the conditioned media down to pH 2.0 resulted in complete inhibition of the stimulating activity. Besides, these media acquired an ability to inhibit [3H]thymidine incorporation into the DNA of tracer cells. Study of effects of conditioned media on the rate of [3H]leucine incorporation into A-549 cell proteins revealed that the media obtained 1-4 hours after the heat shock inhibited this process, while the media obtained 6-18 hours thereafter stimulated it 1.2-2.1-fold. In the test systems under study temporary acidification of the media increased their stimulating influence on [3H]leucine incorporation into cellular proteins.     

Comparative evaluation of the antiproliferative effect of cyclosporin A and γ-interferon on normal and HPV-transformed keratinocytes by cell counting, MTT assay and tritiated thymidine incorporation

We compared three techniques, the MTT tetrazolium assay, cell counting, and tritiated thymidine ([3H]TdR) incorporation assay to measure the antiproliferative effect of cyclosporin A (CsA) and interferon-γ (IFN-γ) on normal human skin keratinocyte cultures (NHK) used at the second passage and human papillomavirus type 16- and 18-transformed cell lines (EK16 and EK18) exposed continuously to the drugs for 3 days. The three techniques showed that under CsA (0.5 and 8 μ/ml) and IFN-γ (5 and 160 U/ml) treatments the cells remained viable and that the growth of keratinocytes was inhibited. For IFN-γ, the MTT colorimetric assay consistently underestimated its growth inhibitory activity as compared to cell counting or [3H]TdR incorporation, whatever the cells used. For high doses of CsA, MTT and cell counting gave similar percentages of inhibitory activity whatever the cells; MTT underestimated this activity as compared to [3H]TdR incorporation only in NHK and EK18 cells, whereas similar results were obtained with EK16 cells. In conclusion, this investigation shows that MTT sensitivity differed with the drug and also according to the keratinocyte cultures. The MTT test is clearly not appropriate for study of IFN-γ treatment whatever the keratinocytes used. Such discrepancies indicate that the MTT test should be done with care on cultures to measure the effects of drugs on cell growth; the growth inhibition should be carefully considered and it would be best if two different methods were used.     

Androgens increase osteoblast-stimulating activity of human breast cancer cells in vitro

Bone metastases of breast cancers produce not only osteolytic but also osteosclerotic lesions. The latter are often observed after androgenic treatment of the tumor. Potential production of osteoblast stimulating activity (ObSA) in breast cancer cell lines, and possible androgen control of this activity have been investigated. Conditioned media (CM) collected from 4 breast cancer cell lines (MCF-7, ZR75, MDA-MB 231, BT20) was tested in vitro on ROS 17/2,8 osteoblast-like cells and on osteoblasts derived from human bone biopsies. The parameters monitored in osteoblasts were [3H]thymidine incorporation, alkaline phosphatase activity, and osteocalcin secretion. Serum-free media conditioned during 24 h by MCF-7 cells presented the highest ObSA. CM decreased thymidine incorporation in DNA and increased alkaline phosphatase activity in a dose-dependent manner. Bone GLA protein (osteocalcin) secretion by human osteoblasts was not increased however in the presence of CM. MCF-7 cells were cultured in the presence of dihydrotestosterone (DHT) [1-100 nM] for 5 days. Serum-free, DHT-free CM collected after an additional 24 h, contained alkaline-phosphatase stimulating activity which was DHT dose-dependent. Estradiol and 1,25(OH)2D3 failed to elicit a comparable increase of the ObSA in the CM. In conclusion, MCF-7 cells product factor(s) that interfere with bone remodeling. The DHT modulation of ObSA parallels the estradiol control of MCF-7 cells osteolytic lesions in relation with Prostaglandin E secretion. Sex hormones at physiological and pharmacological levels might thus control both osteosclerotic and osteolytic lesions observed in bone deposits of hormone dependent cancers.