Adrenocorticotropic hormone controls Concanavalin A activation of rat lymphocytes by modulating IL-2 production

The initiation of DNA synthesis and secretion of Interleukin 2 (IL-2) was measured in isolated rat splenic lymphocytes following activation with Concanavalin A (ConA). The extent of 3H-thymidine incorporation into activated cells was tested when cultured with various concentrations of Adrenocorticotropic hormone (ACTH). A paradoxical dose-response curve resulted when ACTH caused a biphasic response of augmenting and inhibiting 3H-thymidine uptake in lymphocytes depending on the hormone concentration. Low levels of ACTH (0.001-1-nM) augmented 3H-thymidine uptake and high levels (10-1000 nM) reversed the effect. The optimal ACTH concentration was 10 pM ACTH in the presence of 5 ug/ml ConA and there was no ACTH effect on quiescent cells (no ConA). Conditioned media from splenic lymphocytes treated with various concentrations of ConA or ACTH was tested for increased uptake of 3H-thymidine by the IL-2 growth dependent Cytotoxic T Lymphocyte Leukemia (CTLL-2) cells. ConA conditioned medium could sustain the CTLL-2 cells indicating the presence of IL-2. Conditioned medium from splenic lymphocytes treated with both ConA and 100 pM ACTH further increased CTLL-2 cell proliferation indicating an additional increase of IL-2 secretion. The identity of IL-2 was confirmed by using an anti-rat IL-2 antibody to neutralize the growth potential of the conditioned medium. ACTH alone had no effect on the CTLL-2 cell proliferation indicating the effect is due solely to induced IL-2 found in the conditioned medium. IL-2 levels in the conditioned media were quantitated by ELISA assay; splenic lymphocytes produced 4.2 ng/ml to ConA only, 19.2 ng/ml in ConA plus 10 nM ACTH, and no detectable IL-2 at ConA plus 10 uM ACTH. These results demonstrated that ACTH modulates IL-2 secretion from activated lymphocytes, which is both biphasic and concentration dependent.     

Lipoxygenase metabolism is required for interleukin-3 dependent proliferation and cell cycle progression of the human M-07e cell line

The cell line M-07e requires either Interleukin-3 (IL-3) or granulocyte-macrophage colony stimulating factor (GM-CSF) for proliferation in vitro. Cells deprived of growth factor for up to 48 hours remain viable but no longer divide. The growth-factor-deprived M-07e cells begin to divide within 48 hours of reexposure to IL-3. Flow cytometric analysis of M-07e cells labeled with hypotonic propidium iodide demonstrates that the percentage of cells undergoing DNA synthesis decreases from 24%, in a log phase population of IL-3 stimulated cells, to 1% when cells are deprived of IL-3 for 24 hours. IL-3-deprived cells accumulate predominantly in a flow cytometry peak representative of G₀/G₁. DNA synthetic activity, as determined by tritiated thymidine uptake and flow cytometry, resumes between 12 and 18 hours after reexposure to IL-3, reaching a peak of up to 40% by 24 hours and returning to log phase levels by 72 hours. Prior to initiation of DNA synthesis, increases are seen in mRNA levels for five-lipoxygenase-activating protein (FLAP). Following reexposure to IL-3, a rapid time-dependent biosynthesis of leukotriene D4 (LTD4) is induced by M-07e cells. When IL-3 is added in the presence of any of three lipoxygenase inhibitors tested (Piriprost, caffeic acid, nordihydroguiaretic acid) or FLAP inhibitor, MK-886, there is dose-dependent inhibition of the resumption of proliferation and of DNA synthesis. Flow cytometric cell cycle analysis demonstrates that the inhibited cells remain in the G₀/G₁ population and do not progress through the cell cycle. These results are consistent with our previous observation that an intact lipoxygenase pathway is necessary for hematopoietic growth-factor-stimulated colony formation of normal bone marrow myeloid progenitors and suggest that the induction of a lipoxygenase metabolite or metabolites is necessary for myeloid cells to progress through the cell cycle when stimulated by a hematopoietic growth factor. J. Cell. Physiol. 170:309–315, 1997. © 1997 Wiley-Liss, Inc.     

Detection and characterization of a B cell stimulatory factor (BSF-TC) derived from a bone marrow stromal cell line

Stromal cell lines derived from murine bone marrow support the growth of immature pre-B cells and produce cytokines that affect the growth and differentiation of other hematopoietic precursors. Conditioned medium (CM) from one such line (TC-1) stimulated marked proliferation of B cells previously activated by anti-Ig (anti-Ig blasts). Proliferation of anti-Ig blasts was not induced by purified cytokines known to be produced by TC-1 (CSF-1, GM-CSF, or G-CSF) or by IL-1, IL-2, IL-3, IL-4, IL-5, or IL-6. Furthermore, IL-2, IL-4, and IL-5, alone or in combination, failed to support proliferation or differentiation of anti-Ig blasts. TC-1 CM enhanced proliferation of B cells that were co-cultured with LPS, anti-Ig, or dextran sulfate; co-stimulation with anti-Ig was unaffected by the presence of monoclonal anti-IL-4. Proliferation of low, but not high, density B cells isolated from spleen was directly stimulated by TC-1 CM. These results suggest that bone marrow stromal cells produce a novel B cell stimulatory factor (BSF-TC) that induces proliferation of activated B cells.     

Reduced cell proliferation in fetal lung after maternal administration of pilocarpine: a scintillation autoradiographic study.

Fetuses were obtained on the 28th gestational day from pregnant New Zealand white rabbits treated daily, on the 24th through the 27th gestational day, with pilocarpine HCl, 5 mg/kg in saline, or saline alone. Lung fragments from these fetuses were incubated for two hours in medium containing 3H-thymidine. Scintillation autoradiography of 1-micrometer-thick sections of these fetal lungs revealed that the lung tissue from pilocarpine-treated fetuses had significantly lower labelled cell indices for both alveolar epithelial cells and interstitial cells. These results indicate that pilocarpine treatment promotes differentiation of immature cells in the fetal lung at the expense of cell proliferation.     

Transforming growth factors beta slow down cell-cycle progression in a murine interleukin-2 dependent T-cell line

Transforming growth factors beta (TGF-beta) inhibit the growth of a variety of cell types, including lymphocytes. The immunosuppressive effects of TGF-beta have been attributed to the interference of these molecules with the interleukin-2 (IL-2)-driven component of lymphocyte proliferation. In order to elucidate in more detail the effects of TGF-beta on IL-2-induced proliferation, we investigated the effects of porcine transforming growth factor beta 1 and 2 (pTGF-beta 1 and 2) on the IL-2-driven proliferation of a murine IL-2-dependent T-lymphocyte line (CTLL). The results showed that pTGF-beta 1 and 2 decreased 3H-thymidine incorporation in CTLL cells in a dose-dependent fashion (maximum decrease of 75-85%). Combined-time kinetic analysis of the effects of pTGF-beta on 3H-thymidine incorporation, cell growth, and cell-cycle distribution (monitored as DNA content distribution) revealed that, in the first 48 h of culture, pTGF-beta 1 increased the doubling time from 11.4 to 19.2 h without significantly affecting the cell-cycle distribution of CTLL cells. After 96 h of culture in the presence of pTGF-beta 1, cells started to accumulate in G0/G1, although at this time point 30% of the pTGF-beta 1-treated cells were still in S-G2/M. Furthermore, during the first 48 h, neither the expression of the 55 kd chain of the IL-2 receptor (IL-2R) nor the expression of the transferrin receptor (TfR) was affected by TGF-beta. After 72 h of culture in the presence of pTGF-beta 1, the expression of the IL-2R and TfR was decreased. The data suggest that in CTLL cells TGF-beta initially slows the progression of cells in all phases of cell cycle. In addition, the initial TGF-beta-mediated decrease of IL-2-induced 3H-thymidine incorporation and cell proliferation in CTLL cells is not due primarily to downregulation of the IL-2R and/or TfR.     

The role of selective cyclooxygenase isoforms in human intestinal smooth muscle cell stimulated prostanoid formation and proliferation.

Intestinal smooth muscle plays a major role in the repair of injured intestine and contributes to the prostanoid pool during intestinal inflammatory states. Cyclooxygenase (COX), which catalyzes the conversion of arachidonic acid to prostanoids exists in two isoforms, COX-1 and COX-2. The purpose of this study was to determine the relative contributions of COX-1 and COX-2 in the production of prostanoids by human intestinal smooth muscle (HISM) cells when stimulated by interleukin-1beta (IL-1beta) and lipopolysaccharide (LPS). Furthermore the effects of specific COX-1 and COX-2 inhibitors on the proliferation of smooth muscle cells was also evaluated. Confluent monolayer cultures of HISM cells were incubated with IL-1beta or LPS for 0-24h while control cells received medium alone. PGE2 and PGI2 as 6-keto-PGF1alpha and LTB4 were measured by a specific radioimmunoassay. COX enzymes were evaluated by Western immunoblotting. Unstimulated and stimulated cells were exposed to the specific COX-1 inhibitor valerylsalicylic acid (VSA) and the COX-2 inhibitors NS-398 and SC-58125. The effects of serum on proliferation were then evaluated in the presence of each of the specific COX inhibitors by incorporation of 3H-thymidine into DNA. IL-1beta and LPS increased both PGE2 and 6-keto-PGF1alpha in a dose dependent fashion with enhanced production detected two hours following exposure. Neither stimulus stimulated LTB4 release. Immunoblot analysis using isoform-specific antibodies showed that both COX-1 and COX-2 were present constitutively. Furthermore, COX-1 was upregulated by each inflammatory stimulus. In a separate set of experiments cells were pretreated with either the selective COX-1 inhibitor VSA or the selective COX-2 inhibitors NS-398 or SC-58125 prior to treatment with IL-1beta or LPS. The COX-1 and COX-2 inhibitors decreased both basal and IL-1beta and LPS stimulated prostanoid release. Spontaneous DNA synthesis was present and serum consistently increased proliferation. 3H-thymidine incorporation, stimulated by serum, was inhibited by both COX-1 and COX-2 inhibitors. This study suggests that the prostanoid response stimulated by proinflammatory agents of gut-derived smooth muscle cells appears to be mediated by both COX-1 and COX-2 enzymes. Proliferation of smooth muscles cells also appears to be influenced by both COX-1 and COX-2.     

Defined protein-free NS0 myeloma cell cultures: stimulation of proliferation by conditioned medium factors

A chemically defined, protein-free, and animal-component-free medium, designated RITM01, has been developed for NS0 myeloma cells. The basal medium used was a commercial serum-free and protein-free hybridoma medium, which was supplemented with phosphatidylcholine, cholesterol, beta-cyclodextrin, and ferric citrate. Increasing the amino acid concentration significantly improved cell growth. An NS0 cell line, constitutively producing a human IgG1 antibody, reached a peak cell density of 3 x 10(6) cells mL(-1) in this medium. The antibody yield was 195 mg L(-1) in batch culture, which is a 3-fold increase compared to that of a standard serum-supplemented medium, even though the cell yield was the same. The increase in antibody yield was a consequence of a longer growth phase and a slight increase in specific antibody production rate at low specific proliferation rates. Adaptation of the NS0 myeloma cell line to the protein-free conditions required about 3 weeks before viability and cell densities were stabilized. Most probably, changes in gene expression and phenotypic behavior necessary for cell survival and proliferation occurred. We hypothesize that mitogenic factors produced by the cells themselves are involved in autocrine control of proliferation. To investigate the presence of such factors, the effect of conditioned (spent) medium (CM) on cell growth and proliferation was studied. Ten-fold concentrated CM, harvested at a cell density of 2 x 10(6) cells mL(-1), had a clear positive effect on proliferation even if supplied at only 2.5% (v/v). CM was found to contain significant amounts of extracellular proteins other than the antibody. Fractionation of CM on a gel filtration column and subsequent supplementation of new NS0 cultures with the individual fractions showed that factors eluting at 20-25 kDa decreased the lag phase and increased the peak cell density as compared to control cultures. Identification of autocrine factors involved in regulation of proliferation may lead to completely new strategies for control of growth and product formation in animal cell processes.     

Resumption of cell cycle in BALB/c-3T3 fibroblasts arrested by polyamine depletion: relation with "competence" gene expression

Serum deprivation arrests BALB/c-3T3 fibroblasts (clone A31) in G0 phase, where resumption of the cell division cycle can be induced by addition of serum or of specific growth factors in a defined sequence: PDGF (inducer of a state of "competence," characterized by the expression of a family of genes including c-myc), epidermal growth factor EGF and IGF1 (Leof et al., 1982, 1983). When exponentially growing A31 cells are placed for greater than or equal to 2 days in a medium containing the alpha-difluoromethylornithine (alpha DFMO), an irreversible inhibitor of ornithine decarboxylase, they become arrested in G1 phase as a consequence of polyamine depletion (Medrano et al., 1983). In the alpha DFMO-arrested cells, addition of putrescine (60 microM) in a culture medium containing 6% fetal calf serum (FCS), but not in serum-free medium, is sufficient to induce G1 progression and entry into S phase (as determined by 3H-thymidine incorporation). The level of "competence" mRNAs is high in alpha DFMO-arrested cells. After addition of putrescine in FCS-containing medium, these mRNAs continue to be present for at least 3 h. A large proportion of alpha DFMO-arrested cells can be induced to progress to S phase by insulin (1 microM, acting via IGF1 receptor) plus putrescine in a serum-free medium (greater than or equal to 50% of FCS effect). In this case, the levels of "competence" mRNAs become low or undetectable within 3 h, EGF (10 nM) plus insulin had only slightly greater effect than insulin alone on the progression of alpha DFMO-arrested cells. When the alpha DFMO-arrested cells are subsequently incubated during 3 days in a low-serum-containing medium (0.25% FCS), they do not replenish their supply of polyamines, and then continue to express the c-myc gene. The recruitment of the polyamine-depleted, serum-deprived cells into the cell division cycle does not require PDGF and can be induced by addition of EGF and insulin plus putrescine. These data indicate that alpha DFMO arrests majority of the cells at a point situated beyond the PDGF- and EGF-dependent portion of G1 phase. During the subsequent serum deprivation, the alpha DFMO-arrested cells remain "competent" (PDGF-independent), probably as a consequence of their continued expression of c-myc (and possibly other PDGF-inducible genes).     

IGF-I and MAP kinase involvement in the stimulatory effects of LNCaP prostate cancer cell conditioned media on cell proliferation and protein synthesis in MC3T3-E1 osteoblastic cells

Bone metastases from prostate cancer cause abnormal new bone formation, however, the factors involved and the pathways leading to the response are incompletely defined. We investigated the mechanisms of osteoblast stimulatory effects of LNCaP prostate carcinoma cell conditioned media (CM). MC3T3-E1 osteoblastic cells were cultured with CM from confluent LNCaP cells. LNCaP CM stimulated MAP kinase, cell proliferation (3H-thymidine incorporation), and protein synthesis (14C-proline incorporation) in the MC3T3-E1 cells. The increases in cell proliferation and protein synthesis were prevented by inhibition of the MAP kinase pathway. IGF-I mimicked the effects of the CM on the MC3T3-E1 cells and inhibition of IGF-I action decreased the LNCaP CM stimulation of 3H-thymidine and 14C-proline incorporation and MAP kinase activity. The findings indicate that IGF-I is an important factor for the stimulatory effects of LNCaP cell CM on cell proliferation and protein synthesis in osteoblastic cells, and that MAP kinase is a component of the signaling pathway for these effects.     

CYTOKINES INVOLVING gp130 IN SIGNAL TRANSDUCTION SUPPRESSED GROWTH OF A MOUSE HYBRIDOMA CELL LINE AND ENHANCED ITS ANTIBODY PRODUCTION

Three cytokines, interleukin 6 (IL-6), leukaemia inhibitory factor (LIF), and oncostatin M (OSM), that bind to composite receptors including a common signal transducer gp130 suppressed proliferation of a mouse B-cell hybridoma cell line 2E3-O cultured in serum-free medium, while they enhanced antibody production of the cells. The specific growth rate of the cells reduced from 1.0/day for control to 0.6/day for the cultures supplemented with IL-6, LIF, or OSM at 1, 4, or 2 ng/ml, respectively. The antibody productivity increased five-fold when the cells were cultured with IL-6, LIF, or OSM at 1, 25, or 20 ng/ml, respectively. Transforming growth factor β1 (TGF-β1) similarly suppressed growth of the cells at the concentration of 5 ng/ml, while it did not enhance the antibody production. Cell cycle analysis revealed that IL-6 induced the cells to be arrested at G₁phase of the cell cycle more intensively than TGF-β1, indicating that IL-6 and TGF-β1 suppressed the growth through mutually different mechanisms. As a whole, this work suggests that gp130, which is commonly involved in each receptor for IL-6, LIF, OSM, transduces signals for suppressing proliferation and possibly for enhancing antibody production in the hybridoma cells.     

2-Mercaptoethanol acts at the restricted stage of interleukin-2 dependent lymphocyte proliferation

An interleukin-2 (IL-2) dependent murine cell line (TN-9) which could be grown continuously with the crude culture supernatant of concanavaline A-stimulated rat or mouse spleen cells could not synthesize DNA in the culture medium supplemented with partially purified or recombinant IL-2. The cell growth was restored by adding another factor obtained from the same crude culture supernatant. This factor, physicochemically inseparable from serum albumin, was also obtained from the culture medium added with 2-mercaptoethanol (2-ME) and incubated at 37 degrees C for 24 hr without the cells. By the experiments using semi-synchronized cell population, it was demonstrated that 2-ME or 2-ME carrying protein acted at the restricted process(es) of cell proliferation which occurred between IL-2-acting stage and the initiation of DNA synthesis.     

2-Mercaptoethanol acts as a potentiating factor of interleukin-2-dependent lymphocyte proliferation

An interleukin-2 (IL-2) dependent cell line which could be grown continuously with crude concanavalin A-stimulated rat or mouse spleen cell culture supernatant could not survive for over 48 hr in the culture medium supplemented with partially purified or recombinant IL-2. The cell growth was restored by adding another factor obtained from the same crude culture supernatant. This potentiating activity which was physicochemically inseparable from serum albumin was also obtained from the culture medium containing 2-mercaptoethanol (2-ME) and incubated at 37 C for 24 hr without the spleen cells. By further experiments, it was demonstrated that 2-ME itself had the potentiating activity on the IL-2-dependent proliferation of this cell line and cysteine mediated the activity of 2-ME. The cells could not enter S-phase in the absence of 2-ME even in the presence of IL-2.     

Morphological and functional differentiation in epithelial cultures obtained from human skin explants

The present study was undertaken to characterize primary epithelial cultures obtained from human skin explants as experimental systems for studies of the differentiation process. When human skin explants were incubated at 34-35 degrees C, fibroblastic growth was strongly inhibited, whereas the epithelial growth proceeded unchanged. The lateral growth of the epithelial cells could be divided into two phases - a migratory and a proliferative one. Only cultures incubated at 35 degrees C or below completed the morphological differentiation process before sloughing, whereas no qualitative difference in protein synthesis was observed between cultures incubated at temperatures from 33-37 degrees C. Cultured epidermal cells were labelled with 3H-thymidine and analysed by flow cytometry and cell sorting. Cells sorted from the S- and G2-phase populations were further analysed by autoradiography and a considerable heterogeneity as to the nuclear labelling was disclosed. A large fraction of S-phase cells were found to be totally unlabelled. The grain count distributions revealed similar cell cycle subpopulations as have been shown to occur in vivo. The relationship of these subpopulations to the differentiation process is discussed.     

In-vitro proliferation of germ cells and supporting cells in the neonatal mouse testis

Summary Testicular cells were prepared from neonatal (48 h after birth) mice by enzymatic dissociation and were cultured in serum-supplemented medium to investigate cell proliferation in vitro. The cultured cells were composed mostly of germ cells, identified by immunocytochemistry using a germ cell-specific antiserum, and supporting (immature Sertoli) cells. After 36 h in culture, the cells were pulse-labeled with ³H-thymidine and fixed at 2-h intervals for 36 h after labeling. Numbers of labeled and unlabeled metaphases of germ cells and supporting cells were counted, and percent labeled metaphases for both cell types were determined for cell-cycle analysis. The results indicate that germ cells, as well as supporting cells, incorporate ³H-thymidine and progress through the cell cycle in vitro. From the curve of the percent labeled metaphases for the supporting cells, the total cell cycle and intervals of DNA synthesis were estimated to be 27.2 h and 13.2 h, respectively.     

Effect of conditioned medium factors on productivity and cell physiology in Trichoplusia ni insect cell cultures

The influence of conditioned medium (CM) on cell physiology and recombinant protein production in Trichoplusia ni insect cells (T. ni, BTI-Tn-5B1-4) has been investigated. Cell cycle analysis showed that a high proportion of the cell population (80-90%) was in G1 during the whole culture, indicating that the S and G2/M phases are short relative to the G1 phase. Directly after inoculation, a rapid decrease of the S-phase population occurred, which could be observed as a lag-phase. The following increase in the number of cells in S occurred after 7 h of culture for cells in fresh medium, whereas for cells with the addition of CM it occurred at an earlier time point (5 h) and these cells had therefore a shorter lag-phase. The initial changes in the S-phase population were also affected by the inoculum cell density, as higher seeding cell densities resulted in a more rapid increase in the S-phase population after inoculation. These changes in cell cycle distribution were reflected in the cell size, and the CM-cells were smaller than the cells in fresh medium. Recombinant protein production in T. ni cells was improved by the addition of CM. The specific productivity was increased by 30% compared to cells in fresh medium. This beneficial effect was seen between 20 and 72 h of culture. In contrast, the highest specific productivity was obtained already at 7 h for the cells in fresh medium and then decreased rapidly. The total product concentration was around 30% higher in the culture with CM compared to the culture in fresh medium, and the maximum product concentration was obtained on day 2 compared to day 3 for the cells in fresh medium. Our results indicate that the positive effect on productivity by CM is related to its growth-promoting effect, suggesting that the proliferation potential of the culture determines the productivity.     

小鼠LAK细胞对粒—单系祖细胞增殖的影响

Murine lymphokine-activated killer (LAK) cells were generated from spleen cells of C57/BL6 mice by culture of spleen cells in vitro for 72 hours in medium containing 500 units/ml recombinant human interleukin 2 (IL-2), and effects of these LAK cells on proliferation of syngenic myeloid progenitor cells (CFU-GM) were observed. After 3 days culture, LAK cells were assayed for their cytotoxicity in a 4 hours 51Cr-release test. Either natural killer (NK) cell sensitive YAC-1 lymphoma cells or NK cell resistant LP-3 and WEHI-164 fibrosarcoma cells were efficiently lysed by murine LAK cells. When LAK cells were added into culture system in a final concentration of 5 x 10(4)/ml, 2 x 10(5)/ml, 8 x 10(5)/ml, CFU-GM were increased by 55.2%, 165.5%, and 194.4% of control respectively. LAK-CM also showed augmentative effect on CFU-GM growth. When 10% (v/v) of LAK-CM were added into culture system, CFU-GM were increased by 51.4% of control, but LAK-CM alone could not stimulate CFU-GM growth. Again, effects of LAK-BMC interaction on CFU-GM formation were investigated. CFU-GM were inhibited to 27.6% of control when 1 x 10(5) BMC were mixed with 8 x 10(5) LAK cells and incubated for 4 hours prior to CFU-GM culture. These data suggest that (1) LAK cells may secrete co-CSF which showed synergistic effect with CSF on CFU-GM proliferation: (2) When LAK cells contact with BMC, they showed significant cytotoxicity to myeloid progenitor cells which mediated decrease of CFU-GM formation.     

The effects of ouabain on the cell mitotic cycle of mouse lymphoblasts

The inhibition of cell proliferation by ouabain has been analyzed with respect to the cell cycle. Three lines of evidence indicate that growth rate is modified by altering to different degrees the rate of progress through stages of the cell cycle: (1) a three hour lag occurs between the time of ouabain addition and the inhibition of proliferation; (2) ouabain must be present at least two to four hours prior to the mitotic burst of synchronized cells for inhibition of mitosis to occur; (3) parasynchrony is observed when cells are resuspended in ouabain-free medium after 12 hours of exposure to ouabain. Analysis of the distribution of cells in each of the stages of the cell cycle at various times during ouabain treatment reveals a progressive increase in the fraction of cells in S with a concomitant decrease in the percent of cells in each of the other stages. These results indicate that the prolongation of the cell cycle time in the presence of ouabain is due primarily to an S stage block.     

Tumor-promoting phorbol esters stimulate the proliferation of interleukin-3 dependent cells

To determine whether activation of protein kinase C is involved in the proliferation of interleukin-3 (IL-3) -dependent cells, we examined the effect of tumor-promoting phorbol esters on the in vitro proliferation of the IL-3-dependent cell lines FD and DA-1. The viability of FD and DA-1 cells cultured for 24 hours in 100 nM phorbol myristate acetate (PMA) and 10% FCS was similar to that of cells cultured in 25% WEHI-3 conditioned medium as a source of IL-3, and 10% FCS. FD cells failed to proliferate in concentrations of FCS of up to 50%, while DA-1 cell proliferation was not markedly influenced by FCS. By contrast, PMA promoted the proliferation of FD and DA-1 cells in the absence of FCS and enhanced their proliferation in the presence of 10% FCS, 60- and 20-fold, respectively. Stimulation of proliferation was achieved with as little as 10 nM PMA and was maximal at 100 nM PMA. Low concentrations (0.05-0.1%) of WEHI-3 CM promoted the proliferative response of FD and DA-1 cells to PMA, but at concentrations of WEHI-3 CM greater than 0.8%, no further increment in proliferation was obtained with PMA. As little as 1/2 hour of exposure to phorbol esters was sufficient to cause translocation of protein kinase C from the cytosol to the membranes of DA-1 cells, and 1 hour of exposure to phorbol esters was sufficient to stimulate DNA synthesis. A protein kinase C inhibitor, H-7, at a concentration of 10 microM inhibited phorbol ester-induced stimulation of DA-1 cell proliferation. When DA-1 cells were exposed to the calcium ionophore A23187 in addition to both a phorbol ester and IL-3, their proliferation was enhanced over that stimulated by only the phorbol ester and IL-3. The data indicate that stimulation of proliferation of IL-3-dependent cells involves the activation of protein kinase C.     

Calcium ion-dependent proliferation of L1210 cells in culture

Maximum growth of L1210 cells in culture required the presence of free extracellular calcium ions. Reducing the free extracellular calcium ion concentration with EGTA served to decrease the growth rate of the cells. The decrease in cell growth was not due to cell death but rather due to the "pile-up" of the L1210 cells in the GO/Gl phase of the cell cycle. With the readdition of excess calcium ions, there was a lag period of 3 to 6 hours before the L1210 cells initiated DNA synthesis or transited from the G0/G1 phase to S-phase. Cells enriched for S and G2/M phase by elutriation and which were incubated in EGTA-containing culture medium, continued through the cell cycle and were blocked in GO/Gl. These data indicate that the proliferation of L1210 cells in culture requires a calcium ion-dependent process to allow movement from the G0/G1 to S-phase of the cell cycle.     

Repair in the nuclear matrix of DNA damaged by benz(a)pyrene

The confluent culture of hamster embryo cells was incubated with benzo(a)pyrene for 24 hours. Then the medium was replaced by maximal lacking both the serum and benzo(a)pyrene. The process of DNA repair was observed in four nuclear fractions according to two indexes: the disappearance of metabolites of benzo(a)pyrene covalently bound to DNA and the incorporation of 3H-thymidine to DNA in the period from I min to 72 hours. Hydroxyurea at the concentration of 5 mM was added 2-19 hours before 3H-thymidine. The highest concentration of benzo(a)pyrene metabolites was found in the DNA of nuclear matrix fraction throughout all the experiment. The initial concentration of 3H-thymidine right after its addition into the cell culture medium was the highest in DNA of nuclear matrix fraction and the lowest in DNA fraction soluble in the buffer with low ionic strength. Later on, the concentration of 3H-thymidine was decreased in matrix-bound fractions and increased in other fractions up to the total DNA level. The results suggest that the repair process requires joining of benzo(a)pyrene damaged DNA region to the nuclear matrix with the following reverse transition into the fraction where the fragment was initially located.