The roles of cAMP and cAMP-dependent protein kinase in the regulation of adrenocortical functions: analysis using DNA-mediated gene transfer

DNA-mediated gene transfer was used to evaluate the cause and effect relationship between mutations in cAMP-dependent protein kinase activity and cellular resistance of adrenocortical tumor cells to ACTH and cAMP. Protein kinase defective, Kin 8 adrenocortical tumor cells were transformed with genomic DNA from an ACTH- and cAMP-responsive adrenocortical cell line and screened for the recovery of morphological responses to the cAMP analog 8-bromo-cAMP (8BrcAMP). 8BrcAMP-responsive transformants were recovered with a frequency of approximately 0.5 per 10(3) transformation-competent cells. These transformants recovered the ability to round up in the presence of ACTH and were able to respond to both ACTH and 8BrcAMP with increased steroidogenesis. They also recovered cAMP-dependent protein kinase activity. The transformants, however, were unstable and concomitantly lost cAMP-dependent protein kinase activity and steroidogenic and morphological responses to ACTH and 8BrcAMP. These observations suggest that a single gene, probably the gene encoding the regulatory subunit of cAMP-dependent protein kinase, is responsible for the resistance of the Kin 8 mutant to ACTH and cAMP.     

Hormone-induced intercellular signal transfer dissociates cyclic AMP- dependent protein kinase

We used co-cultures of porcine ovarian granulosa cells and mouse adrenocortical tumor cells (Y-1) to examine the kinetics of contact-dependent intercellular signal transfer and to assess the molecular mechanisms employed by this process. Exposure to follicle-stimulating hormone (FSH) caused cAMP-dependent protein kinase dissociation in granulosa cells and, with time, in Y-1 cells if, and only if, they contacted a responding granulosa cell. Y-1 cells close to a granulosa cell but not touching it failed to respond similarly. In reciprocal experiments, co-cultures were stimulated with adrenocorticotropic hormone (ACTH). Y-1 cells dissociated protein kinase as did granulosa cells in contact with Y-1 cells; however, granulosa cells that were not in contact with Y-1 cells failed to respond to the hormone. Fluorogenic steroids were secreted by Y-1 cells cultured alone and stimulated with ACTH, but were not secreted by cultures exposed to FSH. Neither hormone caused fluorogenic steroid production by granulosa cells. On the other hand these steroids were secreted in co-cultures stimulated with ACTH and to a lesser degree in co-cultures exposed to FSH. Autoradiography revealed that I125-FSH bound only to granulosa cells, never to Y-1 cells, even if they were in contact with an ovarian cell. The possibility of cell fusion was tested by experiments in which Y-1 cell membranes were labeled with cationized ferritin. These cells were then placed in co-culture with ovarian granulosa cells that had previously been allowed to ingest latex spheres. At regions of gap junctions between Y-1 and granulosa cells ferritin remained attached to the adrenal cell membrane and was never observed to migrate to the granulosa cell membrane. From these data, we conclude that hormone specific stimulation of one cell type leads to protein kinase dissociation in heterotypic partners only if they contact a hormone responsive cell. This signal transfer is bidirectional, exhibits temporal kinetics and occurs in the absence of apparent cell fusion. The only structural feature connecting Y-1 and granulosa cells were gap junctions implying they provided the communication channels; however, alternative mechanisms cannot be excluded. We have not established the identity of the signal being transferred although cAMP is a logical candidate.     

Phorbol ester prevents the thyroid-stimulating-hormone-induced but not the forskolin-induced decrease of cAMP-dependent protein kinase activity in thyroid cell cultures

The potent tumor promoter 12-O-tetradecanoyl-phorbol 13-acetate (TPA) affects several thyroid cell functions and interacts with thyroid-stimulating hormone (TSH) either by inhibiting or potentiating its action on different cellular parameters. Since phorbol ester acts mainly through the activation of protein kinase C, which is its receptor, we studied this activation and its interaction with TSH and forskolin in suspension cultures of porcine thyroid cells. In thyroid cell cultures, TPA has a dual effect on protein kinase C activity: immediately (2-5 min) after exposure of cells to TPA, it began to be translocated from the cytosol to the particulate fraction. The transfer of the cytosolic enzyme was total and could occur with or without a loss of activity. The translocated enzyme still needed Ca2+ and phospholipids for its activation. The basal activity increased transiently (2-4 h) in both the cytosol and particulate fractions during translocation. The peak activity in the particulate fraction was reached 10-30 min after exposure of cells to TPA, and was followed by down-regulation of protein kinase C and almost complete disappearance of its activity. The residual activity was about 13% of control after a 2-day exposure to TPA. It was unequally distributed between cytosol (4%) and particulate fraction (9%). Prolonged exposure of cells to TPA did not affect either the activity or the subcellular distribution of the cAMP-dependent protein kinase activity. TPA interacted with TSH and prevented the decrease of this activity induced by prolonged exposure of cells to the hormone not only when it was introduced simultaneously with TSH, but also when it was added 24 h after TSH. However, the forskolin-induced decrease in cAMP-dependent protein kinase activity was not prevented by the presence of TPA. TPA also affected the increases in cAMP accumulation mediated by TSH and forskolin. The TSH-induced increase was significantly stimulated by TPA after short contacts (5-15 min), while longer preincubations of cells with TPA provoked a very strong inhibition of the TSH action. However, the forskolin-induced stimulation of the cAMP accumulation was maintained and even further increased in the presence of TPA. Consequently, the actions of TSH and TPA are apparently interdependent, while those of forskolin and TPA seem to be parallel and independent. Neither TSH nor forskolin prevented the TPA-induced down regulation of protein kinase C. The biologically inactive phorbol ester analogue 4 alpha-phorbol 12,13-didecanoate had no effect on protein kinase C activity, and did not interact with either TSH or forskolin.(ABSTRACT TRUNCATED AT 400 WORDS)     

The effects of taxol, a microtubule-stabilizing drug, on steroidogenic cells

The effects of taxol on steroid production and microtubule polymerization were examined using Y-1 adrenocortical tumor cells, MLTC-1 Leydig tumor cells, and primary cultures of bovine adrenocortical cells. Taxol inhibited the following steroidogenic processes within the Y-1 and MLTC-1 cells: (1) hormonal increase of steroid production, (2) dibutyryl cyclic AMP-increased steroid production, and (3) hormone-stimulated pregnenolone production. The inhibitory action of taxol was concentration dependent and also resulted in an increase in cytoplasmic microtubules. In addition, the inhibitory action of taxol on hormone-stimulated steroid production was reversible. Taxol appeared to inhibit cholesterol movement to the mitochondrial site of cholesterol side-chain cleavage enzyme but did not affect overall protein synthesis. Interestingly, taxol did not affect hormone-stimulated steroid production in bovine adrenocortical cells. This lack of inhibition may correspond to the ultrastructural observation that microtubule bundling after taxol treatment was observed in the tumor cells but not in similarly treated bovine adrenal cells. With this conflicting information between cell types, a direct relationship between taxol treatment and inhibition of steroid production has not been established. However, these results suggest that taxol alters the rate of transport of cholesterol to the cholesterol side-chain cleavage enzyme within the steroidogenic tumor cells.     

Post-transcriptional regulation of cAMP-dependent protein kinase activity by cAMP in GH3 pituitary tumor cells. Evidence for increased degradation of catalytic subunit in the presence of cAMP

The effects of cyclic AMP treatment on total cAMP-dependent protein kinase activity in GH3 pituitary tumor cells have been studied. Incubation of cells for 24 h with 1 microM forskolin resulted in a 50% decrease in total cAMP-dependent protein kinase activity which was reversible upon removal of forskolin from culture media. A similar response was observed in GH3 cells treated with 5 ng/ml cholera toxin and 0.5 mM dibutyryl cAMP but not 0.5 mM dibutyryl cGMP. Northern blot analysis demonstrated that the steady-state level of the mRNA for each of the six kinase subunit isoforms studied was not detectably altered after treatment with 1 microM forskolin for 24 h. The concentration of catalytic subunit was also assessed by binding studies using a radiolabeled heat-stable protein kinase inhibitor. Treatment of GH3 cells with 1 microM forskolin for 24 h reduced protein kinase inhibitor binding activity by 50%, consistent with the observed forskolin-induced decrease in total kinase activity. Analysis of endogenous heat-stable protein kinase inhibitor activity in GH3 cell extracts showed no significant difference between forskolin-treated cells and cells maintained under control conditions. To assess possible effects on catalytic subunit degradation, pulse-chase experiments were performed and radiolabeled catalytic subunit was isolated by affinity chromatography. The results demonstrated that treatment of cells with chlorophenylthio-cAMP detectably increased the apparent degradation of radiolabeled catalytic subunit. The increased degradation of the catalytic subunit was sufficient to account for the observed decreases in kinase activity. These results suggest that relatively long term cAMP treatment can alter total cAMP-dependent protein kinase activity through effects to alter the degradation of the catalytic subunit of the enzyme.     

Down-regulation of proteolytic activity in 12-O-tetradecanoyl-phorbol-13-acetate-induced K562 leukemia cell cultures: depletion of active urokinase by excess type 1 plasminogen activator inhibitor

The human chronic myeloid leukemia cell line K562 acquires several megakaryoblastoid features when cultured in the presence of the tumor promoter 12-O-tetradecanoyl-phorbol-13-acetate (TPA). We observed strongly increased secretion of several proteins into the culture media of K562 cells within a few hours of TPA treatment. Two of the major secreted polypeptides were identified by immunoprecipitation from media of metabolically labeled cultures as the tissue inhibitor of metalloproteinases (TIMP) and the type 1 plasminogen activator inhibitor (PAI-1). Maximal amounts of PAI-1 mRNA and secretion of PAI-1 polypeptides were observed after 24 hr of TPA treatment and PAI-1 persisted at elevated levels for several days. The induction of PAI-1 mRNA was dependent on de novo protein synthesis. Uninduced and induced cells secreted urokinase plasminogen activator in its single-chain proenzyme form (pro-u-PA), which was cleaved extracellularly to the active two-chain form as shown by pulse-chase labeling experiments. Upon TPA induction, the secretion of u-PA polypeptides increased severalfold, and there was a transient accumulation of pro-u-PA in the culture medium. However, this did not lead to increased u-PA activity in the cultures, since active u-PA was removed by complex formation with the large excess of coinduced PAI-1. Induction of u-PA mRNA was biphasic: The first peak of about tenfold increase in steady-state u-PA mRNA at 3 hr was followed by a steep decline to the baseline level at 12 hr, and a second, slower accumulation of u-PA mRNA occurred over the next few days. The biphasic accumulation of u-PA mRNA was also reflected in u-PA protein synthesis. We conclude that concerted changes in favor of a nonproteolytic extracellular environment occur in TPA-induced K562 cultures undergoing megakaryoblastoid differentiation. These changes include excessive secretion of TIMP and inhibition of the induced u-PA by the simultaneous accumulation of PAI-1.     

Bryostatins: potent, new mitogens that mimic phorbol ester tumor promoters

Bryostatins (2 ng/ml), when combined with insulin in serum-free culture medium, are strongly mitogenic for Swiss 3T3 cells that have been arrested in the G1/G0 phase of the cell cycle. The mitogenic effect of the bryostatins is similar to that of 12-O-decanoylphorbol-13-acetate (TPA). A prior treatment of the cultures with TPA eliminated the mitogenic response to bryostatin and to a second addition of TPA. Conversely, a prior treatment of the cultures with bryostatin eliminated the mitogenic response to TPA. Bryostatin potently inhibited the binding of [3H]phorbol dibutyrate to a high affinity receptor in the cells. The findings suggest that the bryostatins and TPA act via the same receptor, possibly protein kinase C.     

黄芫花提取物对V79细胞和WB肝细胞的生物...：1....

A Chinese herb, wikstroemia Chamaedaphen (WC) extract, recently has been shown to be a potential tumor promoting agent on uterine cervical carcinoma induced by HSV-2 or MCA in mice. To determine whether the tumor promoting effects of WC extract were mediated through inhibition of gap junctional intercellular communication (GJIC) with relation to cellular growth, experiments were conducted on Chinese hamster V79 cells and rat WB liver cells by utilization of SLDT method for GJIC detection and cell growth curve examination, 3H-TdR incorporation, mitotic index (MI) and Flow Cytometry (FCM) methods. TPA was used for comparative purpose. WC extract inhibited GJIC and stimulated cell growth in a dose (2-200 micrograms/ml) and time (0-72 hr)-dependent manner in both cell lines. Both WC extract and TPA treatments increased V79 cell growth rate. The average cell doubling-time was decreased from 36.5 hr in control V79 cells to 28.2 hr in WC extract (10 micrograms/ml) and 20.9 hr in TPA (50 ng/ml) treatment by the 3rd day. Stimulating effect of both drugs on DNA synthesis of V79 cells was demonstrated. The results of FCM and MI indicated that the cell number of M-phase cells was increased after drug treatment. It is suggested that (1) tumor promoting effect of WC extract might be mediated through inhibition of GJIC: (2) inhibition of GJIC is closely correlated with increased cell growth rate and entry of cell division cycle.     

Control of parathyroid hormone-degrading activity in the opossum kidney cell: possible involvement of protein kinase C

To clarify the possible role of protein kinase C in the control of parathyroid hormone (PTH)-degrading activity (PTHDA) in a PTH-responsive opossum kidney (OK) cell line, we investigated the effects of protein kinase C activators, 12-O-tetradecanoyl phorbol 13-acetate (TPA), 1-oleoyl-2-acetyl-glycerol (OAG), and 4 beta-phorbol 12, 13-didecanoate (4 beta-PDD). TPA, OAG, and 4 beta-PDD enhanced PTHDA in a dose-dependent fashion (10-50 ng/ml, 10-100 microgram/ml, and 10-50 nM, respectively), whereas 4 alpha-PDD, a non-activator of protein kinase C, did not affect it. HPLC analysis of TPA-treated samples revealed increase of all immunoreactive PTH fragments produced by OK cells. These findings suggested that activation of protein kinase C in OK cells would augment PTHDA in the cells.     

Isolation and characterization of cyclic AMP-resistant variants from a functional adrenal cortical cell line.

We have isolated a number of cyclic AMP-resistant cell lines and characterized two of them, 3B4 and 10F2s, from a functional adrenal cortical cell line, Y-1. At seeding densities above $\text{100}\text{cells}\text{10}\text{cm}$ diameter plates, the variant cells are resistant in their morphological change, plating efficiency and growth to the normal effects of dibutyryl cyclic AMP (db-cAMP). At lower seeding densities, 3B4 and 10F2 have retained a slight sensitivity to db-cAMP in their plating efficiency and in their morphology. Studies with various nucleotides and cAMP analogues show that the inhibitory effects of db-cAMP on the growth and morphology of Y-1 cells are not due to degradation products of db-cAMP. There is loss of response to ACTH in the variant cell lines such that there are no effects of ACTH on plating efficiency, growth, morphology, steroidogenesis and cAMP excretion. In addition, the variant cell lines show lowered activities of the cAMP binding receptor and cAMP-dependent protein kinase. Preliminary studies indicate that in Y-1, cAMP markedly reduces protein phosphorylation, and it inhibits phosphate uptake. In the variants, the protein phosphorylation and phosphate uptake are maintained even in the presence of db-cAMP. The maintenance of phosphorylation in the presence of db-cAMP may play an important role in the ability of the cells to survive in high concentrations of db-cAMP. The variant cell lines can be stimulated by db-cAMP to increase steroidogenesis, although the stimulated levels of steroidogenesis in 3B4 and 10F2 are less than those in Y-1. The variant phenotype is stable in vitro and in vivo.     

Altered catalytic properties of protein kinase C in phorbol ester treated cells

Exposure of various cell types (rat-1 fibroblasts, bovine adrenocortical cells, human lymphoid cells) to nanomolar concentrations of TPA, resulted in a rapid, apparent loss of cellular protein kinase C content, when the enzyme was assayed by its phospholipid and Ca2+-dependent histone (H1)-kinase activity, following solubilization and DEAE-cellulose chromatography isolation. By contrast, no loss of protein kinase C was detected when the enzyme was probed by its high affinity PDBu binding capacity nor when the kinase activity was assayed with protein substrates other than histones, such as vinculin and a cytochrome P-450. It is concluded that, in addition to the previously reported enzyme subcellular redistribution, following TPA treatment, the phorbol ester induces striking alterations of the cellular protein kinase C catalytic activities. The molecular mechanisms of these changes and their implication in the tumor promotion process remain to be clarified.     

Cultured human vascular endothelial cells acquire adhesiveness for neutrophils after stimulation with interleukin 1, endotoxin, and tumor-promoting phorbol diesters

Cultured human vascular endothelial cells obtained from umbilical cord veins were observed to acquire adhesive properties for purified neutrophils after exposure to IL 1, endotoxin, and tumor-promoting phorbol diesters. Adhesiveness induced by IL1 and endotoxin had similar kinetics of onset, producing no change after 30 min incubation and reaching optimal change by 4 hr of incubation. The phorbol diester TPA induced changes in adhesiveness more rapidly, with half maximal increase induced by a 15- to 30-min exposure. TPA, but not IL 1 or LPS, induced significant morphologic changes in the endothelial cell monolayer. None of the stimuli decreased endothelial cell viability. All stimuli induced increased adhesiveness at relevant concentrations, i.e., endotoxin, 0.01 to 1 microgram/ml; IL 1, 0.5 to 2 U/ml; and TPA, 1 to 30 ng/ml. Structure activity relationships among phorbol diesters indicate that the response occurs through a typical phorbol diester "receptor." A protein synthesis inhibitor (cycloheximide) and an RNA synthesis inhibitor (actinomycin D) prevented the acquisition of adhesiveness stimulated by IL 1 and endotoxin but not by TPA. In addition, TPA showed a differential temperature sensitivity in inducing adhesiveness in endothelial cells. IL 1 and endotoxin did not produce the effect with a 4-hr incubation at 22 degrees or 4 degrees C, whereas TPA was effective at these lower temperatures. Purified human IL 2 and recombinant-derived interferon-gamma failed to induce adhesiveness in vascular endothelial cells, indicating that this is not a general property of lymphokines. We conclude that endothelium may, under some circumstances, play an active role in producing a leukocyte infiltrate at a local tissue site by acquiring adhesive properties. The production of IL 1 by tissue macrophages, etc., may serve as an important initiator of an inflammatory cell infiltrate. Finally, an action of tumor-promoting phorbol diesters in increasing endothelial cell adhesiveness, combined with their known effects in activating leukocytes, may help explain the extraordinary inflammatory potency of these compounds.     

Cyclic AMP-dependent and -independent regulation of cholesterol side chain cleavage cytochrome P-450 (P-450scc) in rat ovarian granulosa cells and corpora lutea. cDNA and deduced amino acid sequence of rat P-450scc

We report the isolating and sequencing of three cDNA clones encoding rat P-450scc, the nucleotide and protein sequences of which are highly homologous to those of bovine and human P-450scc, especially in the putative heme and steroid binding domains. We document that different molecular mechanisms regulate P-450scc in granulosa cells of preovulatory (PO) follicles prior to and after luteinization. Luteinizing hormone/human chorionic gonadotropin (LH/hCG) and cAMP are obligatory to induce P-450scc mRNA in PO granulosa cells in vivo and in vitro. Once P-450scc mRNA is induced as a consequence of the LH/hCG surge it is constitutively maintained by luteinized cells in vivo (0-4 days) and in vitro (0-9 days) in the absence of gonadotropins, is susceptible to modulation by prolactin and is no longer regulated by cAMP. Exposure to elevated concentrations of hCG in vivo for 5-7 h was required for PO granulosa cells to undergo a functional transition establishing the stable luteal cell phenotype. Transient exposure of PO + hCG (7 h) follicles in vitro to the RNA synthesis inhibitor actinomycin D (1 microgram/ml) or the protein synthesis inhibitor cycloheximide (10 micrograms/ml), for 1-5 h prior to culturing the granulosa cells failed to disrupt the induction of P-450scc mRNA, progesterone biosynthesis, and appearance of the luteal cell morphology. Inhibitors of protein kinase A (Rp-cAMPS; 1-500 microM and N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide dihydrochloride (H8); 1-200 microM) added directly to the luteinized cell cultures also failed to alter P-450scc mRNA in these cells, although the cells contain in vivo amounts of mRNA for RII beta, RI alpha, and C alpha, the primary subunits of protein kinase A found in the rat ovary. These data suggest that expression of the P-450scc gene in rat ovarian follicular cells is regulated in a sequential manner by cAMP-dependent and cAMP-independent mechanisms associated with granulosa cells and luteal cells, respectively.     

In vitro responses of luteinizing rat granulosa cells to human thyroid-stimulating hormone

The effect of human thyroid-stimulating hormone (hTSH) on progesterone (P4) secretion during initial luteinization and subsequent prolactin (Prl)-mediated steroidogenesis by cultured rat granulosa cells was studied. Granulosa cells, obtained from pregnant mare's serum gonadotropin (PMSG)-treated immature female rats, were preincubated for 1, 3, 6, 12, or 24 h in control medium lacking added hormones or in medium containing 1.0 microgram/ml human chorionic gonadotropin (hCG) or hTSH, and maintained subsequently for 6 days in medium containing 1.0 microgram/ml bovine (bPrl). Indices of luteotropic stimulation were provided by: 1) elevated P4 concentrations determined by radioimmunoassay of spent media samples; and 2) cytoplasmic lipid accumulation assessed by osmium tetroxide staining following fixation after 7 days of culture. Progesterone levels in media from cultures exposed to hCG for 24 h were twofold higher than control cultures, whereas those in media from cultures preincubated in hTSH for 24 h were fourfold higher than control levels. Cultures preincubated in 1.0 microgram/ml hCG for as little as 1 h and then maintained for 6 days in Prl secreted significantly more P4 than did control cultures also maintained with Prl for 6 days. Cultures preincubated in hTSH required a 24-h exposure before a significant increase in Prl-mediated P4 secretion was observed. Intensity of cytoplasmic osmiophilia correlated directly with P4 concentration. These results suggest that: 1) hTSH has the ability to promote P4 secretion during initial luteinization and to regulate subsequent Prl-mediated steroidogenesis by cultured rat granulosa cells; and 2) the mechanism by which hTSH stimulates Prl-mediated P4 secretion in this model system may differ from that of hCG.     

Epidermal growth factor and phorbol ester actions on the TSH induced down regulation of the isoenzyme I (PKA I) of cyclic AMP-dependent protein kinases in dog thyroid cell primary cultures

In dog thyroid cell primary cultures the prolonged presence (up to 4-6 days) of TSH induced down regulation of the isoenzyme I (PKA I) of cAMP-dependent protein kinases. In the simultaneous presence of TSH and EGF this down regulation of PKA I was maintained, although it was slightly smaller than in assays without EGF. In contrast, the simultaneous presence of TPA, totally inhibited the TSH induced down regulation of PKA I. These results partly explain the previously observed additivity of TSH and EGF, and the non-additivity of TSH and TPA actions on cell proliferation in these cells.     

Stimulation of DNA synthesis by transient exposure of cell cultures to TPA or polypeptide mitogens: Induction of competence or incomplete removal?

A transient exposure of cell cultures to 12-0-tetradecanoyl-phorbol-13-acetate (TPA) is sufficient to stimulate DNA synthesis during a subsequent incubation in TPA-free medium. We show that (1) a substantial fraction of TPA remains bound to cultures following a transient exposure to TPA and thorough washing, (2) the ability of TPA to induce DNA synthesis is a function of the amount of TPA bound to cell cultures irrespective of whether it is incubated continuously with cultures or transiently exposed to cultures under various conditions, and that (3) a transient exposure of cultures to phorbol-12-13-dibuytrate (PDB), a mitogenic phorbol ester which binds reversibly to cell cultures, does not stimulate DNA synthesis during a subsequent incubation in PDB-free medium. Therefore the persisting effects of TPA are due to it binding to cultures in a manner resistant to washing and not due to the induction of a stable cellular change prerequisite for mitogenesis. Further, we show that certain combinations of polypeptide growth factors induce DNA synthesis in the absence of any such stable cellular change. Evidence is also presented that the persisting effects on DNA synthesis following transient exposure of cultures to other polypeptide growth factors (e.g., platelet-derived growth factor) reflect tenacious binding rather than induction of a lasting biological event.     

Two new C3H mouse ascites tumor cell lines capable of proliferation in vivo and in suspension culture: Morphological,karyological, kinetic,and immunological properties

Summary The establishment of mouse tumor cell lines capable of proliferating in vivo and in suspension culture was undertaken. The MM-46 tumor line, initiated from primary mammary carcinoma arising in a C3H/He mouse, was maintained for over 100 generations in the peritoneal cavities of syngenic mice. At the 50th generation of the tumor suspension, cultures were initiated. The established cell lines, designated TMT-1 and TMT-2, were characterized in vitro and in vivo. The morphological finding indicated that TMT-1 and TMT-2 cells from mice closely resembled the MM-46 tumor cells. The oncogenic potential of the cultured cells was comparable to that of the original ascites tumor. The population doubling time of TMT-1 and TMT-2 cell lines was about 12 hr in mice, whereas the population doubling time of both cell lines lengthened to 20 hr in suspension culture. The increase of doubling time in culture was due to the prolongation of the G₁ period. The cell lines, TMT-1 and TMT-2, whether from culture or mice, possessed colony forming ability in soft agar medium. The colony forming ability of the cells decreased gradually through in vivo passages but it recovered upon recultivation of the cells from mouse to culture. Chromosome analysis and cytotoxicity test by anti-MM antiserum indicated that TMT-1 and TMT-2 cell lines closely resembled and had been derived from MM-46 tumor line. Therefore, it is possible to assay cell survival in vitro after in vivo experiments on these cells.     

Direct cytochemical localization of catalytic subunits dissociated from cAMP-dependent protein kinase in Reuber H-35 hepatoma cells. I. Development and validation of fluorescinated inhibitor

A specific and sensitive procedure has been developed that reliably localizes intracellular sites of free catalytic unit (C) dissociated from cAMP-dependent protein kinase. The method is based on a FITC conjugate (F:PKI) of affinity column-purified heat-stable protein inhibitor (PKI) of free C. The fidelity of this cytochemical probe was determined using cultures of Reuber H-35 hepatoma cells that had been stimulated for 2 h with 0.1 mM DBcAMP, or with diluent, then fixed with anhydrous acetone at -30 degrees C. In these preparations the F:PKI probe complexed with free C in cytoplasm, nucleolus, and, to a minor extent, in nucleoplasm. Binding of the F:PKI molecule to free C was competitively diminished by arginine analogues, guanidinium HCI and polyarginine, each used over a 2-log dose range. When the inhibitor's arginine residues were blocked by reaction with cyclohexanedione it no longer inhibited phosphotransferase activity of free C, and when fluorescinated it failed to localize C in stimulated cells. Similarly, when F:PKI was preabsorbed with excess pure C it no longer functioned as a cytochemical stain. Affinity column-purified antibody to free C also reduced significantly the ability of F:PKI to complex with C in cell cultures stimulated with 0.1 mM DBcAMP. 1 microgram of antibody reduced by approximately 10% the binding of F:PKI to all cell compartments while 5 microgram of antibody diminished binding by greater than 50%. Together, these results indicate that the F:PKI binds specifically, perhaps exclusively, to the catalytic units of cAMP- dependent protein kinase. The cytochemical procedure, unlike its biochemical counterparts, is able to locate the dissociation of cAMP- dependent protein kinase in individual cells of functionally or histologically complex cultures. Also, it reveals variations in the time- and dose-dependent activation of the kinase amongst clonal cells stimulated with cyclic nucleotide analogues or hormones.     

Protein kinase C activation selectively increases mRNA levels for one of the regulatory subunits (RI alpha) of cAMP-dependent protein kinases in HT-29 cells

We have examined the effect of the protein kinase C activator, TPA, on mRNA levels for subunits of cAMP-dependent protein kinases in the human colonic cancer cell line HT-29, subline m2. Messenger RNA for the regulatory subunit, RI alpha, of cAMP-dependent protein kinases was shown to be present and regulated by TPA. Other mRNAs for subunits of cAMP-dependent protein kinases (RI beta, RII alpha, RII beta, C alpha, C beta) were also present in these cells, but revealed no or only minor changes upon TPA stimulation. When HT-29 cells were cultured in the presence of 10 nM TPA for various time periods, a biphasic response was observed in RI alpha mRNA levels with a maximal increase (approximately 4 fold) after 24 hours. TPA stimulated RI alpha mRNA increased in a concentration-dependent manner and maximal response (4-8 fold) was seen at 3-10 nM. The TPA-induced increase in RI alpha mRNA was not obtained when cells were incubated with TPA together with the protein kinase C inhibitors, staurosporine or H7. The cAMP-analog 8-CPTcAMP alone induced RI alpha mRNA levels 50% more than TPA. Combined treatment with TPA (10 nM) and 8-CPTcAMP (0.1 mM) gave an increase in RI alpha mRNA similar to TPA. These results demonstrate an interaction between the protein kinase C pathway and mRNA levels for the RI alpha subunit of cAMP-dependent protein kinases in HT-29 cells.