Bryostatins mimic the effects of phorbol esters in intact human platelets

Bryostatin-7 induces aggregation of human platelets and the phosphorylation of specific platelet proteins. Both the rate and extent of aggregation are similar to that induced by the tumor promoter phorbol ester 12-myristate 13-acetate (PMA); however, the rate of response is markedly reduced compared to that induced by thrombin. The addition of bryostatin-7 to 32P-labeled platelets results in a time-dependent incorporation of 32P into proteins of 20, 47 and 250 kDa; proteins of similar molecular mass are phosphorylated in response to the addition of thrombin or PMA. The time courses and dose responses of the phosphorylations induced by bryostatin-7 are similar to those found with PMA. In addition, bryostatin-7 increases the level of 32P incorporation into platelet polyphosphoinositides, which also occurs in response to PMA. These results suggest that, in intact human platelets, bryostatin-7 mimics the phorbol ester tumor promoter by directly activating protein kinase C.     

Specific binding of phorbol ester tumor promoters to mouse skin

The tumor promoter 20-³H-phorbol 12,13-dibutyrate bound in a specific manner to particulate preparations from both whole mouse skin and mouse epidermis. The binding, which was comparable in both whole skin and epidermal preparations, occurred rapidly, was reversible upon addition of non-radioactive ligand and showed high affinity (K_D = 2.4 × 10^?8 M). The potencies of phorbol esters for inhibiting binding of ³H-PDBu corresponded to their biological and tumor-promoting activities: phorbol 12-myristate 13-acetate, K_I = 0.74 nM; phorbol 12,13-didecanoate, K_I = 16 nM; phorbol 12,13-dibenzoate, K_I = 82 nM; mezerein, K_I = 98 nM; phorbol 12,13-diacetate, K_I = 3 μM; phorbol 12,13,20-triacetate, K_I = 5.6 μM; phorbol 13-acetate, K_I = 64 μM. The biologically inactive derivatives phorbol (0.88 mM) and 4α-phorbol 12,13-didecanoate (15 μM) did not inhibit binding. Likewise, ³H-PDBu binding was only weakly inhibited by phorbol-related diterpenes which are highly inflammatory but nonpromoting. These structure-activity relationships suggest that the ³H-PDBu binding activity mediates phorbol ester tumor promotion. ³H-PDBu binding was not inhibited by the nonphorbol promoters examined. Similarly, it was not blocked by compounds which antagonize (dexamethasone acetate, 2 μM; retinoic acid, 10 μM) or mimic (epidermal growth factor, 100 ng/ml; melittin, 25 μg/ml; PGE₂, 1 μM) some of the effects of the phorbol esters in vivo or in vitro.     

Cellular uptake and localization of fluorescent derivatives of phorbol ester tumor promoters

The synthetic fluorescent derivatives of 12-O-tetradecanoylphorbol-13-acetate (TPA), dansyl-TPA, dansyl-TPA-20-acetate and dansyl-TPA-13-desacetate, have ID50 values in the [3H]PDBu binding assay of 2nM, 30nM and 1000nM respectively; the ID50 value of TPA is 4nM. Dansyl-TPA is also equipotent with TPA as an activator of protein kinase C(PKC) producing half maximum stimulation at 2nM. Dansyl-TPA-13-desacetate is almost as potent as dansyl-TPA, while dansyl-TPA-20-acetate is completely inactive as an activator of PKC. The cellular uptake of these fluorescent TPA derivatives tends to parallel their activity in the [3H]PDBu binding assay. Treatment of C3H 10T1/2 cells with 100nM dansyl-TPA results in intense fluorescence of the entire cytoplasm, while the nucleus is virtually devoid of fluorescence. The uptake of fluorescence is quenched by an excess of TPA. Thus, dansyl-TPA rapidly enters cells and binds to specific sites distributed throughout the cytoplasm. Presumably these sites reflect the cellular localization of phorbol ester receptors and protein kinase C.     

Teleocidin and phorbol ester tumor promoters exert similar mitogenic effects on human lymphocytes

The tumor promoter 12-0-tetradecanoyl-phorbol-13-acetate (TPA) affects a wide variety of cellular functions via its binding to protein kinase C (PKC). The TPA molecule contains a diacylglycerol (DAG)-like structure, which may explain its ability to mimic DAG in PKC activation. Teleocidin (TCD) is a different tumor promoter which can compete with TPA in binding to its cell surface receptors even though structurally unrelated to TPA or DAG. Since TCD may use an additional receptor system and/or be distinguished from TPA in its effect on cells, we compared the effects of TPA and TCD on human peripheral blood lymphocytes (PBL). Both tumor promoters preferentially enhanced cell proliferation of sheep erythrocyte-rosetted lymphocytes, which were enriched for T cells. Additionally, TPA and TCD both induced a high density of cell surface receptors for interleukin 2 (IL2) and transferrin, but not synthesis or production of IL2. However, either of the tumor promoters synergized with T cell mitogens to induce high level IL2 production by PBL. In dose response and kinetic studies, matching concentrations of TPA and TCD induced similar effects in PBL. The results thus demonstrate that TPA and TCD are alike in mitogenic capacity, and suggest that structural similarity between the tumor promoter and DAG, the physiological activator of PKC, is not an essential property for promoting tumors or affecting a wide variety of cellular functions.     

Effects of diacylglycerols on LLC-PK1 renal epithelia: Similarity to phorbol ester tumor promoters

As previously shown using phorbol ester tumor promoters (see Mullin and O'Brien: Am. J. Physiol., 251:C597–C602, 1986), diacylglycerols induce leakiness in LLC-PK₁ renal epithelial tight junctions. The similarity between phorbol ester and diacylglycerol action includes effects on (1) cell morphology, (2) dome formation, (3) transepithelial resistance and potential difference, (4) transepithelial flux of D-mannitol, and (5) mitogenesis. Four diacylglycerols have been tested: 1,2-dioctanoylglycerol; 1,2-dicaprylglycerol; 1,2-dioleoylglycerol; and 1-oleoyl-2-acetoyl-sn-3-glycerol. Their relative effectiveness depended upon the phenomenon being observed. Unlike phorbol esters, diacylglycerol effects were reversible within hours at 37°C in the continued presence of diacylglycerol, and effects were more pronounced when cell sheets were exposed to diacylglycerols from the basolateral cell surface. Overall, these findings indicate that previous results with phorbol esters may be attributed to the protein kinase C signal transduction system, and this system may therefore exert a role in transepithelial permeability.     

Rapid phosphorylation of the L-myc protein induced by phorbol ester tumor promoters and serum.

We have examined post-translational modification of the L-myc protein using polyclonal and monoclonal antibodies against a peptide well conserved in the predicted amino acid sequences of the c-myc, N-myc and L-myc genes. These antibodies precipitate three polypeptides of Mr 60-66,000 from [35S]methionine or [32P]orthophosphate-labelled human small cell lung cancer cell lines expressing amplified L-myc genes, but not the other myc genes. Treatment of the L-myc immunoprecipitates with alkaline phosphatase prior to electrophoresis converts the three methionine-labelled polypeptides into a single band migrating at Mr 59,000, and efficiently removes radioactivity from the 32P-labelled L-myc protein, suggesting that, in contrast to the c-myc and N-myc proteins, the L-myc polypeptide heterogeneity is due to differential phosphorylation of a common precursor. When the phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA) or serum is added to cultures of U-1690 cells the Mr 66,000 polypeptide is rapidly enriched while the Mr 60,000 form is decreased in the L-myc immunoprecipitates. This effect is correlated with the ability of phorbol ester and diacylglycerol analogues to activate protein kinase C. The TPA-induced phosphorylation of the L-myc protein occurs in a protein synthesis-independent manner as it is not inhibited by cycloheximide or anisomycin. These data indicate that the phosphorylation of the L-myc nuclear oncoprotein is modulated in response to TPA via a rapid signal transduction system involving protein kinase C. This mechanism could play an important role in the response of lung cells to e.g. bombesin-related growth factors.     

Calcium mobilization in permeabilized fibroblasts: effects of inositol trisphosphate, orthovanadate, mitogens, phorbol ester, and guanosine triphosphate

Utilizing a digitonin-permeabilized cell system, we have studied the release of calcium from a non-mitochondrial intracellular compartment in cultured human fibroblasts (HSWP cells). Addition of 1 mM MgATP to a monolayer of permeabilized cells in a cytosolic media buffered to 150 nM Ca with EGTA rapidly stimulates 45Ca uptake, and the subsequent addition of the putative intracellular messenger inositol trisphosphate (InsP3) induces rapid release of 85% (+/- 6% n = 6) of the 45Ca taken up in response to ATP. Mitogenic peptides (bradykinin, vasopressin, epidermal growth factor [EGF], and insulin) and orthovanadate, which are effective in mobilizing intracellular Ca in intact cells, have little or no effect when added alone to permeabilized cells. However, in the presence of GTP these agents stimulate accumulation of inositol phosphates and release Ca from the InsP3-sensitive pool. These data suggest that a GTP binding protein is involved in receptor mediated activation of phospholipase C, which leads to release of inositol phosphates. The GTP-dependent release of InsP3 and the mobilization of 45Ca from the intracellular compartment are inhibited by pretreatment of cells, prior to permeabilization, with the protein kinase C activator 12-O-tetradecanoyl-phorbol-13-acetate (TPA). TPA pretreatment does not affect the InsP3 stimulated Ca release. These results suggest that protein kinase C is involved in down-regulation or inhibition of phospholipase C, or the GTP binding protein responsible for relaying the mitogenic signal from the cell surface receptor to the phospholipase C activity.     

Complexes of phorbol tumor promoters with protein kinase C

Based on the literature data, a systematic comparison of relationships between the structures of incomplete and complete phorbol tumor promoters, diacylglycerols and their activities in various biological test-systems was carried out. The specific features of the phorbol esters-protein kinase C complexes responsible for the induction of the first and second stages of the tumor promotion in mouse skin, were established. The type of diacylglycerol binding to protein kinase C which confers to the latter noncarcinogenic properties, was specified.     

Phorbol ester tumor promoters induce epidermal transglutaminase activity

Epidermal basal cells in culture have low levels of epidermal transglutaminase, the enzyme responsible for the formation of the cross-linked envelope in differentiated cells. The tumor promoter 12-O-tetradecanoylphorbol-13-acetate and other active (but not inactive) phorbol ester skin tumor promoters induce transglutaminase activity. Sloughing of differentiated cells accompanies the rise in transglutaminase activity. Phorbol esters do not affect transglutaminase activity when added directly to cell lysates. Corticosteroids have little influence on transglutaminase induction by phorbol esters. Retinoic acid induces transglutaminase activity, but activity does not further increase when basal cells are treated with both retinoic acid and 12-O-tetradecanoylphorbol-13-acetate.     

Genes that cooperate with tumor promoters in transformation

Tumor-promoting phorbol esters, like growth factors, elicit pleiotropic responses involving biochemical pathways that lead to different biological responses. Genetic variant cell lines that are resistant to mitogenic, differentiation, or transformation responses to tumor promoters have been valuable tools for understanding the molecular bases of these responses. Studies using the mouse epidermal JB6 cell lines that are sensitive or resistant to tumor promoter-induced transformation have yielded new understanding of genetic and signal transduction events involved in neoplastic transformation. The isolation and characterization of cloned mouse promotion sensitivity genes pro-1 and pro-2 is reviewed. A new activity of pro-1 has been identified: when transfected into human cancer prone basal cell nevus syndrome fibroblasts but not normal fibroblasts mouse pro-1 confers lifespan extension on these cells. Recently, we have found that a pro-1 homolog from a library of nasopharyngeal carcinoma, but not the homolog from a normal human library, is activated for transferring promotion sensitivity. The many genetic variants for responses to tumor promoters have also proved valuable for signal transduction studies. JB6 P- cells fail to show the 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-induced synthesis of two proteins of 15 and 16 kD seen in P+ cells. P-, P+, and TPA transformed cells show a progressive decrease in both basal and TPA-inducible levels of a protein kinase C substrate of 80 kD. P- cells are relatively resistant both to anchorage-independent transformation and to a protein band shift induced by the calcium analog lanthanum. It appears that one or more calcium-binding proteins and one or more pro genes may be critical determinants of tumor promoter-induced neoplastic transformation.     

Dl-alpha-tocopherol,a potent inhibitor of phorbol ester induced shape change of erythro- and megakaryoblastic leukemia cells

Synthetic vitamin E, dl-α-tocopherol, added to a human erythroleukemia HEL and a megakaryoblastic leukemia, Meg-01, cell culture produced potent dose-dependent inhibition of phorbol ester-induced adhesion and of the morphologic changes accompanying it. The inhibition was reversible by withdrawal of supplemental vitamin E from the medium. dl-α-Tocopherol also inhibited protein kinase C activity both at baseline and after phorbol ester stimulation. Arachidonic acid stimulated protein kinase C activity of erythroleukemia cells and promoted their adhesion, an effect that was also inhibited by dl-α-tocopherol. Introduction of a protein kinase C-neutralizing antibody or a protein kinase C-inhibitor substrate into permeabilized HEL cells inhibited phorbol ester-induced adhesion and shape change. dl-α-Tocopherol also affected the cellular distribution of protein kinase C, shifting the major portion of the enzyme to the cytosol fraction and reducing phorbol ester-induced membrane association of the enzyme. Thus, protein kinase C appears to mediate shape change and adhesion, both of which are strongly inhibited by dl-α-tocopherol. J. Cell. Physiol. 172:351–360, 1997. © 1997 Wiley-Liss, Inc.     

Calcium-dependent activation of lymphocytes by ionophore, A23187, and a phorbol ester tumor promoter

The phorbol ester tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) and the calcium ionophore, A23187, have similar effects on many different cells. For example, both show mitogenic and comitogenic activities for lymphocytes. It had been suggested that some of TPA's effects are due to its ability to act as a calcium ionophore. In order to test this idea, we compared the ability of TPA and ionophore to synergize with concanavalin A (Con A) in a two-phase system of lymphocyte mitogenesis. We found that ionophore was most comitogenic with Con A when present in the early phase of stimulation. TPA was only comitogenic when present in the late phase. Ionophore and TPA could not replace one another in the system. However, both ionophore and TPA together could replace Con A and stimulate DNA synthesis when they were presented to the cells in the sequential order of ionophore followed by TPA. Both compounds required the presence of external calcium to be effective.     

Changes in fibroblast contractility, morphology, and adhesion in response to a phorbol ester tumor promoter

We have studied the effects of the phorbol ester tumor promoter 12-O-tetradecanoyl-phorbol-13-acetate (TPA) on the contractility, locomotion, morphology, and adhesion of two mammalian fibroblastic cell lines. Using the silicone rubber substratum technique, we have found that the first observable response to the tumor promoter is a rapid weakening of cell contractility (8-15 min). This is followed by gradual morphological changes, characterized by a hyperextension of the cells' leading lamellae, which stretch out to an unlimited degree, and occasionally even detach from the cell bodies. Treated cells also become able to crawl onto hydrophobic substrata which are insufficiently adhesive to support the spreading of untreated fibroblasts. We suggest that both the hyperextension and the ability to spread on nonadhesive surfaces can be explained as consequences of the reduced contractility, and that this reduced contractility may also help to explain the increased invasiveness and loss of anchorage dependence by transformed cells.     

Inhibition of thymine dimer excision by the phorbol ester, phorbol myristate acetate

The effect of the promoting agent, phorbol myristate acetate, on repair of UV-induced damage in HeLa cells was studied. The agent decreased survival and subsequent colony-forming ability of irradiated cells and inhibited removal of UV-induced thymine-containing dimers from DNA of irradiated cells.     

Calcium-independent induction of cytocidal activity of polymorphonuclear leukocytes by phorbol myristate acetate-like tumor promoters

Tumor promoters were tested for the ability to induce cytocidal activity of polymorphonuclear leukocytes (PMNs), and the extracellular calcium-dependency of their PMN cytotoxicities were examined in comparison with that by some immunomodulators. Immunomodulators such as linear beta-1, 3-D-glucan (TAK) induced potent cytocidal activity of PMNs. The induction was dependent on extracellular Ca2+. Tumor promoters such as phorbol 12-myristate 13-acetate (PMA) and its derivatives, teleocidin which is structurally unrelated to PMA, and croton oil as an example of mixture also induced potent PMN cytotoxicities. In the latter cases, however, the induction was not dependent on extracellular Ca2+. The ability of these tumor promoters to induce PMN cytotoxicity correlated well with their skin-tumor promoting activities. These results indicate that inductions by PMA-like tumor promoters are distinguishable from those by TAK-like immunomodulators in not being Ca2+-dependent. The application of Ca2+-independent PMN cytotoxicity to detect PMA-like tumor promoters is discussed.     

Molecular cloning of gene sequences regulated by tumor promoters and mitogens through protein kinase C.

cDNA clones representing genes whose expression is modulated by treatment with mitogens and tumor promoters were isolated and characterized. TPA-S1 corresponds to an mRNA species whose abundance was increased markedly within 1 h of exposure to the tumor promoter 12-O-tetradecanoyl phorbol-13-acetate (TPA), and TPA-R1 represents an mRNA that was decreased in TPA-treated cells. The induction of TPA-S1 was blocked by actinomycin D but was not affected by cycloheximide, and it was specific for phorbol esters with tumor-promoting activity. The role of protein kinase C in the induction of TPA-S1 is supported by the following lines of evidence. (i) Agents that activated protein kinase C (TPA, platelet-derived growth factor, and diacylglycerol) also increased TPA-S1 mRNA levels. (ii) A potent PKC inhibitor blocked the induction of TPA-S1. (iii) Down-regulation of PKC activity, by treatment of cells with TPA for 24 h, resulted in a loss of responsiveness to TPA-S1 induction by subsequent TPA treatment. DNA sequence analysis of TPA-S1 predicts a cysteine-rich, secreted protein with a molecular weight of 22.6 X 10(3) that exhibits homology with sequences representing a protein with human erythroid-potentiating activity and protease inhibitory activity.     

Inhibition of respiration by a phorbol ester tumor promoter in murine cultured cells

The tumor promoter 12-O-tetradecanoyl phorbol-13-acetate is a potent inhibitor of mitochondrial respiration in both normal and methylcholanthrene-transformed C3H $\text{10T1}\text{2}$ mouse fibroblasts. This inhibition is seen at concentrations of tumor promoter in the range of 10^?8M, occurs within a few minutes after exposure of the intact cells, and is not seen with a biologically inactive analog. The effect appears to be exerted through inhibition of the function of an oligomycin-sensitive ATPase. It is possible, therefore, that alterations in mitochondrial function are associated with the process of tumor promotion.     

N-acyl-L-phenylalanine derivatives as potent VLA-4 antagonists that mimic a cyclic peptide conformation.

A series of N-benzylpyroglutamyl-L-phenylalanine derivatives bearing carbamoyl substituents in the 3- or 4-positions was prepared and assayed for inhibition of the interaction between VCAM and VLA-4. Potent inhibition was observed in a number of analogues with substitution in the 4-position favored over the 3-position. A crystal structure of the key intermediate 25 indicates that it accesses a low energy conformation which closely matches key pharmacophores of a structurally characterized cyclic peptide.     

Phorbol ester tumor promoters specifically stimulate choline phospholipid metabolism in human leukemic cells

Human hairy cell leukemia (HCL) cells in culture showed a marked increase in both [1-14C]acetate and [14C]choline incorporation into phosphatidylcholine (PC) when treated with a 10 nM concentration of 12-O-tetradecanoylphorbol 13-acetate (TPA) for 3 h. Dramatic morphological changes occurred and synthesis of most phospholipids was stimulated. However, the most dramatic increase was seen in the [14C]acetate labeling of both long- and short-chain fatty acid-containing sphingomyelins (from 200-425% of control levels), sphingomyelin being especially enriched in HCL cells. Negligible incorporation of [14C]choline into sphingomyelin was observed and phospholipase inhibitor (U10029A) studies indicated that PC was the major source of sphingomyelin choline. These changes were most clearly seen by autoradiography of two-dimensional thin-layer chromatography plates. Chronic myelogenous leukemia (CML) blasts, which did not respond morphologically to TPA, showed no increased phospholipid synthesis under the same conditions and increases in sphingomyelin synthesis were modest. Other non-TPA-responding leukemic cells were similarly refractive. However, one out of four acute monomyelocytic leukemic (AMMoL) cells studied responded morphologically in a manner identical to HCL cells and exhibited the same dramatic increase in sphingomyelin synthesis. Data are presented which suggest that TPA may also stimulate PC phospholipase C activity in addition to activating the calcium-dependent protein kinase by mimicking diacylglycerol.     

Genetic evidence that a phorbol ester tumor promoter stimulates ornithine decarboxylase activity by a pathway that is independent of cyclic AMP-dependent protein kinases in CHO cells

Ornithine decarboxylase (ODC) inductions by cholera toxin and by the phorbol ester tumor promoter, TPA, were compared in wild-type Chinese hamster ovary (CHO) cells and in mutant cells having altered cyclic AMP-dependent protein kinase activity. The aim of these studies was to determine whether cyclic AMP-dependent protein kinase is involved in these inductions. The time course and the magnitude of ODC inductions by either 100 ng/ml cholera toxin or 100 ng/ml TPA were similar in wild-type cells with a maximum at 3-4 hours after treatment and a return to unstimulated levels by 8 hours. Induction of ODC by cholera toxin was suppressed more than 80% in the four protein kinase mutants studied (10215, 10248, 10260, and 10265), strongly implicating a cyclic AMP-dependent kinase step in the mechanism of induction. Similar results were found with the cyclic AMP analog 8-Br-cyclic AMP and the phosphodiesterase inhibitor, methyl-isobutylxanthine. The induction of ODC by TPA, on the other hand, was only partially inhibited (approximately 50%) in three of four mutants. Lower ODC activity in two mutants stimulated by cholera toxin or TPA whose kinetics were studied in more detail could not be ascribed to a reduced affinity (Km) of ornithine for the enzyme, but appeared to be due to reduced catalytic activity (Vmax) in the extracts. These results suggest that the induction of ODC by TPA proceeds by a mechanism which is only partially dependent on an intact cyclic AMP-dependent protein kinase activity.