Role of polyamines in the control of cell proliferation and differentiation

Polyamines in mammalian ageing: an oncological problem, too? A review

This review surveys the literature about changes in polyamine contents and levels of activity of the enzymes involved in the polyamine biosynthetic pathway in organs of ageing mammals. The literature about changes in the polyamine levels in physiological fluids in healthy ageing humans is also reviewed. Generally speaking, decreases in the levels of the main polyamines (noticeably putrescine and spermidine) are observed in different mammalian organs with ageing. The polyamine levels in serum and in urine of healthy human beings are also age-related, declining progressively with increasing age. Some major enzymes (i.e., ornithine decarboxylase (EC 4.1.1.17) and S-adenosyl-L-methionine decarboxylase (EC 4.1.1.50) involved in the polyamine biosynthetic pathway show similar trends. Hormonal induction of ornithine decarboxylase activity is strongly reduced in organs of aged animals, as it is in neoplastic organs. There is also some evidence for an age-related decrease in the level of ornithine decarboxylase and its inducibility in mammalian cells cultured in vitro. Some in vitro effects of spermidine and spermine on aged structures or systems are briefly summarized. There is no evidence yet that this generally reduced capacity of mammalian aged organs for polyamine biosynthesis is one of the factors responsible for the well known high incidence of some neoplasias in elderly humans. In view of the typical stimulatory effects of the tumour promoters on polyamine biosynthesis in target tissues and the effects of senescence on the same metabolic pathway, it can be excluded that the ageing process has a tumour promoting effect by itself. However, although the exact mechanism responsible for the increased occurrence of some tumors during mammalian senescence is still obscure, there are enough experimental data (both in humans and in animals) to indicate that the reduced polyamine biosynthetic capacity of aged mammals can account for the slower course of some tumors in elderly patients.

Effects of (2R, 5R)-6-heptyne-2,5-diamine, a potent inhibitor of L-ornithine decarboxylase, on rat hepatoma cells cultured in vitro

DL-alpha-Difluoromethylornithine (F2MeOrn), the most widely-used inhibitor of L-ornithine decarboxylase, has been a useful tool to demonstrate that polyamine biosynthesis is required to maintain maximum rates of cell proliferation. However, in most eukaryotic cell systems, F2MeOrn exerts cytostatic rather than cytotoxic effects. This may be due to the fact that this inhibitor creates only incomplete polyamine deficiency. In particular, F2MeOrn scarcely depletes intracellular spermine levels. We now demonstrate in rat hepatoma tissue culture (HTC) cells that (2R, 5R)-6-heptyne-2,5-diamine, a more potent irreversible inhibitor of L-ornithine decarboxylase than F2MeOrn, decreases the concentrations of all polyamines including spermine. In parallel with the depletion of these amines, there is a progressive decrease in the rate of cell proliferation and in cell viability. Restoration of the intracellular polyamine content, by addition to the medium of polyamines or a high concentration of L-ornithine, the substrate of L-ornithine decarboxylase, further demonstrates that the antiproliferative effects of (2R, 5R)-6-heptyne-2,5-diamine do result from polyamine deficiency. These findings support the concept that polyamines play an essential function in the cell division processes and emphasize the vital function of spermine in mammalian cells.

Polyamines in Acanthamoeba castellanii: presence of an unusually high, osmotically sensitive pool of 1,3-diaminopropane

High (15-25 mM) concentrations of 1,3-diaminopropane, a normally minor derivative of polyamine metabolism, have been observed in vegetative cells of Acanthamoeba castellanii. Trace amounts of a putative polyamine, which chromatographically behaved like norspermidine, were also found. The size of the intracellular pool of 1,3-diaminopropane was inversely related to the ambient osmolality and to the free amino acid levels during osmotic shock experiments. Due to its high concentration in A. castellanii, this diamine may be operative in ionic regulation during environmental stress. 1,3-diaminopropane may substitute for putrescine, a common diamine which was undetectable in A. castellanii.

Inhibition by DL-alpha-difluoromethylornithine of the pokeweed mitogen-induced immunoglobulin production in cultured human lymphocytes

The effects of DL-alpha-difluoromethylornithine (DFMeOrn), an irreversible inhibitor of L-ornithine decarboxylase, on immunoglobulin production were studied in vitro using human peripheral blood lymphocytes stimulated with pokeweed mitogen. DFMeOrn inhibits in a concentration-dependent manner the usual pokeweed mitogen-induced increases of polyamine contents (putrescine, spermidine, spermine) and of [3H]thymidine incorporation. In parallel with the reduction of polyamine content and of thymidine incorporation, IgG and IgM productions are diminished, a 70% decrease being observed at 5 mM DFMeOrn concentration. Therefore, it appears that inhibition of polyamine biosynthesis may ultimately interfere with the cellular immunologic response by blocking cell proliferation. These findings certainly deserve further consideration both under in vitro and in vivo conditions.

Culture of normal adult human melanocytes

Melanocytes isolated from normal adult human skin were cultured in vitro. Separation of the epidermis from the dermis by trypsin flotation proved better than collagenase treatment for providing viable cultures of melanocytes with a minimum of fibroblast contamination. Centrifugation on a discontinuous, rather than a continuous Percoll gradient, was more efficient in separating the epidermal cell types. Most of the melanocytes were usually found in one particular layer, and most of the viable keratinocytes were in the sediment. None of the layers produced a uniformly high percentage of melanocytes on routine culture, but enriched melanocyte cultures could be obtained by seeding the epidermal cells in magnesium- and calcium-free medium for 24 to 48 hours, and then transferring them to fibroblast-conditioned medium containing horse serum and polyamines. Melanocytes were identified by their dendritic morphology, ultrastructure, reaction to cholera toxin and pigment production after treatment with melanocyte stimulating hormone. Pure cultures of melanocytes have been cultivated by this method for more than 43 weeks (ten passages).

Activation of ADP-ribosyltransferase in polyamine-depleted mammalian cells

Mammalian fibroblasts were cultured in the presence of alpha-methylornithine and/or methylglyoxal bis(guanylhydrazone), which inhibit the synthesis of polyamines. This led to a decrease in the cellular content of the polyamines spermine and spermidine by up to 60% when the cells were grown in the presence of both drugs together. The activity of the chromatin-associated enzyme ADP-ribosyltransferase was enhanced 2-3-fold in the drug-treated cells when measured in cells subsequently rendered permeable to exogenous NAD+, the substrate for the transferase. This is a novel and surprising observation, since the transferase is invariably activated by the addition of polyamines to a suitable incubation system such as permeabilized cells, isolated nuclei or the purified enzyme. We found no evidence that the activation was due to the appearance of DNA strand breaks, by using a variety of procedures including both neutral [the 'nucleoid' technique of Cook & Brazell [(1975) J. Cell Sci. 19, 261-279; (1976) J. Cell Sci. 22, 287-302]] and alkaline sucrose-gradient centrifugation and gel electrophoresis, suggesting that this therefore may not be the only means of regulating the activity of ADP-ribosyltransferase and that polyamines may have a role to play in this regard in vivo.

Short term regulation by lysine of ornithine decarboxylase activity in Dictyostelium discoideum

A transitory increase in ornithine decarboxylase activity has been observed soon after food removal from Dictyostelium discoideum amoeba. This increase can be prevented by supplementation of the differentiation buffer with the 11 amino acids known for their ability to retard the development of this slime mold. Lysine can replace the amino acid mixture with an apparent inhibition constant of 50 micromolar. This inhibition by lysine, which was only observed in vivo, took place within 5 min and was readily reversed upon lysine removal.

Effects of polyamines on the first division cycle of Xenopus laevis eggs

The involvement of polyamines in cytokinesis has been examined in eggs of the amphibian X. laevis. Microinjection of spermine or spermidine into unfertilized eggs induced a shortening of the first division cycle and early formation of cleavage-like constrictions. Eggs were activated by injection and developed furrows about 45 min later, whereas the first division normally occurred around 120 min after activation. In terms of concentration, spermine was slightly more effective than spermidine, but putrescine had no influence on the division cycle.

Decreased protein-synthetic activity is an early consequence of spermidine depletion in rat hepatoma tissue-culture cells

Hepatoma tissue-culture (HTC) cells were exposed to DL-alpha-difluoromethylornithine (DFMeOrn), a specific irreversible inhibitor of ornithine decarboxylase. Concomitantly with the decrease in spermidine, a decrease in the amount of ribosomes in polyribosomes was observed. Spermine concentrations remained essentially comparable with those in cells not exposed to this inhibitor. Exposure of putrescine- and spermidine-depleted HTC cells to spermidine or spermine rapidly reversed the effect of DFMeOrn on polyribosome profiles, whereas addition of putrescine to the cell culture medium had an effect only after its transformation into spermidine and spermine. The results show that the perturbation of polyribosome formation in DFMeOrn-treated HTC cells is due to spermidine deficiency and that a normal polyamine complement is required for optimal protein-synthetic activity in these cells. The results also indicate that protein synthesis is perturbed before DNA synthesis during depletion of putrescine and spermidine in HTC cells.

Response of epidermal polyamines to orally administered aromatic retinoid RO 10-9359

Polyamine levels were measured in skin (pure epidermis) and 24-h urine before and 15 days after the start of continuous oral treatment with Etretinate (1 mg/kg/day) in 20 patients with various dermatoses. In uninvolved epidermis, treatment modified levels of spermidine (45% increase, P less than 0.05) and spermine (30% increase, P less than 0.05). In urine, the putrescine concentration was significantly altered, increasing from 1.96 to 2.60 micrograms/mg creat (P less than 0.05). During the time interval considered, variations in polyamine levels did not reflect the inhibiting mechanism of retinoids on ornithine decarboxylase, the key enzyme in the regulation of polyamine synthesis.

Polyamine biosynthetic enzymes as targets in cancer chemotherapy

In this chapter we focus attention on recent developments in the biosynthesis of putrescine, spermidine and spermine and their linkage to salvage pathways of methionine and adenine nucleotide synthesis. We describe the use of specific inhibitors of the polyamine biosynthetic enzymes for studying the role of polyamines in cell growth and division as well as in cell differentiation. Some novel findings are presented which suggest that part of the inhibitory action that polyamine synthesis inhibitors exert on DNA synthesis may be due to the accumulation of ADP and ATP. We show that polyamine synthesis inhibitors are capable of inducing terminal differentiation of neoplastic cells to forms with no further proliferative potential, and briefly discuss the potential use of this approach in cancer chemotherapy.

Ornithine decarboxylase activity in embryos depends on temperature of development rather than on the stage of development. Molecular adaptation to temperature changes in poikilothermic animals

The activity of ornithine decarboxylase (ODC) (the key enzyme of polyamine synthesis) in different poikilothermic animals depends on the temperatures at which they were kept just before the enzyme assay. With an increase in temperature (within physiological limits) ODC activity rises 5-25-fold within several hours. With a decrease in temperature it falls at the same rate. This effect, studied on loach (Misgurnus fossilis) embryos in detail, was also shown for embryos, larvae and some adult tissues of many species. It is not, however, observed in homoiothermic animals (chick embryos and mammalian cells), nor in bacteria and plants. Changes in polyamine concentrations follow those in ODC activity, but more slowly and to a lesser extent. It is assumed that modulation of ODC activity changes as a result of its synthesis and degradation. We suggest that the temperature-dependence of ODC activity is a mechanism of adaptation which maintains the optimal cellular concentration of polyamines for each temperature.

Beta-adrenergic stimulation of Ca2+ fluxes, endocytosis, hexose transport, and amino acid transport in mouse kidney cortex is mediated by polyamine synthesis

We recently found that the beta-adrenergic agonist 1-isoproterenol evokes a rapid (less than 5 min) Ca2+- and receptor-dependent stimulation of endocytosis, hexose transport, and amino acid transport in mouse renal cortex involving proximal tubule cells. This response is associated with increased Ca2+ fluxes and a mobilization of mitochondrial calcium, suggesting that stimulus-response (stimulus-"transport") coupling is mediated by cytosolic Ca2+. We show here that 1 microM isoproterenol evokes a rapid (less than 60 sec) transient increase in the activity of ornithine decarboxylase followed by an early (less than 2 min) sustained increase in putrescine, spermidine, and spermine concentrations in mouse kidney cortex slices in vitro. Small doses of isoproterenol (down to 24 nmol/kg) elicited a rapid (less than 2 min) increase in polyamines in vivo. The ornithine decarboxylase inhibitor alpha-difluoromethylornithine (5 mM) suppressed the testosterone-induced increase in polyamine levels and rates of endocytosis, hexose transport, and amino acid transport, measured by horseradish peroxidase, [14C]aminoisobutyric acid, and deoxy[3H]glucose uptake. alpha-Difluoromethylornithine also blocked the isoproterenol-induced increase in 45Ca influx and efflux and 45Ca redistribution; 0.5 mM putrescine nullified alpha-difluoromethylornithine inhibition and restored the increment in polyamines, 45Ca fluxes, endocytosis, hexose transport, and amino acid transport. These data implicate polyamine synthesis in isoproterenol stimulation of Ca2+ fluxes and membrane transport processes and support a model for signal transduction and stimulus-response coupling in which ornithine decarboxylase activation and polyamine synthesis play a pivotal role in regulating Ca2+ fluxes. In this model the polyamines generate local Ca2+ signals by stimulating Ca2+ influx or mobilizing intracellular calcium (or both) through a cation exchange reaction.

Effects of polyamines on cyclic AMP-mediated stimulation of amino acid transport in isolated rat hepatocytes

The effects of natural polyamines on cyclic AMP-mediated stimulation of amino acid transport in isolated rat hepatocytes were analyzed. Despite the fact that polyamines could directly compete with alpha-aminoisobutyric acid (AIB) for uptake, preincubation of hepatocytes with polyamines did not significantly alter basal AIB transport. The stimulatory effect of glucagon or cyclic AMP analogs was differently affected by polyamines, since it was reduced in the presence of spermine and, inversely, potentiated by spermidine, putrescine, and cadaverine. Dose-dependence analysis showed that half maximal and maximal effects occurred with 2-3 and 6-10 mM external concentrations, respectively. None of the polyamine effects could be ascribed to transstimulation or transinhibition of amino acid uptake. The inhibitory effect exerted by spermine correlated its capacity to inhibit [3H]-leucine incorporation into proteins partially. The potentiating effect of the other polyamines did not result from stabilization of newly synthesized carrier proteins. Instead, the increase in Vmax of the high affinity transport component suggested that more carriers became available, presumably because polyamines facilitated their synthesis by interacting directly with one or several steps controlled by cyclic AMP. Polyamines appear to represent a new class of factors capable of modulating the cyclic AMP-mediated stimulation of amino acid transport, in hepatocytes.

(2R,5R)-6-heptyne-2,5-diamine, an extremely potent inhibitor of mammalian ornithine decarboxylase

It was previously shown that 5-hexyne-1,4-diamine is a potent enzyme-activated irreversible inhibitor of mammalian ornithine decarboxylase. However this compound has secondary pharmacological effects owing to its in vivo oxidation to 4-aminohex-5-ynoic acid, an irreversible inhibitor of 4-aminobutyrate aminotransferase. The first step of this oxidation is catalysed by mitochondrial monamine oxidase. The monomethyl and dimethyl analogues of 5-hexyne-1,4-diamine, i.e. 6-heptyne-2,5-diamine and 2-methyl-6-heptyne-2,5-diamine, which cannot be substrate of monoamine oxidase, were tested as selective irreversible inhibitors of ornithine decarboxylase. Our results demonstrate that (2R,5R)-6-heptyne-2,5-diamine is greater than 10 times more potent, both in vitro and in vivo, than alpha-difluoromethylornithine, the most widely used irreversible inhibitor of this enzyme.

Polyamines regulate calcium fluxes in a rapid plasma membrane response

Activation of cell-surface receptors often evokes changes in Ca2+ fluxes leading to an increase in cytosolic Ca2+, a generally accepted mediator of many cell responses. The molecular mechanisms by which surface agonists elicit these changes in Ca2+ flux have remained elusive. An increase in the polyamines putrescine, spermidine and spermine, and their rate-regulating, synthetic enzyme ornithine decarboxylase (ODC), is one of the earliest events that occur during cell growth, replication and differentiation. However, the precise physiological roles of the polyamines remain enigmatic. Recently, we found that testosterone induces an early (less than 60s), Ca2+- and receptor-dependent stimulation of endocytosis, hexose transport and amino acid transport in mouse kidney cortex involving the proximal tubules. This response is associated with increased Ca2+ fluxes and a mobilization of intracellular calcium, and is thought to represent a direct, receptor-mediated action of testosterone on the surface membrane. Polyamine synthesis was previously found to be essential for the long-term effects of testosterone on mouse kidney. We now report that testosterone evokes a rapid (less than 30 s), transient increase in ODC activity and a sustained increase in polyamines in kidney cortex. This polyamine synthesis is obligatory for stimulation of membrane transport functions and Ca2+ fluxes. These findings form the basis for a new theory of information flow in stimulus-response coupling in which the polyamines serve as messengers to generate a Ca2+ signal by increasing Ca2+ influx and mobilizing intracellular calcium via a cation-exchange reaction.

Effect of polyamines on palmitoyl-coenzyme A-caused inhibition of glucose-6-phosphate dehydrogenase from baker's yeast

Aliphatic polyamines reversed the inhibition of baker's yeast glucose-6-phosphate dehydrogenase by palmitoyl-CoA. The reversal effects of the polyamines on the inhibition were related not only to the number of amino (imino) groups but also to the carbon chain length of polyamine. The relieving constant (Kr) was calculated to determine the absolute concentration of each examined polyamine required to relieve the enzyme from the inhibition. A smaller Kr value indicates a stronger relieving activity. An ethylamine derivative with a large number of amino groups was more effective in reversing the palmitoyl-CoA inhibition. The Kr values of long-chain aliphatic diamines, triamines, and tetramines were smaller than those of short-chain ones. However, n-butylamine and ornithine, composed of four carbons like putrescine, had markedly larger Kr values than putrescine. Substitution of one or two amino groups by carboxyl or hydroxyl groups also appeared to relieve the enzyme from the inhibition. These results suggest that the reversal effect on palmitoyl-CoA inhibition is one of the important roles of polyamines. Furthermore, it is possible that the interaction of palmitoyl-CoA and polyamines physiologically regulates the pentose monophosphate cycle in baker's yeast.

Studies of the specificity and kinetics of rat liver spermidine/spermine N1-acetyltransferase

The substrate specificity and kinetic mechanism of spermidine N1-acetyltransferase from rat liver was investigated using a highly purified (18 000-fold) preparation from the livers of rats in which the enzyme was induced by treatment with carbon tetrachloride (1.5 ml/kg body wt. 6h before death). The enzyme catalysed the acetylation of spermidine, spermine, sym-norspermidine, sym-norspermine, N-(3-aminopropyl)-cadaverine, N1-acetylspermine, 3,3'-diamino-N-methyldipropylamine and 1,3-diaminopropane, but was inactive with putrescine, cadaverine, sym-homospermidine and N1-acetylspermidine. These results suggest that the enzyme is highly specific for the acetylation of a primary amino group that is separated by a three-carbon aliphatic chain from another nitrogen atom (i.e. the substrates are of the type H2N[CH2]3NHR). The maximal rates of acetylation of 1,3-diaminopropane and 3,3'-diamino-N-methyldipropylamine were much lower than the maximal rates with spermidine or sym-norspermidine as substrates, suggesting a preference for a secondary amino group bearing the aminopropyl group that is acetylated. The best substrates for acetylation were sym-norspermidine and sym-norspermine, which had Km values of about 10 micrograms and Vmax. values of about 2 mumol of product/min per mg of enzyme compared with Km of 130 microM and Vmax. of 1.3 mumol/min per mg for spermidine. N1-Acetylspermidine (the product of the reaction) and N8-acetylspermidine were weak inhibitors and were competitive with spermidine, having Ki values of about 6.6 mM and 0.4 mM respectively. N1-Acetylspermidine was a non-competitive inhibitor with respect to acetyl-CoA. CoA was also inhibitory to the reaction, showing non-competitive kinetics when either [acetyl-CoA] or [spermidine] was varied. These results suggest that the reaction occurs via an ordered Bi Bi mechanism in which spermidine binds first and N1-acetyl-spermidine is the final product to be released.

Polyamine-stimulated alteration of the ornithine decarboxylase molecule in Physarum polycephalum

The molecular mechanism for polyamine-stimulated feedback modification of ornithine decarboxylase isolated from Physarum polycephalum was investigated by using two-dimensional polyacrylamide-gel electrophoresis. Partially purified A-form enzyme was converted into the B-form enzyme by isolated fractions of the Physarum A-B-converting protein, and the substrates and products were subsequently labelled by covalent addition of alpha-difluoro[14C]methylornithine, an enzyme-activated irreversible inhibitor. The active (A-form) and inactive (B-form) states of this enzyme were found to have the same Mr value, 52 000, yet they differed noticeably in their pI values, 5.45 and 5.65 respectively. In further experiments, the use of high-specific-radioactivity [3H]spermidine to stimulate this enzyme modification was shown not to result in the covalent attachment of this polyamine to ornithine decarboxylase. These results demonstrate that the polyamine-induced modification of ornithine decarboxylase in Physarum is not due to any of the mechanisms previously suggested for ornithine decarboxylase inactivation in this and other eukaryotes, namely phosphorylation, covalent polyamine addition or the non-covalent association of a specific low-Mr protein.

Polyamine depletion inhibits the differentiation of L6 myoblast cells

Exposure to alpha-difluoromethylornithine, an enzyme-activated irreversible inhibitor of ornithine decarboxylase, inhibited the insulin induced differentiation of L6 myoblast cells. Differentiation was assessed by measuring creatine kinase activity and by determining the percentage of nuclei in myotubes. The levels of putrescine and spermidine increased in stimulated cultures prior to their differentiation and these increases were blocked by alpha-difluoromethylornithine. Provision of exogenous putrescine was able to reverse the inhibitory effect of the drug. The anti-differentiative effect is observed only if alpha-difluoromethylornithine is added within twenty-four hours of insulin stimulation. In the experimental protocol used, alpha-difluoromethylornithine was added as the cultures approached confluence and had no effect on their ultimate DNA content. Therefore, the effect of alpha-difluoromethylornithine on myoblast differentiation is not secondary to an effect on cellular proliferation. These results indicate that polyamines may be involved in the mediation of muscle cell differentiation.

Contragestational effects of DL-alpha-difluoro-methylornithine, an irreversible inhibitor of ornithine decarboxylase, in the hamster

In the hamster, there are remarkable changes in ODC activity in various uterine reproductive tissues during gestation. When DL-alpha-difluoromethylornithine (DFMO), a highly selective irreversible inhibitor of ODC, is given during the early post-implantation period, when ODC activity in the conceptus is rapidly rising and reaches its highest values, it causes pregnancy arrest. Low doses of DFMO are contragestational only during a short period of gestation (day 7 and 8), with primary action on the embryo. Higher doses given soon after implantation (day 5) induce early pregnancy termination by a primary effect on decidual tissue. Biochemical investigations in animals treated on day 5 or day 7 showed that DFMO induces a rapid and dramatic fall in ODC activity in the products of conception. These findings strengthen and extend previous evidence that ODC and polyamines play an essential role in the maintenance of early pregnancy in rodents.

Changes in polyamine content during limb regeneration in adult Xenopus laevis

Polyamine contents in the regenerates were determined at various stages after amputation of the forelimbs of the adult female Xenopus laevis. Putrescine, spermidine, spermine, and sym-homospermidine were detected in all the specimens examined. Cadaverine was detected only in a limited number of samples. At 5 days after amputation of forelimbs, well before the formation of regenerates, the putrescine content in the stump tissues increased, followed by the increase in spermidine content. The putrescine level in the forelimb regenerates was highest between 30 and 50 days after amputation, and then decreased. The spermidine concentration in the regenerates was about 20 times greater than that in intact forelimbs all throughout the experiments. The concentration of spermine was initially lower than that of both putrescine and spermidine and further decreased soon after amputation. The concentration of sym-homospermidine was originally very low and increased slightly during regeneration. The significance of these results, with respect to the function of polyamines in forelimb regeneration of Xenopus laevis, is discussed.

Polyamine-mediated protein phosphorylations: a possible target for intracellular polyamine action

Polyamines are well-known ubiquitous components of living cells. Although these polycations have been implicated in the regulation of major cellular functions such as DNA, RNA and protein synthesis occurring during cellular proliferation and/or differentiation processes, their mechanism of action at the molecular level has remained obscure. On the other hand, protein phosphorylation has emerged as a regulatory process of prime importance in cellular regulation. Data have recently been presented suggesting that polyamines may express at least part of their biological action through an effect upon selective protein phosphorylation systems. Two types of polyamine-sensitive protein kinases have been characterized in the last few years. The best known in molecular terms is the widespread casein kinase G (also termed casein kinase II), which represents a multifunctional protein kinase, at present classified as a messenger-independent activity. The other is a polyamine-dependent nuclear ornithine decarboxylase kinase characterized in Physarum polycephalum and several mammalian tissues. Both protein kinases are activated by polyamines in vitro at concentrations compatible with a physiological role, by a mechanism which most likely also involves an effect through the protein substrate conformation. Preliminary evidence suggests that both kinases may be implicated in the regulation of DNA-dependent RNA polymerase activities, although several other potential substrates have been suggested for casein kinase G. Another suggestion is that these kinases may also participate in the post-translational regulation of ornithine decarboxylase, the rate-limiting step in the polyamine biosynthetic pathway. A novel class of protein kinase activities may thus be defined as polyamine-mediated phosphorylation systems for which polyamines may function as intracellular messenger. Although their biological significance remains to be fully established, especially with regard to the definition of their specific intracellular target(s) and subsequent biological functions, these systems will be interesting to consider in future studies aimed at understanding the role of polyamines in cell regulation.

Glucocorticoid effects on thymidine incorporation into the DNA of S49 lymphoma cells

The effects of glucocorticoids on lymphoid cell growth and thymidine incorporation into DNA were studied using the S49 mouse lymphoma cell line. Glucocorticoid-mediated lymphocytolysis in these cells is preceded by an arrest in the G1 phase of the cell cycle [1]. However, this arrest is only partial, and is reversible by washing out the hormone. Thus, although the overall impression is that these cells are arrested in G1 and then begin to die, they apparently can escape the arrest and proceed through the cell cycle, albeit at a relatively low level. The mode of DNA synthesis in these glucocorticoid-treated cells is replicative and not repair. The importance of the inhibition of thymidine incorporation to the cell death process in S49 cells is evident from experiments in which cells are treated with both the hormone and various DNA synthesis inhibitors; a synergistic killing of the cells is obtained. Thus, the inhibition of DNA synthesis and cell proliferation is a rapid, and perhaps primary effect of glucocorticoids on the complex process of hormone-mediated lymphocytolysis in this mouse cell line.

Arginase activity of different cells in tissue culture

Arginase activity was measured in ten different cell lines and all of them showed arginase activity. However, the amount of the activity in the cells varied more than 1000-fold. The cell density did not appear to affect the arginase activity much, since cultures of human fibroblasts grown to different cell densities exhibited only small variations in arginase activity. Arginase activity was in general higher than that of ornithine decarboxylase and there was no correlation between the two activities. When human fibroblasts were stimulated to proliferate in serum-free medium by adding certain growth factors the activity of ornithine decarboxylase increased markedly prior to the DNA synthesis, while the arginase activity increased more slowly and to a much smaller degree. Two cell lines, baby hamster kidney and mouse 3T3 cells, had low arginase activity when adapted to grow in serum-free medium, but in spite of this they were able to grow in serum-free medium without exogenous ornithine.

Isolation and partial characterization of three histone-specific acetyltransferases from Artemia

Three histone-specific acetyltransferases have been characterized in Artemia by the criteria of cell compartmentation, chromatographic behaviour, substrate specificity and regulatory properties. Acetyltransferase I is a chromatin-bound enzyme with affinity for DNA-cellulose. This enzyme can acetylate histones H1, H3 and H4, but the acetylation of H1 is markedly inhibited in the presence of H4. Acetyltransferases II and III are cytoplasmic and were resolved by phosphate elution from hydroxyapatite. The isoenzyme II is highly specific for histone H4, whose acetylation is increased in the presence of H1. The acetyltransferase III is active with the three histone fractions, but its specificity is modulated through the cooperation of H4 (as inhibitor of the acetylation of H1) and H1 (as activator of H4 acetylation). Spermine was confirmed as a specific activator of the acetyltransferase I, with subsaturating concentrations of H3 as substrate.

The effects of nerve growth factor on polyamine metabolism in PC12 cells

Nerve growth factor treatment produces a large increase in the activity of ornithine decarboxylase and a moderate decrease in the activity of S-adenosylmethionine decarboxylase in PC12 cells. These changes are reflected weakly, if at all, in the levels of putrescine, spermidine, and spermine in the cells. The rates of polyamine synthesis are increased somewhat more than the overall levels, but still are not comparable in extent to the increase in the ornithine decarboxylase activity. Inhibitors of ornithine decarboxylase and S-adenosylmethionine decarboxylase have their expected effects on the induction of ornithine decarboxylase and on the activities of both enzymes. Neither inhibitor alone, nor a combination of inhibitors, altered the rate or extent of nerve growth factor-induced neurite outgrowth in the cells.

Sodium ion concentrations in uterine flushings from "implanting" and "delayed implanting" mice

The uteri of mice were flushed with isotonic mannitol (1) on the day of implantation during normal pregnancy or (2) during delay of implantation. The Na+ concentration in flushings was reduced during diapause but had increased by 65% 24 h after progesterone-treated ovariectomized mice received estrogen injections. The results suggest that the apparent metabolic quiescence of diapausing blastocysts may, in part, be a consequence of lower (Na+) in the uterus during delay of implantation.

DNA fragmentation in S49 lymphoma cells killed with glucocorticoids and other agents

The effects of glucocorticoids on DNA integrity in the mouse S49 lymphoma cell line were assessed. DNA cleavage at the internucleosomal regions was observed, and this response was correlated to the dose of hormone used and the time of treatment. Also, an apparent steroid specificity was observed: internucleosomal cleavage was associated only with treatment of the cells with glucocorticoids. Cells treated with dibutyryl cyclic AMP (which also causes lymphocytolysis) also exhibited DNA cleavage. However, when cells were killed with various DNA synthesis inhibitors and other lethal agents, the same DNA cleavage pattern was observed. Furthermore, new protein synthesis did not seem to be required, since cells killed with puromycin and cycloheximide also exhibited internucleosomal DNA fragmentation. Although DNA fragmentation may not be a specific early effect of glucocorticoid-mediated lymphocytolysis, it may be the final, irrevocable step in this complex process.

Discordant regulation by luteinizing hormone of ornithine decarboxylase activity and testosterone production in isolated rat testicular cells in vitro

Possible functional relationship between luteinizing hormone-stimulated ornithine decarboxylase and testosterone production was examined in rat testicular interstitial cells in vitro. Although luteinizing hormone enhanced both ornithine decarboxylase activity and testosterone production at a similar physiological dose range, we found dissociation in the two responses in terms of their temporal aspect and the way they were affected by an irreversible inhibitor of ornithine decarboxylase, alpha-difluoromethylornithine, and protein synthesis inhibitor cycloheximide. The results suggest that there appears to be no causal coupling between luteinizing hormone-stimulated enzyme activity and testicular steroidogenesis.

Polyamine starvation causes parallel increase in nuclear and chromosomal aberrations in a polyamine-dependent strain of CHO

Deprivation of polyamines and ornithine causes in a polyamine-dependent CHO strain aneuploidy and alterations in nuclear morphology including micronuclei, macronuclei, framented and bulged nuclei. There is also formation of multinucleate cells. The number of micronuclei and certain other nuclear aberrations increase concomitantly with chromosome abberrations.

Polyamine starvation causes accumulation of cadaverine and its derivatives in a polyamine-dependent strain of Chinese-hamster ovary cells

Starvation of the polyamine-dependent Chinese-hamster ovary cells for ornithine or ornithine-derived polyamines in serum-free culture resulted in the formation of cadaverine and its aminopropyl derivatives, N-(3-aminopropyl)cadaverine and NN'-bis(3-aminopropyl)cadaverine. The synthesis of these unusual amines was inhibited by treatment of the cells with DL-2-difluoromethylornithine, a specific inhibitor of ornithine decarboxylase (EC 4.1.1.17). In the absence of ornithine (the normal substrate), ornithine decarboxylase thus appeared to catalyse the decarboxylation of lysine to cadaverine. Cell proliferation was markedly inhibited by ornithine deprivation of the cells, and further depressed by exposure of the cultures to difluoromethylornithine.

Growth regulatory effects of cyclic AMP and polyamine depletion are dissociable in cultured mouse lymphoma cells

Treatment of mouse lymphoma S49 cells with D,L-alpha-difluoromethylornithine (DFMO), an inhibitor of ornithine decarboxylase, depleted cellular polyamine levels and stopped cell growth. The cells were arrested predominantly in G1. Thus, polyamine depletion may lead to a regulatory growth arrest in S49 cells. We tested two hypotheses regarding the relationship of growth arrest mediated by polyamine limitation to that mediated by cyclic AMP (cAMP). The hypothesis that cAMP-induced arrest results from polyamine depletion is not tenable, because the arrest could not be reversed by addition of exogenous polyamines, and because cellular polyamine levels do not drop in dibuturyl cyclic AMP (Bt2cAMP)-arrested cells. The hypothesis that polyamine-mediated growth arrest is effected via modulation of cAMP levels or cAMP-dependent protein kinase activity was also shown to be incorrect, because a S49 variant deficient in cAMP-dependent protein kinase was arrested by DFMO. The activities of the polyamine-synthesizing enzymes ornithine decarboxylase (ODC) and S-adenosyl methionine decarboxylase (SAMD) are both reduced in Bt2cAMP-treated cells to about 10% of that in control populations, as shown previously. DFMO diminishes ODC activity and augments SAMD activity in both untreated and Bt2cAMP-treated cells, leading to polyamine depletion in both cases.

Occurrence of 5'-deoxy-5'-methylthioadenosine phosphorylase in the mammalian CNS: distribution and kinetic studies on the rat brain enzyme

5'-Deoxy-5'-methylthioadenosine (MTA) phosphorylase catalyzes the cleavage of MTA, a secondary product of polyamine biosynthesis, to 5-methylthioribose-1-phosphate and adenine. The occurrence and the general properties of the enzyme were studied in mammalian brain with the following results. (1) Cerebral tissues contained levels of MTA phosphorylase that were comparable to those occurring in other mammalian tissues. (2) Interspecies differences in the enzyme distribution were quite limited, with the highest specific activity values observed in pig brain. Moreover, the enzyme seemed to be generally more concentrated in the cerebellar fractions. (3) Rat brain MTA phosphorylase was highly localized in the cellular soluble fraction. In the first days of rat life, its specific activity in the whole brain was observed to decline significantly from a value of 17.6 units/mg at 1-5 days of age to 13.7 units/mg at 6-10 days of age, remaining then fairly constant up to maturity. (4) Kinetic studies performed with the soluble enzyme extracted from rat brain showed: a pH optimum of 7.4; a Km value for MTA of about 10 microM; an inhibitory effect of the MTA analog 5'-deoxy-5'-isobutylthioadenosine; and a remarkable resistance of the enzyme to heat treatment.

Polyamines in early embryonic development: their relationship to nuclear multiplication rate, cell cycle traverse, and nucleolar formation in a dipteran egg

Polyamine synthesis and accumulation were assessed from fertilization until gastrulation in a dipteran egg (Calliphora erythrocephala Meigen). Spermidine synthesis was activated immediately after fertilization, generating a broad spermidine peak during early cleavage. This period is characterized by the most rapid nuclear multiplication known from animal material. Cleavage consists of nuclear multiplication only, and the egg remains syncytial until gastrulation. After nine synchronous nuclear divisions with a cycle length of 10 min, the cycle length is gradually increased to 20 min during the subsequent four parasynchronous nuclear divisions. The spermidine level decreased in parallel with this decreasing rate of nuclear division. The interphase of the next nuclear cycle is remarkably prolonged and lasts for more than 90 min, i.e., until after the onset of gastrulation. It consists of an initial short S phase followed by a longer G2 phase; G1 is extremely short or absent. During this prolonged interphase, spermidine content showed a biphasic pattern of changes with peaks during S and late G2. The S-phase peak also coincides with the first appearance of nucleoli during embryogenesis. The late-G2-phase peak coincides with the period of rapid cytokinesis, during which all nuclei in the peripheral layer of the syncytium become separated by membranes forming a cellular blastoderm. The polyamine pattern is consistent with the idea that the polyamines play an important role in DNA replication and in cytokinesis as well as in nucleolar formation.

Differences in polyamine availability and insertion into fibronectins released from normal and transformed cells

1. Fibronectin released from transformed rat kidney cells compared with that released from normal rat kidney cells shows a 50% increase in amino group availability. 2. No such changes were observed in thiol and carboxy group availability or in sialic acid content. 3. The increased amino group availability is not due to a greater polyamine content, which was about 0.04 pmol/mg of protein. 4. Transglutaminase mediated the insertion of spermidine into normal cell fibronectin with linear kinetics. With fibronectin from transformed cells (temperature-sensitive mutant or wild-type), kinetics typical of substrate inhibition were observed. 5. Immunochemical analysis with an anti-polyamine antiserum and an anti-(human fibronectin) antiserum showed that fibronectins from normal and transformed cells react differently. The significance of these results is discussed in the light of changes in the secondary structure between the two fibronectins.

Polyamine dependence of Chinese hamster ovary cells in serum-free culture is due to deficient arginase activity

We recently isolated a Chinese hamster ovary cell line which grows well without serum but requires the exogenous polyamines putrescine, spermidine or spermine for continuous replication. Here we show that these cells are defective in the arginase-catalyzed synthesis of ornithine, the precursor of polyamines, and that ornithine can replace polyamines in the medium for supporting growth of the cells. The activities of two other key enzymes of polyamine biosynthesis, ornithine decarboxylase and adenosylmethionine decarboxylase, are clearly detectable and show increase during polyamine starvation. In ornithine-and polyamine-free medium cellular putrescine and spermidine are rapidly depleted while the concentration of spermine decreases only moderately. We show further that the cells are able to grow in serum-containing medium without added ornithine or polyamines. This is explained by our finding that serum contains arginase which synthesizes ornithine from arginine in the medium. All the sera from different animal species tested contained arginase activity although in greatly varying amounts. Serum-free medium is therefore essential for expression of arginase deficiency in cells in tissue culture. The eventual importance of polyamines for serum-free cultures in general is discussed.

Spermine-binding protein and polyamine metabolism in duodenal mucosa of chick embryo

The spermine-binding activity of a cytosolic protein from chick intestine increases during embryogenesis and in the first week of life. Ornithine and S-adenosylmethionine decarboxylase activities assayed under the same experimental conditions increase showing a maximum at day 18 and 20 respectively. The behaviour of either enzyme activity is reflected in the pattern of duodenal polyamine concentration measured during the same period. The possibility that duodenal spermine-binding protein may be correlated with spermine accumulation in the tissue is discussed.

Independent induction and inhibition of ornithine decarboxylase and aryl hydrocarbon hydroxylase activities in rat epidermis

Changes in the activities of ornithine decarboxylase (ODC) and aryl hydrocarbon hydroxylase (AHH) were investigated in rat epidermis after wounding the skin and application of 7,12-dimethylbenz(a)anthracene (DMBA), 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), and several enzyme inhibitors. Wounding of the skin by vigorous shaving led to a marked induction of ODC activity with a peak at 6 hr. Topical application of a single dose of tetradecanoylphorbol-13-acetate to wounded skin did not affect the activities of ODC and AHH. Application of single large dose (2.5 mg) of DMBA increased AHH activity 7-fold without affecting ODC activity. DL-alpha-difluoromethyl ornithine, a specific irreversible inhibitor of ODC, almost completely abolished ODC activity but did not inhibit DMBA- or TCDD-induced AHH activity. Several potential modifiers, including retinoic acid, indomethacin, 1,3-diamino-2-propranol, alpha-naphthoflavone, and SKF 525 A had unequal effects on ODC and AHH activities. These data indicate that ODC and AHH induction processes in the epidermis are independent biochemical events that are not causally related.

The accumulation of diamines and polyamines into rat lung slices

The diamine cadaverine, and the polyamines spermidine and spermine have been shown to accumulate into rat lung slices by an uptake process which obeyed saturation kinetics. The apparent Km values for the accumulation process of cadaverine, spermidine and spermine were 19, 11 and 15 microM respectively with Vmax values of 937, 768 and 617 nmoles/g wet weight/hr respectively. The accumulation was KCN sensitive, indicative of an energy dependent process, although spermine did show some non-specific binding to lung tissue. Cadaverine, spermidine and spermine were not accumulated by slices of liver, kidney, heart and spleen to concentrations much greater than that in the medium. They were accumulated, however, by a KCN sensitive process into brain slices although the accumulation was much less than that which occurred in lung slices. The diamine, putrescine, exhibited a concentration-dependent inhibition of the ability of lung slices to accumulate cadaverine and the polyamines. These data have led us to conclude that the transport process in the lung, which has recently been shown to accumulate the diamine putrescine, is also capable of accumulating cadaverine, spermidine and spermine. Thus, by analogy with putrescine, there exists in specific lung cells a membrane receptor(s) which is selective in its acceptance and transport of diamines and polyamines.

Effects of S-adenosyl-1,8-diamino-3-thiooctane on polyamine metabolism

Exposure of mammalian cells (transformed mouse fibroblasts or rat hepatoma cells) to S-adenosyl-1,8-diamino-3-thiooctane produced profound changes in the intracellular polyamine content. Putrescine was increased and spermidine was decreased, consistent with the inhibition of spermidine synthase by this compound, which is a potent and specific "transition-state analogue inhibitor" of the isolated enzyme in vitro. The spermine content of the cells was increased by exposure to this drug presumably since spermine synthase was able to use a greater proportion of the available decarboxylated S-adenosylmethionine when spermidine synthase was inhibited. The decarboxylated S-adenosylmethionine content rose substantially because the activity of S-adenosylmethionine decarboxylase was increased in response to the decline in spermidine. These results indicate that S-adenosyl-1,8-diamino-3-thiooctane is taken up by mammalian cells and is an effective inhibitor of spermidine synthase in vivo and that S-adenosylmethionine decarboxylase is regulated by the content of spermidine, but not of spermine. The growth of SV-3T3 cells was substantially reduced in the presence of S-adenosyl-1,8-diamino-3-thiooctane at concentrations of 50 microM or greater. Such inhibition was reversed by the addition of spermidine but not by putrescine. When SV-3T3 cells were exposed to 5 mM alpha-(difluoromethyl)ornithine and 50 microM S-adenosyl-1,8-diamino-3-thiooctane, the content of all polyamines was reduced. Putrescine and spermidine declined by more than 90% and spermine by 80%. Such cells grew very slowly unless spermidine was added.

Amine-specificity of the inactivating ornithine decarboxylase modification in Physarum polycephalum

The enzyme catalysing the polyamine-stimulated modification of Physarum ornithine decarboxylase in vivo was partially purified and its activity on purified ornithine decarboxylase was examined with respect to its specificity for various amines. Spermidine, spermine and several polyamine analogues strongly promoted this reaction in vitro (apparent Km in the 0.1--0.5 mM range), whereas putrescine (apparent Km 5.33 mM) and several related diamines were not nearly as effective. In agreement with this, sensitivity studies performed in vivo also suggested that cellular spermidine, and not putrescine, is critical in modulating ornithine decarboxylase activity by this post-translational control. Unlike putrescine, or other diamines, 1,3-diaminopropane demonstrated a functional similarity to the polyamines in stimulating this reaction. This study has demonstrated a method whereby non-physiological amines capable of depressing ornithine decarboxylase activity by this natural feedback mechanism can be readily identified for further evaluation of their potential use in the experimental and medical control of polyamine biosynthesis.

Autoradiographic identification of ornithine decarboxylase in mouse kidney by means of alpha-[5-14C]difluoromethylornithine

alpha-Difluoromethylornithine is an enzyme-activated irreversible inhibitor of ornithine decarboxylase that forms a covalent bond with the enzyme. When alpha-[5-14C]difluoromethylornithine was administered to androgen-treated mice, only ornithine decarboxylase became labeled. Autoradiographic examination of kidney, liver, and brain indicated much more extensive incorporation of labeled difluoromethylornithine into kidney protein than into the protein of the other tissues. Such incorporation was greatly reduced by prior treatment of the mice with cycloheximide. These results correlate with the presence of ornithine decarboxylase activity which is much higher in the kidney than in the other tissues and is lost rapidly when protein synthesis is inhibited. The binding of this drug in vivo, therefore, is useful for determining the distribution of ornithine decarboxylase. The enzyme was predominantly located in the proximal tubule cells of the kidney in androgen-treated mice.