Methods for the study of the physiological effects of inhibitors of polyamine biosynthesis in mitogen-activated lymphocytes

Acrolein toxicity: Comparison with reactive oxygen species

The toxicity of acrolein was compared with that of reactive oxygen species using a mouse mammary carcinoma FM3A cell culture system. Complete inhibition of cell growth was accomplished with 10 microM acrolein, 100 microM H(2)O(2), and 20 microM H(2)O(2) plus 1mM vitamin C, which produce ()OH, suggesting that toxicity of acrolein is more severe than H(2)O(2) and nearly equal to that of ()OH, when these compounds were added extracellularly. Acrolein toxicity was prevented by N-acetyl-l-cysteine and N-benzylhydroxylamine, and attenuated by putrescine and spermidine. Toxicity of H(2)O(2) was prevented by glutathione peroxidase plus N-acetyl-l-cysteine, pyruvate, catalase, and reduced by polyphenol, and toxicity of ()OH was prevented by glutathione peroxidase plus N-acetyl-l-cysteine, pyruvate, catalase and reduced by N-acetyl-l-cysteine. The results indicate that prevention of cell toxicity by N-acetyl-l-cysteine was more effective with acrolein than with ()OH. Protein and DNA synthesis was damaged primarily by acrolein and reactive oxygen species, respectively.

Methotrexate differentially affects growth of suspension and adherent cells

The effects of low concentrations of methotrexate (MTX) on the growth of suspension (FM3A, 2B4 and THP-1) and adherent (NIH3T3 and V79) cells were compared. The concentration of methotrexate to cause the inhibition of cell growth was lower in suspension cells than in adherent cells. The IC(50) for FM3A, 2B4, THP-1, NIH3T3 and V79 cells were 3.5, 5, 9, 30 and 50 nM, respectively. The inhibition of cell growth was reversed completely by tetrahydrofolate and was fully or significantly reversed by adenosine and thymidine, suggesting that the effects of low concentrations of methotrexate result from the inhibition of biosynthesis of purines and pyrimidines. In suspension cells but not in adherent cells there was a decrease in the levels of S-adenosylmethionine and polyamines after methotrexate treatment. Growth of suspension but not adherent cells was significantly recovered by treatment with S-adenosylmethionine. However, treatment with spermidine did not reverse the effects of methotrexate in any of the cell lines. The preferential inhibitory effect of methotrexate in suspension cells versus adherent cells was due mainly to a more rapid uptake of methotrexate. This may be relevant to the in vivo effects of low doses of methotrexate, which have immunosuppressive and anti-inflammatory effects, because lymphocytes are suspension cells.

Inhibition of cell growth through inactivation of eukaryotic translation initiation factor 5A (eIF5A) by deoxyspergualin

The mechanism of inhibition of cell growth by deoxyspergualin was studied using mouse mammary carcinoma FM3A cells. Results of studies using deoxyspergualin analogues showed that both the guanidinoheptanate amide and glyoxyspermidine moieties of deoxyspergualin were necessary to cause inhibition of cell growth. When deoxyspergualin was added to the medium, there was a strong inhibition of cell growth and formation of active eukaryotic translation initiation factor 5A (eIF5A) at the third day of culture. There was also a marked decrease in cellular putrescine content and a small decrease in spermidine content. Accumulation of decapped mRNA, which is typically associated with eIF5A deficiency in yeast, was also observed. The inhibition of cell growth and the formation of active eIF5A was not reversed by addition of spermidine. The activity of deoxyhypusine synthase, the first enzyme in the formation of active eIF5A, was inhibited by deoxyspergualin in a cell-free system. These results, taken together, indicate that inhibition of active eIF5A formation is strongly involved in the inhibition of cell growth by deoxyspergualin.

Polyamine cytotoxicity in the presence of bovine serum amine oxidase

The toxicity of extracellular spermine, determined in the presence of fetal calf serum, was studied using three cell lines: FM3A, L1210, and NIH3T3 cells. Amine oxidase in fetal calf serum produces aminodialdehyde generating acrolein spontaneously, H(2)O(2), and ammonia from spermine. Spermine toxicity was prevented by aldehyde dehydrogenase, but not by catalase. Similar concentrations of spermine and acrolein were needed to produce toxicity. Other aldehydes (formaldehyde, acetaldehyde, and propionaldehyde) and hydrogen peroxide were less toxic than acrolein. Spermidine and 3-aminopropanal, which produces acrolein, also exhibited severe cytotoxicity. The degree of cytotoxicity of spermine, spermidine, and 3-aminopropanal was nearly parallel with the amount of acrolein produced from each compound. Thus, it was deduced that acrolein is a major toxic compound produced from polyamines (spermine and spermidine) by amine oxidase.

Lymphocyte p56L32 is a RNA/DNA-binding protein which interacts with conserved elements of the murine L32 ribosomal protein mRNA

In previous studies of the ribosomal protein L32 mRNA, we demonstrated that a conserved polypyrimidine tract found in the 5'-untranslated region (5'-UTR) was required for translational regulation in vivo and that a 56-kDa protein (p56L32) from T-lymphocytes specifically interacts with this sequence [Kaspar, R. L., Kakegawa, T., Cranston, H., Morris, D. R. & White, M. W. (1992) J. Biol. Chem. 267, 508-514]. Here we show that p56L32 binding to the L32 5'-UTR is complex and requires other 5'-UTR RNA sequences in conjunction with the polypyrimidine tract. Deletion and site-directed mutagenesis studies revealed that binding of p56L32 to the L32 5'-UTR requires a second RNA element, GGUGGCUGCC, 15 nucleotides downstream from the polypyrimidine tract. In contrast, L32 RNA transcripts altered in this downstream element were good substrates for binding of the polypyrimidine binding proteins from HeLa nuclear extracts, indicating that these proteins have RNA-binding specificities distinct from p56L32. Competition analysis demonstrated that p56L32 will bind to DNA as well as RNA with identical sequence specificity and similar affinity. Single or double-stranded DNAs composed of the L32 5'-UTR sequences were found to specifically compete with L32 RNA transcripts for p56L32 binding. The L32 5'-UTR downstream element, GGUGGCUGCC, which is required for p56L32 binding, has previously been implicated as a transcriptional element of the L32 gene. The ability of p56L32 to bind this sequence as DNA or RNA suggests p56L32 may have a dual role in the regulation of ribosomal protein mRNA accumulation and translation.

Correlation between the inhibition of cell growth by bis(ethyl)polyamine analogues and the decrease in the function of mitochondria

The antiproliferating effect of nine kinds of bis(ethyl)polyamine analogues [three kinds each of bis(ethyl)triamine, bis(ethyl)tetraamine and bis(ethyl)pentaamine] was compared using FM3A cells. The inhibitory effect was in the order BE4444 > BE3443 > BE4334 > or = BE444 > BE343 > BE333 > BE44 > BE34 > BE33. Our results indicate that not only polyamine deficiency but also the accumulation of polyamine analogues is involved in the inhibition of cell growth. Accumulation of bis(ethyl)polyamine analogues caused the inhibition of protein synthesis and the decrease in the ATP content. The protein synthetic system in mitochondria was more strongly inhibited by bis(ethyl)polyamine analogues than that in the cytoplasm. Under conditions such that cytoplasmic protein synthesis was inhibited by 50% by bis(ethyl)polyamine analogues, mitochondrial protein synthesis was almost completely inhibited. Mitochondrial Ile-tRNA formation was inhibited by bis(ethyl)polyamine analogues at the concentrations that cytoplasmic Ile-tRNA formation was stimulated. This may be one of the reasons for the selective inhibition of mitochondrial protein synthesis. This inhibition was followed by the decrease in ATP content, swelling of mitochondria and depletion of mitochondrial DNA. These results suggest that the early event of metabolic change caused by bis(ethyl)polyamine analogues in cells is the inhibition of protein synthesis, especially of mitochondrial protein synthesis.

Correlation between the inhibition of cell growth by accumulated polyamines and the decrease of magnesium and ATP

The mechanism of the antiproliferation effect of spermidine and spermine was studied using a cell culture system of mouse FM3A cells. The addition of either 10 mM spermidine or 2 mM spermine to the growth medium containing 0.9 mM Mg2+ greatly inhibited cell growth (more than 90%). A decrease in the Mg2+ concentration to 50 microM in the growth medium, but without the polyamine addition, did not influence cell growth. However, the concentrations of spermidine and spermine necessary for the inhibition of cell growth when cells were cultured in the presence of 50 microM Mg2+ were much smaller (2 mM spermidine and 0.15 mM spermine). Nevertheless, the amount of polyamines accumulating in cells which could cause the inhibition of cell growth was almost the same, regardless of the large difference in the added polyamine concentrations. At the early stage of polyamine accumulation, the inhibition of cell growth correlated with the decrease of Mg2+ content, but not with a decrease of the ATP content. The decrease in Mg2+ content correlated well with the inhibition of macromolecular synthesis, especially protein synthesis. Thus, the inhibition of cell growth at the early stage of polyamine accumulation was thought to be due to the inactivation of ribosomes through the replacement of Mg2+ on magnesium-binding sites by polyamines. The decrease in Mg2+ content was mainly caused by the inhibition of Mg2+ transport by polyamines. At the later stage of polyamine accumulation, a decrease in ATP content was also observed. This was followed by swelling of the mitochondria, which may be a symptom of the subsequent cell death.

Mechanism of the inhibition of cell growth by N1,N12-bis(ethyl)spermine

The mechanism of the antiproliferation effect of N1,N12-bis(ethyl)spermine (BESPM) was studied in detail using mouse FM3A cells, since this polyamine analogue mimics the functions of spermine in several aspects [Igarashi, K., Kashiwagi, K., Fukuchi, J., Isobe, Y., Otomo, S. & Shirahata, A. (1990) Biochem. Biophys. Res. Commun. 172, 715-720]. Our results indicate that not only the decrease in sperimine and spermine caused by BESPM but also its accumulation play important roles on the inhibition of cell growth by BESPM, since BESPM accumulated in cells at a concentration fivefold that of spermidine in control cells. In comparison with the polaymine-deficient cells caused by alpha-difluoromethylornithine, an inhibitor of ornithine decarboxylase, and ethylglyoxal bis(guanylhydrazone), an inhibitor of S-adenosylmethionine decarboxylase, the behavior of polyamine-deficient cells caused by BESPM was different as follows: the inhibition of cell growth by BESPM was not abrogated by spermine or spermidine; polyamine uptake, which is stimulated during polyamine deficiency, was greatly inhibited, while spermidine/spermine N1-acetyltransferase activity, which is inhibited during polyamine deficiency, was enhanced in BESPM-treated cells; thymidine kinase activity did not decrease in BESPM-treated cells; inhibition of cell growth and macromolecule synthesis by BESPM correlated with the swelling of mitochondria and the decrease in ATP content; BESPM caused cell death when incubated together for several days. The role of BESPM accumulation on inhibition of cell growth is discussed.

Spermine-like functions of N1, N12-bis(ethyl)spermine: stimulation of protein synthesis and cell growth and inhibition of gastric ulceration

The spermine analogue N1, N12-bis(ethyl)spermine (BESPM) could mimic the functions of spermine in the following aspects: 1) BESPM could stimulate globin and ornithine decarboxylase synthesis in a rabbit reticulocyte cell-free system; 2) the addition of BESPM to the culture medium could recover cell growth of polyamine-deficient bovine lymphocytes; 3) spermidine uptake by bovine lymphocytes was inhibited by BESPM and spermine to a comparable degree; and 4) stress-induced gastric ulceration was inhibited by subcutaneous administration of BESPM. Since BESPM was less toxic than spermine for mice, BESPM or its derivatives may be useful for diseases which can be cured by polyamines.

Cell type-specific mechanisms of regulating expression of the ornithine decarboxylase gene after growth stimulation

Ornithine decarboxylase (ODC) mRNA is strongly induced by mitogenic activation of resting Swiss 3T3 fibroblasts and T lymphocytes. Nuclear run-on analysis revealed a low level of nascent transcripts in resting fibroblasts that was elevated upon activation. In contrast, there was a high level of transcription across the entire ODC gene in resting T cells, which remained unchanged upon activation. The stability of the mature ODC message was found to be unaffected by mitogenic stimulation. These results indicate that ODC mRNA levels are regulated transcriptionally in Swiss 3T3 cells and posttranscriptionally within the nucleus of T lymphocytes in response to mitogenic stimuli. In this unique situation, the mitogenic induction of a single gene, ODC, is regulated by two very distinct, cell-specific mechanisms.

Cell type-specific mechanisms of regulating expression of the ornithine decarboxylase gene after growth stimulation

Ornithine decarboxylase (ODC) mRNA is strongly induced by mitogenic activation of resting Swiss 3T3 fibroblasts and T lymphocytes. Nuclear run-on analysis revealed a low level of nascent transcripts in resting fibroblasts that was elevated upon activation. In contrast, there was a high level of transcription across the entire ODC gene in resting T cells, which remained unchanged upon activation. The stability of the mature ODC message was found to be unaffected by mitogenic stimulation. These results indicate that ODC mRNA levels are regulated transcriptionally in Swiss 3T3 cells and posttranscriptionally within the nucleus of T lymphocytes in response to mitogenic stimuli. In this unique situation, the mitogenic induction of a single gene, ODC, is regulated by two very distinct, cell-specific mechanisms.

Increased polyamines may downregulate interleukin 2 production in rheumatoid arthritis

Polyamines downregulate immune reactivity. RA is associated with decreased IL 2 production. In this study, we present evidence to suggest that excessive polyamines can contribute to the IL 2 deficiency in RA. Blocking polyamine production with inhibitors of ornithine decarboxylase results in increased IL 2 production by RA PBMC. Moreover, polyamine oxidase (PAO) inhibitors and catalase also increase IL 2 production by RA PBMC. This effect of PAO inhibition is monocyte mediated. After 3 d in culture, RA PBMC produce three times more IL 2 than do normal PBMC. This rise is prevented by exogenous spermidine but only in the presence of monocytes. The concentration of polyamines in RA PBMC and synovial fluid MNC is 2-20-fold higher than in normal cells. Thus, polyamines and their oxidation products downregulate IL 2 production by RA PBMC and may account for the decreased T cell effector function seen in this disease.

Swelling of the Golgi apparatus and decrease of galactosyltransferase in polyamine-deficient bovine lymphocytes and epithelium of mouse small intestine

When bovine small lymphocytes stimulated by concanavalin A were treated with inhibitors (alpha-difluoromethylornithine (5 mM) and ethylglyoxal bis(guanylhydrazone) (100 microM)] of polyamine biosynthesis, swelling of the Golgi apparatus was observed. This was accompanied by decreases in the amount of the Golgi apparatus and of the specific activity of galactosyltransferase. Both spermidine and spermine, at physiological concentrations, stimulated galactosyltransferase activity 2-3-fold. When mice were treated with these inhibitors, the following changes were observed in the epithelial cells of small intestine: swelling of the Golgi apparatus; decrease in the amount of the Golgi apparatus; and decrease of galactosyltransferase activity.

Characterization of the inducible polyamine transporter in bovine lymphocytes

The polyamine uptake system in bovine lymphocytes was activated by concanavalin A. The system was common to putrescine, spermidine and spermine. The Kt values for uptake activities of putrescine, spermidine and spermine were 3.7 microM, 0.38 microM and 0.23 microM in that order. The uptake activity was inhibited by carbonyl cyanide m-chlorophenylhydrazone, gramicidin D or valinomycin in the presence of 20 mM K+ suggesting that polyamine uptake depends on the membrane potential. The uptake activity appeared 10 h after addition of concanavalin A, and the maximum was reached at 28 h indicating that induction of the polyamine transporter precedes the initiation of DNA synthesis. Addition of polyamine antimetabolites, such as alpha-difluoromethylornithine and ethylglyoxal bis(guanylhydrazone), to the medium enhanced at least eightfold the induction of the polyamine transporter. The induction was repressed by addition of 50 microM spermidine or spermine, but not putrescine. We propose here that the induction of the membrane-potential-dependent polyamine transporter is regulated by the intracellular level of spermidine and spermine.

Regulation of protein synthesis by polyamines

Present experimental data show that the synthesis of ribosomal protein S1 and PI protein was stimulated greatly by polyamines at the early stage after addition of putrescine in polyamine-requiring mutants of E. coli. No macromolecular synthesis was stimulated at this stage. Polyamine stimulation of the synthesis of these proteins probably plays an important role for cell growth. In polyamine-deficient bovine lymphocytes, protein synthesis became perturbed before RNA and DNA synthesis. Among enzymes concerned with DNA replication, thymidine kinase activity was most strongly influenced by polyamines. The activity in polyamine-deficient cells was only 7% of the level in normal cells. Judging from the amount of thymidine kinase mRNA and its distribution in polysomes, it was concluded that polyamines mainly regulate the synthesis of thymidine kinase at the level of initiation of protein synthesis. A polyamine-free protein synthetic system, established from components of rabbit reticulocytes, consisted of globin mRNA, salt-washed ribosomes, partially purified initiation factors, and pH 5 enzymes. Spermidine added to this system not only lowered the optimal magnesium concentration required for globin synthesis, but it also stimulated the globin synthesis 8- to 10-fold. The optimal spermidine concentration was 0.4 to 0.6 mM, a concentration similar to that in intact rabbit reticulocytes. The ratio of alpha to beta globin chains synthesized in the presence of spermidine and Mg2+ was approximately 1.0, while the ratio in the presence of only Mg2+ was approximately 1.5. The results strongly suggest that polyamines play an important role in rabbit reticulocyte protein synthesis.

Increased efficiency of translation of ornithine decarboxylase mRNA in mitogen-activated lymphocytes

Ornithine decarboxylase (ODC) mRNA was elevated ninefold by 6 h following concanavalin A (ConA) stimulation of bovine lymphocytes. Comparison of the increases in ODC mRNA and ODC activity revealed a fivefold discrepancy, which is consistent with a change in efficiency of translation of ODC mRNA. In resting cells, 45% of the total ODC mRNA was associated with particles sedimenting at about 40 S, and therefore was not translated. The untranslated ODC mRNA in resting cells could be completely shifted into polysomes by a 15-min treatment of the cells with appropriate concentrations of cycloheximide. In activated cells, the proportion of ODC mRNA in untranslated material was reduced to 18%. This shift in distribution of ODC mRNA occurred between 6 h and 12 h following mitogen stimulation with no increase in the cellular level of this message. The rate of synthesis of ODC protein was found in increase twofold between 6 h and 12 h, paralleling the increase in the amount of ODC mRNA associated with polysomes. Thus, in this time frame, a decrease in the amount of untranslated ODC mRNA with a corresponding increase in the amount associated with polysomes leads to an increase in the biosynthesis of ODC with no change in the cellular level of the message. These changes in translational efficiency were not observed with actin mRNA.

Different early-signaling pathways coupled to transcriptional and posttranscriptional regulation of gene expression during mitogenic activation of T lymphocytes

Two categories of mitogen-induced mRNAs were defined in T lymphocytes. The type 1 messages (represented by c-myc) were regulated transcriptionally, and their expression seemed to be calmodulin dependent. The type 2 messages (ornithine decarboxylase, actin, and alpha-tubulin) were regulated posttranscriptionally through activation of protein kinase C.

Inhibition of S-adenosylmethionine decarboxylase and diamine oxidase activities by analogues of methylglyoxal bis(guanylhydrazone) and their cellular uptake during lymphocyte activation

Several congeners of methylglyoxal bis(guanylhydrazone) were tested for their ability to inhibit eukaryotic putrescine-activated S-adenosylmethionine decarboxylase (EC 4.1.1.50) and intestinal diamine oxidase (EC 1.4.3.6). All the compounds tested, namely methylglyoxal bis(guanylhydrazone), ethylglyoxal bis(guanylhydrazone), dimethylglyoxal bis(guanylhydrazone) and the di-N"-methyl derivative of methylglyoxal bis(guanylhydrazone), were strong inhibitors of both yeast and mouse liver adenosylmethionine decarboxylase activity in vitro. The enzyme from both sources was most powerfully inhibited by ethylglyoxal bis(guanylhydrazone). All the diguanidines likewise inhibited diamine oxidase activity in vitro. The maximum intracellular concentrations of the ethyl and dimethylated analogues achieved in activated lymphocytes were only about one-fifth of that of the parent compound. However, both derivatives appeared to utilize the polyamine-carrier system, as indicated by competition experiments with spermidine.