Spermine-induced toxicity in cerebellar granule neurons is independent of its actions at NMDA receptors

The neurotoxic actions of polyamines such as spermine have been linked to their modulation of NMDA receptors, resulting in an excitotoxic cell death. Here, we demonstrate that chronic exposure to the polyamine spermine and acute exposure to the combination of spermine and glutamate result in significant toxicity to primary cultures of cerebellar granule neurons (CGNs). However, in both cases this cell death (a) lacks the characteristic cell swelling associated with the necrotic cell death induced by glutamate and (b) is characterized by the widespread formation of apoptotic nuclei. Whereas dizocilpine (MK-801) blocks the synergistic cell death resulting from acute exposure to spermine plus glutamate, neither MK-801 nor the calcium chelator EGTA appreciably attenuates CGN death resulting from chronic exposure to spermine. Consistent with previous reports, glutamate, both acute and chronic, causes CGN death that is characterized by cell swelling, sensitivity to MK-801 and EGTA, and only small numbers of apoptotic nuclei. Spermine-induced toxicity is not blocked by either the protein synthesis inhibitor cycloheximide or the pancaspase inhibitor tert-butoxycarbonyl-Asp-(O-methyl) fluoromethyl ketone. However, the antioxidant butylated hydroxyanisole is an effective blocker of spermine-induced CGN death, suggesting a free-radical component to this cell death. The intact spermine molecule, rather than a catabolic by-product, is required for cell death because the amine oxidase inhibitors N1,N2-bis(2,3-butadienyl)-1,4-butanediamine and aminoguanidine fail to block this toxicity. Thus, in CGNs, spermine-induced toxicity does not occur by its modulation of NMDA receptors, although, under some circumstances, NMDA receptor activation can modulate spermine-induced toxicity.     

多胺生物合成的抑制对转化细胞c－Ha－ras癌基因表达的调控

抗多胺代谢剂──二氟甲基鸟氨酸（ＤＦＭＯ）作用于经含点突变的Ｈａ－ｒａｓ基因片段转染的转化细胞（ＨＲ－１细胞）引起细胞生长的抑制,其抑制率随ＤＦＭＯ浓度的增加而增大,此时细胞多停滞于Ｇ_１期;多胺合成的关键酶鸟氨酸脱羧酶（ＯＤＣ）活性显著下降;Ｈａ－ｒａｓ癌基因ｍＲＮＡ及ｒａｓＰ~（２１）蛋白的表达受到抑制;而外源性腐胺与ＤＦＭＯ的同时加入可防止上述一系列改变的发生,说明ＤＦＭＯ使ＨＲ－１细胞某些表型向亲本细胞逆转的作用是与细胞多胺生物合成的抑制直接相关。     

Effects of MDL 72527, a Specific Inhibitor of Polyamine Oxidase, on Brain Edema, Ischemic Injury Volume, and Tissue Polyamine Levels in Rats After Temporary Middle Cerebral After Occlusion

Abstract The possible effects of the polyamine interconversion pathway on tissue polyamine levels, brain edema formation, and ischemic injury volume were studied by using a selective irreversible inhibitor, MDL 72527, of the interconversion pathway enzyme, polyamine oxidase. In an intraluminal suture occlusion model of middle coerebral artery in spontaneously hypertensive rats, 100 mg/kg MDL 72527 changed the brain edema formation from 85.7 ± 0.3 to 84.5 ± 0.9% in cortex ( P < 0.05) and from 79.9 ± 1.7 to 78.4 ± 2.0% in subcortex (difference not significant). Ischemic injury volume was reduced by 22% in the cortex ( P < 0.05) and 17% in the subcortex ( P < 0.05) after inhibition of polyamine oxidase by MDL 72527. There was an increase in tissue putrescine levels together with a decrease in spermine and spermidine levels at the ischemic site compared with the nonischemic site compared with the nonischemic site after ischemia-reperfusion injury. The increase in putrescine levels at the ischemic cortical and subcortical region was reduced by a mean of 45% with MDL 72527 treatment. These results suggest that the polyamine interconversion pathway has an important role in the postischemic increase ini putrescine levels and that blocking of this pathway can be neuroprotective against neuronal cell damage after temporary focal cerebral ischemia.     

Effect of thermospermine on expression profiling of different gene using massive analysis of cDNA ends (MACE) and vascular maintenance in Arabidopsis

Arabidopsis thaliana polyamine oxidase 5 gene (AtPAO5) functions as a thermospermine (T-Spm) oxidase. Aerial growth of its knock-out mutant (Atpao5-2) was significantly repressed by low dose(s) of T-Spm but not by other polyamines. To figure out the underlying mechanism, massive analysis of 3′-cDNA ends was performed. Low dose of T-Spm treatment modulates more than two fold expression 1,398 genes in WT compared to 3186 genes in Atpao5-2. Cell wall, lipid and secondary metabolisms were dramatically affected in low dose T-Spm-treated Atpao5-2, in comparison to other pathways such as TCA cycle-, amino acid- metabolisms and photosynthesis. The cell wall pectin metabolism, cell wall proteins and degradation process were highly modulated. Intriguingly Fe-deficiency responsive genes and drought stress-induced genes were also up-regulated, suggesting the importance of thermospermi′ne flux on regulation of gene network. Histological observation showed that the vascular system of the joint part between stem and leaves was structurally dissociated, indicating its involvement in vascular maintenance. Endogenous increase in T-Spm and reduction in H₂O₂ contents were found in mutant grown in T-Spm containing media. The results indicate that T-Spm homeostasis by a fine tuned balance of its synthesis and catabolism is important for maintaining gene regulation network and the vascular system in plants.     

Increased blood spermine levels decrease the cytotoxic activity of lymphokine-activated killer cells: a novel mechanism of cancer evasion

Increased blood polyamine levels, often observed in cancer patients, have negative impacts on patient prognosis and are associated with tumor progression. The purpose of our study was to examine the effects of polyamines on cellular immune function. Peripheral blood mononuclear cells (PBMCs) from healthy volunteers were cultured with the human natural polyamines spermine, spermidine, or putrescine, and the effects on immune cell function were examined. The correlation between post-operative changes in blood polyamine levels and lymphokine-activated killer (LAK) activity was also examined in cancer patients. Spermine decreased the adhesion of non-stimulated PBMCs to tissue culture plastic in a dose- and a time-dependent manner without affecting cell viability or activity. This decrease in adhesion capacity was accompanied by a decrease in the number of CD11a bright-positive and CD56 bright-positive cells. Upon stimulation with interleukin 2 to activate LAK cytotoxicity, PBMCs cultured overnight with 100 or 500 μM spermine showed decreased cytotoxic activity against Daudi cells (91.5 ± 1.7 and 84.9 ± 3.0%, respectively (n = 6) compared to PBMC cultured without polyamines). In a group of 25 cancer patients, changes in blood spermine levels after surgery were negatively correlated with changes in LAK cytotoxicity after surgery (r = −0.510, P = 0.008: n = 25). Increased blood spermine levels may be an important factor in the suppression of anti-tumor immune cell function.     

Comprehensive analysis of polyamine transport and biosynthesis in the dominant human gut bacteria: Potential presence of novel polyamine metabolism and transport genes

Recent studies have reported that polyamines in the colonic lumen might affect animal health and these polyamines are thought to be produced by gut bacteria. In the present study, we measured the concentrations of three polyamines (putrescine, spermidine, and spermine) in cells and culture supernatants of 32 dominant human gut bacterial species in their growing and stationary phases. Combining polyamine concentration analysis in culture supernatant and cells with available genomic information showed that novel polyamine biosynthetic proteins and transporters were present in dominant human gut bacteria. Based on these findings, we suggested strategies for optimizing polyamine concentrations in the human colonic lumen via regulation of genes responsible for polyamine biosynthesis and transport in the dominant human gut bacteria.     

Identification of N1-acetylnorspermidine in Vibrio parahaemolyticus and an enzyme activity responsible for its formation

Abstract N ¹-Acetylnorspermidine [CH₃CONH(CH₂)₃NH(CH₂)₃NH₃] was identified in Vibrio parahaemolyticus , which contains norspermidine as a major polyamine. This is the first example for the natural occurence of monoacetylated unusual polyamine. The N ¹-acetylnorspermidine content was the highest 4 h after inoculation. Incubation of norspermidine and acetyl CoA with a cell extract from V. parahaemolyticus produced N ¹-acetylnorspermidine. A remarkable increase in specific activity of the acetyltransferase was observed at the exponential phase of growth. Spermidine also served as a substrate for the enzyme, with the formation of two isomers of the acetylspermidines ( N ¹-acetylspermidine was predominant), but the reaction rate was less than 50% of that with norspermidine. These results suggest that norspermidine in V. parahaemolyticus may be associated with the cell growth and its role may be controlled through acetylation, as reported for spermidine in Escherichia coli .     

Protein-polyamine conjugation by transglutaminase in cancer cell differentiation: Review article

Summary. Considerable and intense progress has been made in the understanding of the chemistry, molecular biology and cell biology of transglutaminases (TGases: EC 2.3.2.13). The knowledge that very different processes such as cell growth, reproduction and death are dependent on the presence of adequate levels of these enzymes and that the amount of both free and protein-conjugated polyamines, formed by the enzyme, are capable of modulating the differentiation and proliferative capability of several cell types, has prompted a multitude of researchers to study the role of these fascinating molecules in cancer cell differentiation.     

Analysis of polyamine biosynthetic- and transport ability of human indigenous Bifidobacterium

Bifidobacteria are members of the human intestinal microbiota, being numerically dominant in the colon of infants, and also being prevalent in the large intestine of adults. In this study, we measured the concentrations of major polyamines (putrescine, spermidine, and spermine) in cells and culture supernatant of 13 species of human indigenous Bifidobacterium at growing and stationary phase. Except for Bifidobacterium bifidum and Bifidobacterium gallicum, 11 species contained spermidine and/or spermine when grown in Gifu-anaerobic medium (GAM). However, Bifidobacterium scardovii and Bifidobacterium longum subsp. infantis, which contain spermidine when grown in GAM, did not contain spermidine when grown in polyamine-free 199 medium. Of the tested 13 Bifidobacterium species, 10 species showed polyamine transport ability. Combining polyamine concentration analysis in culture supernatant and in cells, with basic local alignment search tool analysis suggested that novel polyamine transporters are present in human indigenous Bifidobacterium.

Abbreviations: Put: putrescine; Spd: spermidine; Spm: spermine; GAM: Gifu anaerobic medium; BHI: brain-heart infusion     

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.     

DFMO feeding lowers polyamine levels and causes developmental defects in the silkworm Bombyx mori

The domesticated silkworm Bombyx mori is an economically important insect that produces large quantities of silk during its 5th instar larval stage. Polyamines are important regulators of growth and have been shown to affect silk production, however their role in larval development is not completely understood. L-ornithine decarboxylase (ODC), a key regulatory enzyme in the polyamine biosynthetic pathway catalyzes the conversion of ornithine to putrescine, which is further broken down to spermidine and spermine. In this study, we set out to understand the role of ODC on the growth and development of silkworm larvae. We fed 5th instar larvae with α-difluoromethylornithine (DFMO), an ODC inhibitor and studied its impact on larval silk glands. Feeding DFMO did not alter the expression of L-ODC but led to a significant reduction in putrescine and spermidine levels. Furthermore, reduced cellular levels of polyamine led to increased oxidative stress and decreased cell viability. Subsequently, this resulted in several developmental defects at the pupal and moth stages. These findings highlight the importance of ODC in the growth and development of B. mori larvae.     

Comparative role of polyamines division and plastid differentiation of Euglena gracilis

Regulation of polyamine biosynthesis during growth and differentation of Euglena gracilis was investigated. Increased activity of l-ornithine decarboxylase (EC 4.1.1.17), the enzyme which catalyzes the initial step in polyamine synthesis in Euglena, and accumulation of polyamines were observed prior to DNA replication in synchronous cultures of heterotropically or photoautotrophically grown cells. In photoatotrophic cells three maxima of polyamine synthesis were observed during the light period of the cell cycle. The transition from quiescence of active growth was accompanied in heterotrophic Euglena by a very large stimulation of ornithine decaboxylase activity and polyamine synthesis; the decrease in growth potential of these cells was correlated with a decrease in polyamine levels. In contrast, differentiation of Euglena, i.e., a shift from heterotrophic to photoautotrophic mode of living in the absence of division, led only to a minor stimulation of polyamine biosynthesis. α-Methylornithine, an inhibitor of ornithine decarboxylase, blocked the growth of heterotrophic Euglena, and depletion of intracellular polyamines decreased the differentiation rate. Both events could be reversed only by addition of putrescine to the growth medium. This study suggests that Euglena requires a minimal intracellular level of polyamines to grow and differentiate under optimal conditions. This requirement seems to be more stringent for cell division.     

Transglutaminase catalyzed dissociation and association of protein-polyamine complex

Transglutaminase 2 (TG2) has been reported to be involved in cell growth through the formation of epsilon-(gamma-glutamyl) lysine (Gln-Lys) or N-(gamma-glutamyl) polyamine (Gln-polyamine). We have recently reported that the inhibition of Gln-Lys cross-linking by the formation of Gln-spermidine led to the increase of DNA synthesis in regenerating rat liver. TG2 may catalyze the replacement reaction between Lys residues in protein and polyamines. In the present study, we attempted to develop an experimental model for ascertaining this replacement reaction. We examined whether or not TG2 exhibited the association and dissociation reaction of Gln-polyamine bond in protein, using N,N-dimethylcasein (DC). The dissociated polyamines were identified by autoradiography. The dissociation of [(14)C] polyamines from DC bond [(14)C] polyamines complex by TG2 could occur in the presence of non-radioactive polyamines as second amine donor, whereas in the absence, could not almost occur. Moreover, it was indicated that this release of old [(14)C] polyamine bonded to DC was due to binding of added new [(14)C] polyamine to Gln residues in DC. These results demonstrate that TG2 catalyzes the replacement reaction between added [(14)C] polyamine and DC bond [(14)C] polyamine. The dissociation and association reaction may both occur together, the new DC-polyamine complex being formed at the same time as the dissociation of old DC-polyamine complex, since readying a second amine donor is necessary to dissociate DC-polyamine complex. These results indicate that this experimental model is successful in the study of TG2-catalyzed dissociation and association reaction of Gln-polyamine bond in protein.     

Ribosome Modulation Factor,an Important Protein for Cell Viability Encoded by the Polyamine Modulon

We searched for proteins whose synthesis is enhanced by polyamines at the stationary phase of cell growth using an Escherichia coli polyamine-requiring mutant in which cell viability is greatly decreased by polyamine deficiency. The synthesis of ribosome modulation factor (RMF) was strongly enhanced by polyamines at the level of translation at the stationary phase of cell growth. In rmf mRNA, a Shine-Dalgarno (SD) sequence is located 11 nucleotides upstream of the initiation codon AUG. When the SD sequence was moved to the more common position 8 nucleotides upstream of the initiation codon, the degree of polyamine stimulation was reduced, although the level of RMF synthesis was markedly increased. Polyamine stimulation of RMF synthesis was found to be caused by a selective structural change of the bulged-out region of the initiation site of rmf mRNA. The decrease in cell viability caused by polyamine deficiency was prevented by the addition of a modified rmf gene whose synthesis is not influenced by polyamines. The results indicate that polyamines enhance cell viability of E. coli at least in part by enhancing RMF synthesis.     

Synthesis and evaluation of N8-acetylspermidine analogues as inhibitors of bacterial acetylpolyamine amidohydrolase

Polyamines are small essential polycations involved in many biological processes. Enzymes of polyamine metabolism have been extensively studied and are attractive drug targets. Nevertheless, the reversible acetylation of polyamines remains poorly understood. Although eukaryotic N⁸-acetylspermidine deacetylase activity has already been detected and studied, the specific enzyme responsible for this activity has not yet been identified. However, a zinc deacetylase from Mycoplana ramosa, acetylpolyamine amidohydrolase (APAH), has been reported to use various acetylpolyamines as substrates. The recently solved crystal structure of this polyamine deacetylase revealed the formation of an ‘L’-shaped active site tunnel at the dimer interface, with ideal dimensions and electrostatic properties for accommodating narrow, flexible, cationic polyamine substrates. Here, we report the design, synthesis, and evaluation of N⁸-acetylspermidine analogues bearing different zinc binding groups as potential inhibitors of APAH. Most of the synthesized compounds exhibit modest potency, with IC₅₀ values in the mid-micromolar range, but compounds bearing hydroxamate or trifluoromethylketone zinc binding groups exhibit enhanced inhibitory potency in the mid-nanomolar range. These inhibitors will enable future explorations of acetylpolyamine function in both prokaryotes and eukaryotes.     

Polyamine metabolism in the thermotolerant mesophilic fungus Aspergillus fumigatus

Biomass production by Aspergillus fumigatus was greatest at 40–45°C and was associated with an increase in concentration of the diamine putrescine and activity of its biosynthetic enzyme ornithine decarboxylase. Concentrations of the other amines, cadaverine, spermidine and spermine were considerably lower than putrescine concentration and did not change significantly over the temperature range 20–50°C. This is surprising in view of the greatly increased flux of label from ornithine through to spermidine at 45 and 50°C, indicating an increased formation of this triamine. It is suggested that there was increased formation of spermidine derivatives at these temperatures. Interestingly, there was greatly increased formation of the higher homologues of cadaverine, aminopropylcadaverine and N,N′-bis(3-aminopropyl)cadaverine, in A. fumigatus at 45 and 50°C.     

Catabolism of polyamines in the rat: Polyamines and their non-α-amino acid metabolites

The metabolic fate of stable isotopically labeled polyamines was investigated after their first and second intraperitoneal injection in rats. Using gas chromatographic and mass fragmentographic analyses of acid-hydrolyzed 24-h urines, some aspects of the polyamine metabolism could be elucidated. After the injections with hexadeutero-1,3-diaminopropane, obly labeled 1,3-diaminopropane was recovered from the urine samples. The rat injected with tetradeuteroputrescine excreted labeled putrescine excreted labeled putrescine, γ-amino-n-butyric acid, 2-hydroxyputrescine and spermidine, while the urine samples of the rat after the injections with tetradeuterocadaverine contained labeled cadaverine and δ-aminovaleric acid. The injections of hexadeuterospermidine led to the appearance of labeled spermidine, isoputreanine, putreanine, N-(2-carboxyethyl)-4-amino-n-butyric acid, putrescine, γ-amino-n-butyric acid, 1,3-diaminopropane, β-alanine and spermine. After the injections with octadeuterospermine, labeled spermine, N-(3-aminopropyl)-N′-(2-carboxyethyl)-1,4-diaminobutane, N,N′-bis(2-carboxyethyl)-1,4-diaminobutane, spermidine, isoputreanine, putreanine, N-(2-carboxyethyl)-4-amino-n-butyric acid, putrescine, 1,3-diaminopropane, β-alanine, 2-hydroxyputrescine and possibly γ-amino-n-butyric acid were recovered. Clear differences between the metabolism after the first and second injection were noted for putrescine, spermidine and spermine, which is suggestive for enzyme induction and/or the existence of salvage pathways.     

Salmonella typhimurium and Salmonella enteritidis induce gut growth and increase the polyamine content of the rat small intestine in vivo

Abstract The effects of infection by Salmonella enteritidis and S. typhimurium on the small and large intestines, liver, spleen and mesenteric nodules of rats were studied in vivo. Both Salmonella serotypes persisted and proliferated in the gastrointestinal tract and invaded sub-epithelial tissues, mainly the ileum, leading to the systemic distribution of these pathogens. Coincidental with the infection, the rate of crypt cell proliferation increased resulting in substantial growth of the small intestine. The extent of this and the accompanying accumulation of polyamines was particularly dramatic in the ileum where there was also some disruption of the villus epithelium. It is possible that these effects of the infection on the metabolism and morphology of the small bowel, which strongly resembled the changes induced by some plant lectins, may facilitate the colonisation and invasion of the gut by Salmonellae .     

Uptake and excretion of polyamines from baby hamster kidney cells (BHK-21/C13) the effect of serum on confluent cell cultures

In confluent cultures of BHK-21/C13 cells there was little uptake oxogenous polyamines and only a low level of polyamine biosynthesis. These cultures continously excreted polyamines into the extracellular medium. Spermidine, in both the free and bound form, was the predominant excretion product, whereas the major intracellular polyamine was spermine implying that excretion of polyamines was specific. Reinitiation of growth by the addition of fresh serum immediately increased the uptake of exogenous putrescine, increased the biosynthesis of polyamines and decreased the excretion of polyamines. Thus, polyamine transport into and out of the cell appears to be regulated by the growth status of that cell.