[Enantioselective Synthesis of (R)- and (S)-3-Methylspermidines].

Earlier unknown enantiomerically pure (R)- and (S)-1,8-diamino-3-methyl-4-azaoctane's (3-MeSpd's) were synthesized with high overall yields and optical purity starting from commercially available R- and S-isomers of N-Boc-2-aminopropanol-1. Application of R- and S-isomers of 3-MeSpd for the investigation of the stereospecificity of spermidine transporter and peculiarities of deoxyhypusine synthase reaction are discussed.

[Stable analogues of coenzyme-substrate complex of spermidine/spermine-N1-acetyltransferase reaction. synthesis, interaction with the enzyme].

Convenient two-step synthesis of conjugates of HS-CoA and D-pantetheine with aminooxy analogues of Spm, Spd and Put was suggested. The use of acetone linker provided target conjugates with quantitative yields. The activity of CoA-derived "bisubstrate" inhibitors being active at microM concentrations was at least 100 times better than that of corresponding derivatives of D-pantetheine.

Hydroxylamine derivatives for regulation of spermine and spermidine metabolism.

The biogenic polyamines spermine, spermidine, and their precursor putrescine are present in micro-to-millimolar concentrations in all cell types and are vitally important for their normal growth. High intracellular content of spermine and spermidine determines the multiplicity of the cellular functions of the polyamines. Many of these functions are not well characterized at the molecular level, ensuring the ongoing development of this field of biochemistry. Tumor cells have elevated polyamine level if compared with normal cells, and this greatly stimulates the search for new opportunities to deplete the intracellular pool of spermine and spermidine resulting in decrease in cell growth and even cell death. O-Substituted hydroxylamines occupy their own place among chemical regulators of the activity of the enzymes of polyamine metabolism. Varying the structure of the alkyl substituent made it possible to obtain within one class of chemical compounds highly effective inhibitors and regulators of the activity of all the enzymes of putrescine, spermine and spermidine metabolism (with the exception of FAD-dependent spermine oxidase and acetylpolyamine oxidase), effectors of the polyamine transport system, and even actively transported in cells "proinhibitor" of ornithine decarboxylase. Some principles for the design of specific inhibitors of these enzymes as well as the peculiarities of cellular effects of corresponding O-substituted hydroxylamines are discussed.

Altered glucose-stimulated insulin secretion in a mouse line with activated polyamine catabolism.

Ubiquitous activation of polyamine catabolism has been demonstrated to have protective effects in mice on fat accumulation and insulin sensitivity/glucose tolerance in, both, normal conditions and after a high fat diet. We have analyzed the endocrine pancreas functionality in four months-old male mice overexpressing the rate limiting enzyme in the polyamine catabolism, spermidine/spermine N¹-acetyltransferase (SSAT). The pancreatic SSAT activity was 37-fold elevated in the transgenic mice, which reduced the total pancreatic and islet pools of spermidine (71%) and spermine (69%), and increased putrescine and N¹-acetyl spermidine. Reduction in the islet ATP levels (65%) was accompanied with increased transcription of 5'-AMP-activated protein kinase (AMPK) (1.5-fold) and Foxa2 (2.7-fold), and reduced HNF4α (67%) and HNF1α (92%), insulin 1 (47%), insulin 2 (50%), and Glut2 (57%). Moreover, the SSAT transgenic mice also presented increased beta cell area, decreased insulin production, and altered glucose-stimulated insulin secretion. It has been hypothesized that the acute activation of the polyamine catabolism produces a futile cycle that greatly decreases the energy reserves of the cell. The lower energy status would activate the energy expenditure regulator, AMPK, which would consequently repress the PI3K/Akt pathway, and activate the transcription factor Foxa2.

Acute pancreatitis induced by activated polyamine catabolism is associated with coagulopathy: effects of alpha-methylated polyamine analogs on hemostasis.

BACKGROUND/AIMS: Polyamines are ubiquitous organic cations essential for cellular proliferation and tissue integrity. We have previously shown that pancreatic polyamine depletion in rats overexpressing the catabolic enzyme, spermidine/spermine N(1)-acetyltransferase (SSAT), results in the development of severe acute pancreatitis, and that therapeutic administration of metabolically stable alpha-methylated polyamine analogs protects the animals from pancreatitis-associated mortality. Our aim was to elucidate the therapeutic mechanism(s) of alpha-methylspermidine (MeSpd). METHODS: The effect of MeSpd on hemostasis and the extent of organ failure were studied in SSAT transgenic rats with either induced pancreatitis or lipopolysaccharide (LPS)-induced coagulopathy. The effect of polyamines on fibrinolysis and coagulation was also studied in vitro. RESULTS: Pancreatitis caused a rapid development of intravascular coagulopathy, as assessed by prolonged coagulation times, decreased plasma fibrinogen level and antithrombin activity, enhanced fibrinolysis, reduced platelet count and presence of schistocytes. Therapeutic administration of MeSpd restored these parameters to almost control levels within 24 h. In vitro, polyamines dose-dependently inhibited fibrinolysis and intrinsic coagulation pathway. In LPS-induced coagulopathy, SSAT transgenic rats were more sensitive to the drug than their syngeneic littermates, and MeSpd-ameliorated LPS-induced coagulation disorders. CONCLUSION: Pancreatitis-associated mortality in SSAT rats is due to coagulopathy that is alleviated by treatment with MeSpd.

[Methylated analogues of spermine and spermidine as tools to investigate cellular functions of polyamines and the enzymes of their metabolism].

Biogenic amines spermine and spermidine are essential factors of cellular growth. Polyamine analogues are widely used to investigate and to regulate the enzymes of polyamine metabolism and functions of spermine and spermidine in vitro and in vivo. Recently, it was demonstrated that alpha-methylated derivatives of spermine and spermidine are capable to fulfill key cellular functions of polyamines, moreover in some cases of (R)- and (S)-isomers are actually different. Using these alpha-methylated spermine and spermidine analogues it turned possible to prevent the development of acute pancreatitis of SSAT-transgenic rats and to demostrate for the first time that polyamine oxidase, spermine oxidase and deoxyhypusine synthase have dormant stereospecificity. An original approach to regulate the stereospecificity of polyamine oxidase was suggested. It was also demonstrated that the depletion of the intracellular polyamine pool has both hypusine-related consequences and also the consequences unrelated to the posttranslational modification of eukaryotic initiation translation factor eIF5A. Possible applications of a new family of C-methylated polyamine analogues for the investigation and regulation of polyamine metabolism in vitro and in vivo are discussed.

Oxidative stress and inflammation in the pathogenesis of activated polyamine catabolism-induced acute pancreatitis.

The markers of oxidative stress and inflammation were studied in acute pancreatitis in transgenic rats exhibiting activated polyamine catabolism. In addition, the effect of bismethylspermine (Me(2)Spm) pretreatment, preventing pancreatitis in this model, on these mediators was investigated. Lipid peroxidation was increased at 6 and 24 h after induction of pancreatitis. These changes as well as the markedly decreased superoxide dismutase activity at 24 h were abolished by Me(2)Spm pretreatment. Glutathione level and catalase activity changed transiently, and the effect of Me(2)Spm was clear at 24 h. Serum inflammatory cytokine levels increased already at 4 h whereas NF-kappaB was distinctly activated only at 24 h. Me(2)Spm prevented the increase in TNF-alpha and IL-6 while it had no effect on NF-kappaB activation. These results show that typical inflammatory and, to a lesser degree, some oxidative stress mediators are involved and beneficially affected by the disease-ameliorating polyamine analogue in our pancreatitis model.

Transgenic animals as models in the study of the neurobiological role of polyamines.

Natural polyamines, putrescine, spermidine and spermine, exhibit a number of neurophysiological and metabolic effects in brain preparations. In the in vitro studies, several specific sites of action have been identified such as ion channels, transmitter release and Ca2+ homeostasis. Polyamines have been linked to the development of neuronal degeneration caused by, for instance, epileptic seizures and stroke. The role of endogenous polyamines in the functioning brain is not clear, however. We review the work carried out using state-of-the-art transgenic animal models for polyamine research. A number of transgenic mouse lines carrying human ornithine decarboxylase, spermidine synthase and S-adenosylmethionine decarboxylase gene have been generated. Of these animals those with ornithine decarboxylase transgene show an extensive and constitutive expression of the enzyme in the brain with an exceedingly high putrescine concentration, a phenotype that is not encountered under physiological conditions. In this article we review the neurometabolic, behavioural and histological data that has been obtained from these transgenic mice.

Polyamines and regulation of spermatogenesis: selective stimulation of late spermatogonia in transgenic mice overexpressing the human ornithine decarboxylase gene.

Polyamines are believed to participate in the induction of cell growth, differentiation, and proliferation, but their role in spermatogenesis has remained obscure. Two transgenic mouse lines (K2 and K15) that overexpress the human ornithine decarboxylase (ODC) gene coding for a rate-controlling enzyme in polyamine biosynthesis and, hence, contain high levels of tissue putrescine have been used to study the stage-specific role of ODC in spermatogenesis. In K2 mice with 30-fold testicular ODC overexpression, [3H]thymidine incorporation at stages I-VI of the cycle of the seminiferous epithelium was significantly above the control level. This may reflect a specific stimulation of DNA synthesis in type A4, intermediate, and type B spermatogonia. The K15 mice that have about 70-fold ODC overexpression showed an elevation of DNA synthesis only at stage V of the cycle, suggesting a specific dependence of type B spermatogonia on putrescine. In K15 mice, [3H]thymidine incorporation of stage VIII tubule segments was decreased, suggesting that excess amounts of putrescine selectively inhibit meiotic DNA synthesis. We propose that putrescine has strictly selective local stimulatory and inhibitory actions during spermatogenic DNA synthesis, and that its excess amounts ultimately may lead to decreased fertility.

[New oxaanalogues of spermine].

A new isosteric charge-deficient spermine analogue, 1,12-diamino-4,9-diaza-5-oxadodecan, and O-(7-amino-4-azaheptyl)oxime of 3-aminopropanal, a stable analogue of the Schiff base intermediate in the enzymatic oxidation of spermine, were synthesized. The possible use of these compounds for the inhibition of spermine oxidase is discussed.

[New syntheses of alpha-methyl- and alpha,alpha'-dimethylspermine].

alpha-Methylspermine and alpha,alpha'-dimethylspermine were synthesized in high overall yields starting from N-(benzyloxycarbonyl)-3-aminobutanol in order to study polyamine biochemistry in vitro and in vivo.

Relation of skin polyamines to the hairless phenotype in transgenic mice overexpressing spermidine/spermine N-acetyltransferase.

We recently generated a transgenic mouse line with activated polyamine catabolism due to overexpression of spermidine/spermine N1-acetyltransferase. Phenotypic changes in these animals included permanent loss of hair at the age of 3 wk. We have now further explored development of hair loss during early postnatal life. The first hair cycle appeared to be completed normally in the transgenic animals. At postnatal day 15, although macroscopically indistinguishable from their syngenic littermates, the transgenic animals already showed microscopically signs of hair follicle degeneration. Wild-type mice started their second anagen phase at day 27, whereas the transgenic animals did not display functional hair follicles at that time. Hair follicles were replaced by dermal cysts and epidermal utriculi. Analysis of skin polyamines revealed that the transgenic animals continuously overaccumulated putrescine. The view that an overaccumulation of putrescine was related to the disturbed hair follicle development was strengthened by the finding that doubly transgenic mice overexpressing, both spermidine/spermine N1-acetyltransferase and ornithine decarboxylase and with extremely high levels of putrescine in the skin, showed distinctly more severe skin changes compared with the singly transgenic animals. Interest ingly, in spite of their hairless phenotype, the spermidine/spermine N1-acetyltransferase transgenic mice, were significantly more resistant to the development of papillomas in response to the two-stage skin carcinogenesis. Analysis of skin polyamines indicated that the syngenic mice tripled their spermidine content when exposed to promotion, whereas the transgenic animals showed only modest changes. These results suggest that putrescine plays a pivotal part in normal hair follicle development.

Human ornithine decarboxylase(ODC)-encoding gene: cloning and expression in ODC-deficient CHO cells.

We have cloned a full-length human ornithine decarboxylase (ODC)-encoding gene from a genomic library of human myeloma cells which overproduce ODC due to a selective gene amplification. Correct expression of the cloned gene was assessed by transfecting it into a Chinese hamster ovary (CHO) cell mutant devoid of ODC activity. Transfection with a 10-kb BamHI DNA fragment of the genomic clone, conferred ODC activity to the recipient cells and relieved them of dependence on exogenous polyamines for growth. A set of 40 transformants was isolated, eight of which were further characterized. The transfected ODC gene appeared to be hypomethylated at the cytosine residues in the sequence CpG. The transfectants were all responsive to serum stimulation, but showed different levels of ODC expression depending on both copy number and integration site of the transfected ODC gene. ODC serum induction in the transfectants was sensitive to cycloheximide and polyamine additions, and the half-life of the enzyme was very short, like that in normal CHO cells. These results suggest that the human ODC gene we transfected contains all the elements needed for normal control of ODC expression.

Human ornithine decarboxylase-encoding loci: nucleotide sequence of the expressed gene and characterization of a pseudogene.

Previous studies have shown that human ornithine decarboxylase (ODC)-encoding sequences map to two chromosome regions: 2pter-p23 and 7cen-qter. In the present work we have cloned the expressed human ODC gene from a genomic library of myeloma cells that overproduce ODC protein due to selective gene amplification and determined its entire nucleotide sequence. The gene comprises 12 exons and 11 introns and spans about 8 kb of chromosome 2 DNA. The organization of the human gene is very similar to that of the mouse and rat, with the major difference being the presence of longer intronic sequences in the human gene. Some of these differences can be accounted for by the insertion of four Alu sequences in the human gene. Several potential regulatory elements are present in the promoter region and in 5'-proximal introns, including a TATA box; GC boses; AP-1-, AP-2- and NF-1-binding sites; and a cAMP-responsive element. The 5'-untranslated sequence of ODC mRNA is extremely GC-rich, and computer predictions suggest a very stable secondary structure for this region, with an overall free energy of formation of -225.4 kcal/mol. In addition to the active ODC gene on chromosome 2, ODC gene-related sequences were isolated from human chromosome 7-specific libraries and shown to represent a processed ODC pseudogene.

Altered mitogen-activated protein kinase signaling, tau hyperphosphorylation and mild spatial learning dysfunction in transgenic rats expressing the beta-amyloid peptide intracellularly in hippocampal and cortical neurons.

The pathological significance of intracellular Abeta accumulation in vivo is not yet fully understood. To address this, we have studied transgenic rats expressing Alzheimer's-related transgenes that accumulate Abeta intraneuronally in the cerebral and hippocampal cortices but do not develop extracellular amyloid plaques. In these rats, the presence of intraneuronal Abeta is sufficient to provoke up-regulation of the phosphorylated form of extracellular-regulated kinase (ERK) 2 and its enzymatic activity in the hippocampus while no changes were observed in the activity or phosphorylation status of other putative tau kinases such as p38, glycogen synthase kinase 3, and cycline-dependent kinase 5. The increase in active phospho-ERK2 was accompanied by increased levels of tau phosphorylation at S396 and S404 ERK2 sites and a decrease in the phosphorylation of the CREB kinase p90RSK. In a water maze paradigm, male transgenic rats displayed a mild spatial learning deficit relative to control littermates. Our results suggest that in the absence of plaques, intraneuronal accumulation of Abeta peptide correlates with the initial steps in the tau-phosphorylation cascade, alterations in ERK2 signaling and impairment of higher CNS functions in male rats.

Transgenic bioreactors.

Since the generation of the first transgenic mice in 1980, transgene technology has also been successfully applied to large farm animals. Although this technology can be employed to improve certain production traits of livestock, this approach has not been very successful so far owing to unwanted effects encountered in the production animals. However, by using tissue-specific targeting of the transgene expression, it is possible to produce heterologous proteins in the extracellular space of large transgenic farm animals. Even though some recombinant proteins, such as human hemoglobin, have been produced in the blood of transgenic pigs, in the majority of the cases mammary gland targeted expression of the transgene has been employed. Using production genes driven by regulatory sequences of milk protein genes a number of valuable therapeutic proteins have been produced in the milk of transgenic bioreactors, ranging from rabbits to dairy cattle. Unlike bacterial fermentors, the mammary gland of transgenic bioreactors appear to carry out proper postsynthetic modifications of human proteins required for full biological activity. In comparison with mammalian cell bioreactors, transgenic livestock with mammary gland targeted expression seems to be able to produce valuable human therapeutic proteins at very low cost. Although not one transgenically produced therapeutic protein is yet on the market, the first such proteins have recently entered or even completed clinical trials required for their approval.

Human spermidine synthase gene: structure and chromosomal localization.

The human spermidine synthase (EC 2.5.1.16) gene was isolated from a genomic library constructed with DNA obtained from a human immunoglobulin G (IgG) myeloma cell line. Subsequent sequence analyses revealed that the gene comprised of 5,818 nucleotides from the cap site to the last A of the putative polyadenylation signal with 8 exons and 7 intervening sequences. The 5'-flanking region of the gene was extremely GC rich, lacking any TATA box but containing CCAAT consensus sequences. No perfect consensus sequence for the cAMP-responsive element for the AP-1 binding site was found, yet the gene contained seven AP-2 binding site consensus sequences. The putative polyadenylation signal was an unusual AATACA instead of AATAAA. Polymerase chain reaction analysis with DNA obtained from human x hamster somatic cell hybrids indicated that human spermidine synthase genomic sequences segregate with human chromosome 1. Transfection of the genomic clone into Chinese hamster ovary cells displaying a low endogenous spermidine synthase activity revealed that the gene was transiently expressed and hence in all likelihood represents a functional gene.

Human spermidine synthase: cloning and primary structure.

Using a synthetic deoxyoligonucleotide mixture constructed for a tryptic peptide of the bovine enzyme as a probe, cDNA coding for the full-length subunit of spermidine synthase was isolated from a human decidual cDNA library constructed on phage lambda gt11. After subcloning into the Eco RI site of pBR322 and propagation, both strands of the insert were sequenced using a shotgun strategy. Starting from the first start codon, which was immediately preceded by a GC-rich region including four overlapping CCGCC consensus sequences, an open reading frame for a 302-amino-acid polypeptide was resolved. This peptide had an Mr of 33,827, started with methionine, and ended with serine. The identity of the isolated cDNA was confirmed by comparison of the deduced amino acid sequence with resolved sequences of the tryptic peptides of bovine spermidine synthase. The coding strand of the cDNA revealed no special regulatory or ribosome-binding signals within 82 nucleotides preceding the start codon and no polyadenylation signal within 247 nucleotides following the stop codon. The coding region, containing a 13-nucleotide repeat close to the 5' end, was longer than, and very different from, that of the bacterial counterpart. This region seems to be of retroviral origin and shows marked homology with sequences found in a variety of human, mammalian, avian, and viral genes and mRNAs. By computer analysis, the first 200 nucleotides of the 5' end of the coding strand appear able to form a very stable secondary structure with a free energy change of -157.6 kcal/mole.(ABSTRACT TRUNCATED AT 250 WORDS)

Molecular cloning of a cDNA encoding human spermine synthase.

We have isolated and sequenced cDNA clones that encode human spermine synthase (EC 2.5.1.22). The total length of the sequenced cDNA was 1,612 nucleotides, containing an open reading frame encoding a polypeptide chain of 368 amino acids. All of the previously sequenced peptide fragments of human and bovine spermine synthase proteins could be located within the coding region derived from the cDNA. An unusual sequence of AATTAA apparently signaled the initiation of polyadenylation. Sequence comparisons between human spermine synthase and spermidine synthases from bacterial and mammalian sources revealed a nearly complete lack of similarity between the primary structures of these two enzymes catalyzing almost identical reactions. A modest similarity found was restricted to a relatively short peptide domain apparently involved in the binding of decarboxylated S-adenosylmethionine, the common substrate for both enzymes. The apparent lack of an overall similarity may indicate that spermine synthase, the enzyme found only in eukaryotes, and spermidine synthase with more universal distribution, although functionally closely related, have evolved separately.

Pharmacological properties of the ornithine decarboxylase inhibitor 3-aminooxy-1-propanamine and several structural analogues.

Analogues of 3-aminooxy-1-propanamine proved to be highly potent and selective inhibitors of ornithine decarboxylase (ODC). The compounds competed with ornithine for the substrate binding site of ODC, but resulted in progressive and apparently irreversible inactivation of the enzyme. Diamine oxidase was inhibited by these compounds to a lesser extent than ODC; the compounds were not metabolized by this enzyme. Several derivatives were growth-inhibitory for human T24 cells and for other mammalian cells, the most active compound being 3-aminooxy-2-fluoro-1-propanamine (AFPA). Growth-arrested cells were largely depleted of putrescine and spermidine. Cellular growth arrest could be antagonized by supplementation with spermidine. Selection for resistance against AFPA led to cells with amplified ODC genes and overexpression of the message. Some of the derivatives were tumoristatic at well-tolerated doses in mice bearing solid T24 tumours. The antiproliferative activity of these compounds appears to be mediated by polyamine depletion.