Determination of polyamines in human prostate by high-performance liquid chromatography with fluorescence detection

A high-performance liquid chromatographic method for the determination of polyamines in human prostate has been developed. This method is based on pre-column derivatization with dansyl chloride (Dns-Cl). The derivatives were separated on a μBondapak C₁₈ column (250×4.6 mm I.D.; 10 μm), and eluted with methanol and distilled water using a one-step linear gradient. The column eluate was monitored by fluorescence detection (excitation, 370 nm; emission, 506 nm). The within-assay precision of the study (C.V.) was as follows: putrescine (PUT) 2.88%, spermidine (SPD) 2.94% and spermine (SP) 1.17%. The between-assay precision (C.V.) was: PUT 2.66%, SPD 3.06%, SP 2.79%. The recovery was greater than 97%. The detection limit for PUT, SPD and SP were 0.05, 0.08 and 0.06 nmol/ml, respectively. In contrast to other studies, sample or polyamine derivatives did not require extraction with an organic solvent such as ethanol, evaporation under vacuum or other condensation procedures. This is a simple, rapid and sensitive method that can be applied to the determination of polyamines in nearly all biological tissues and body fluids, such as urine and serum.     

Polyamines as cancer markers: applicable separation methods

Spermine, spermidine, putrescine and cadaverine are aliphatic amines widely spread in the human body. Their concentrations together with their acetyl conjugates increase significantly in the biological fluids and the affected tissues of cancer patients. Their concentrations decrease with the improvement in the patient’s condition on multiple therapy. Various chromatographic techniques are frequently used in monitoring concentrations of di- and polyamines in cancer. Among these techniques, thin-layer chromatography and liquid chromatography using pre- or postcolumn derivatization, separating on a reversed-phase or an ion-exchange column are the most commonly used. Besides, high-resolution capillary column gas chromatography (GC) is increasingly used over packed column GC, and in recent years, capillary zone electrophoresis has also gained some importance in polyamine determinations. The review examines the prospects and the limitations of polyamines as cancer markers using chromatographic and electrophoretic techniques.     

Changes in free polyamine concentration induced by salt stress in seedlings of different species

Growth rate, mineral composition and changes in polyamine concentration induced in response to salinity were studied in six crop species: spinach, lettuce, bean, pepper, beetroot and tomato. Salinity decreased growth rate, but sensitivity differed amongst the species: pepper being the most sensitive, followed by bean, tomato, lettuce and spinach, with beetroot being the most tolerant. The increase of Na⁺ and total cation with salinity in shoots was the highest in spinach and beetroot, the most tolerant species, while in pepper it was the lowest. Changes in putrescine (Put) concentration in shoots were related to salinity tolerance (increased in the most sensitive), while changes in spermidine (Spd; decreases) and spermine (Spm; increases) were similar with most species, except for pepper in which salinity strongly increased Put, Spd and Spm. Therefore, total polyamine concentration increased in pepper shoot, while it decreased in the other species. Thus, results show that Put accumulation was a consequence of salt stress in the most sensitive species, while salt tolerant species (beetroot) showed little change in polyamine concentration, and higher concentration in both Na⁺ and total cations. The role of polyamines or cation increased concentration after saline treatment in species with different salt tolerance is discussed.     

Metabolism and function of polyamines in plants: recent development (new approaches)

A review is presented of the recent developments in the metabolism andfunction of polyamines in plants. Polyamines appear to be involved in a widerange of plant processes so their exact role is not completely understood. Inthis review, the metabolic pathways involved in polyamine biosynthesis anddegradation are explained, along with the transport and conjugation of thesecompounds. The methodologies involved in the analysis of polyamine functionusing metabolic inhibitors and genetic and molecular approaches are described.The occurrence and distribution of polyamine-derived alkaloids are also dealtwith. The direction of future research in the study of plant polyamines isindicated.     

Changes in Polyamine Concentrations in Amygdaloid-Kindled Rats

Concentrations of the polyamines putrescine, spermidine, and spermine were investigated in the left and right amygdala and in the remaining cerebrum, in which kindling was induced by repeated application of electrical stimulation of the left amygdala of rats. In kindled rats, the concentrations of spermidine and spermine increased slightly, but elevations did not reach significant levels in any brain regions. The most profound increase was detected in the putrescine concentration in all parts of the cerebrum 1-8 h after the final stimulation. These results suggest that the increases in concentrations of polyamines, particularly of putrescine, are involved in the pathogenesis of amygdaloid kindling.     

Polyamine transport inEscherichia coli

Summary The polyamine content in cells is regulated by both polyamine biosynthesis and its transport. We recently obtained and characterized three clones of polyamine transport genes (pPT104, pPT79 and pPT71) inEscherichia coli. The system encoded by pPT104 was the spermidine-preferential uptake system and that encoded by pPT79 the putrescine-specific uptake system. Furthermore, these two systems were periplasmic transport systems consisting of four kinds of proteins: pPT104 clone encoded potA, -B,-C, and -D proteins and pPT79 clone encoded potF, -G, -H, and -I proteins, judging from the deduced amino acid sequences of the nucleotide sequences of these clones. PotD and -F proteins were periplasmic substrate binding proteins and potA and -G proteins membrane associated proteins having the nucleotide binding site. PotB and -C proteins, and potH and -I proteins were transmembrane proteins probably forming channels for spermidine and putrescine, respectively. Their amino acid sequences in the corresponding proteins were similar to each other. The functions of potA and -D proteins in the spermidine-preferential uptake system encoded by pPT104 clone were studied in detail through a combined biochemical and genetic approach. In contrast, the putrescine transport system encoded by pPT71 consisted of one membrane protein (potE protein) haveing twelve transmembrane segments, and was active in both the uptake and excretion of putrescine. The uptake was dependent on membrane potential, and the excretion was due to the exchange reaction between putrescine and ornithine.     

Determination of dansylated polyamines in red blood cells by liquid chromatography-tandem mass spectrometry

The concentration of polyamines in red blood cells (RBCs) is considered to be an index of cell proliferation. This index has been demonstrated to be of clinical importance for the follow-up and treatment of some cancer patients. The concentration of polyamines in RBCs is usually determined by high-performance liquid chromatography (HPLC) with fluorescence detection. In the current work, we present a liquid chromatography-tandem mass spectrometry (LC-MS/MS) method for the quantification of putrescine, spermidine, and spermine, the three major polyamines in RBCs. The polyamines were dansylated and analyzed by an LC gradient of 20-min duration on a C18 column on-line with a tandem mass spectrometer. An internal standard (1,8-diaminooctane) was used for quantification. This method exhibited excellent linearity for the three polyamines with regression coefficients higher than 0.99. The limits of detection for putrescine, spermidine, and spermine were 0.10, 0.75, and 0.50 pmol/ml, respectively. The intrarun precision values for putrescine, spermidine, and spermine all were better than 10%, and the interrun precision values were 13%, 9%, and 20%, respectively. The LC-MS/MS method is sufficiently simple and reliable enough to replace the currently used HPLC method with fluorescence detection in which putrescine is not always detectable.     

Polyamine uptake in cultured astrocytes: characterization and modulation by protein kinases

The properties and regulation of the polyamine transport system in brain are still poorly understood. The present study shows, for the first time, the existence of a polyamine transport system in cerebellar astrocytes and suggests that polyamine uptake is mediated by a single and saturable high-affinity transport system for putrescine, spermine, and spermidine (K:(m) = 3.2, 1.2, and 1.8 microM:, respectively). Although substitution of NaCl by choline chloride produced a decrease in the putrescine, spermine, and spermidine uptake, it seems that polyamine transport in cerebellar astrocytes is not mediated by an Na(+) cotransport as in the presence of Na(+) and cholinium, polyamine uptake was much lower than when measured in a sucrose-based medium. On the other hand, ouabain, gramicidin (a Na(+) ionophore), and ionomycin (a Ca(2+) ionophore) produced a strong inhibition of polyamine uptake, suggesting that membrane potential could have an important role in the functioning of the astroglial polyamine uptake system. Moreover, protein kinase C inhibition produced an enhancement of polyamine uptake, whereas stimulation of protein kinase C with phorbol esters inhibited polyamine uptake. Alternatively, the tyrosine kinase inhibitor genistein caused a marked reduction in the uptake. No effects on polyamine uptake were observed with inhibitors and activators of cyclic AMP-dependent protein kinase or when Ca(2+)/calmodulin-dependent protein kinase II was inhibited with KN-62. These results suggest that the polyamine uptake system in cerebellar astrocytes could be modulated by protein kinase C and tyrosine kinase activities.     

Atmospheric pressure chemical ionization-mass spectrometry method to improve the determination of dansylated polyamines

Determination of polyamine pools is still a step impossible to circumvent in studies aimed at determining the pathophysiological role of natural polyamines. In addition, polyamine measurement in biological fluids and tissues may have clinical relevance, especially in cancer patients. Among the wide panel of analytical methods developed for the quantification of polyamines, high-performance liquid chromatographic (HPLC) separation of polyamines after derivatization with dansyl chloride remains the most commonly used method. In this work, we show that atmospheric pressure chemical ionization-mass spectrometry (MS) can be used to detect and quantify biologically relevant polyamines after dansylation, without chromatographic separation. Positive-ion mass spectra for each dansylated polyamine were generated after optimization by flow injection analysis (FIA). FIA coupled with MS detection by selected ion monitoring greatly increased the sensitivity of the polyamine detection. The method is linear over a wide range of polyamine concentrations and allows detection of quantities as low as 5 fmol. The FIA/MS method is about 50-fold more sensitive than the conventional HPLC/fluorimetry procedure. A good correlation (r>0.98) between these two methods was observed. The FIA/MS method notably reduces the time of analysis per sample to 1.5 min and turns out to be rapid, efficient, cost saving, reproducible, and sufficiently simple to allow its routine application.     

Biosynthesis, oxidation and conjugation of aliphatic polyamines in higher plants

Summary. This chapter will focus on polyamine biosynthesis, oxidation, conjugation processes, mainly to hydroxycinnamic acids, and compartmentation of enzymes, substrates and products, giving an overview about recent results especially in higher plants. New research advances regarding the cloning of the main cDNA encoding for polyamine biosynthetic and oxidative enzymes, will be taken into consideration. Received January 4, 2000 Accepted March 7, 2000     

Effects of Polyamines on Calcium-Dependent Rat Brain Phosphatidylinositol-Phosphodiesterase

The effect of polyamines on the ability of calcium-dependent soluble rat brain phosphatidylinositol-phosphodiesterase to hydrolyze dispersed phosphatidylinositol was examined. Putrescine and cadaverine stimulated activity at all concentrations tested. In contrast, spermine and spermidine stimulated the reaction slightly at low concentrations but caused progressively greater inhibition as their levels were further increased. Phosphatidylinositol hydrolysis was inhibited by several multivalent cations, especially lanthanum and manganese. Spermidine partially replaced the calcium requirement of the enzyme. The possibility that polyamines may play a role in the regulation in vivo of phosphatidylinositol-phosphodiesterase is discussed.     

Urinary polyamine evaluation for effective diagnosis of various cancers

With a newly modified analytical method, the concentrations of free and acetylated urinary polyamines were simultaneously determined in a control group (32 cases) and patients with various types of cancers (104 cases, 20 males and 84 females) by gas chromatography-nitrogen-phosphorus detection. Significant concentration differences between normal subjects and various cancer patients were found. The various types of cancers (advanced gastric carcinoma, ovarian cancer, acute myelocyte leukemia, non-Hodgkin's lymphoma) gave unique patterns of urinary polyamine profile as well as significant differences of concentration. To indirectly evaluate the possible involvement of enzymes, precursor-to-product concentration ratios were compared between controls and patients with various types of cancers.     

评价农作物蛋白质优劣的一种排序方法──灰色关联度法

依据灰色系统理论中关联度分析法,提出一种对农作物蛋白质氨基酸构成品质进行考察排序的方法,结果与现行的化学评价法具有较好的一致性,且可避免因某一信息的缺乏而使分离结果偏离实际较大的不足。本法也可根据研究目的不同,选取不同的指标总数作为参考数列对待评价样品进行不同角度的评价考察。     

Essential,deadly, enigmatic: Polyamine metabolism and roles in fungal cells

Polyamines are essential metabolites found in all organisms. Intracellular polyamine levels are tightly maintained by biosynthesis, degradation, uptake and excretion processes that involve regulatory mechanisms – such as the antizyme inhibitory protein – that are conserved across the kingdoms of life, indicating that polyamine levels are critical to cell function. Nonetheless, the biochemical roles of polyamines and their involvement in numerous fundamental cellular processes including aging, cell cycle progression and growth only become apparent when polyamine homeostasis is perturbed. Thus, while polyamines are present in most cells and essential for cell growth, their biochemical functions are largely enigmatic. Studies in fungi have contributed to our basic understanding of polyamines, and might continue to bridge knowledge gaps regarding polyamine metabolism and cell function. Moreover, when considering the impact of fungi – directly or indirectly, for good or for ill – on human society, closing gaps in our understanding of polyamine functions in fungal physiology is an important goal in itself that might lead to the discovery of new targets for enhancing beneficial fungal interactions and diminishing those detrimental to crop and human health. To facilitate progress towards this prospect, here we appraise what is known about polyamine metabolism in fungi, how prevalent polyamines impact fungal physiology and metabolism, and how the levels of each polyamine are maintained in the fungal cell – thus pointing to how they might be perturbed.     

Limited Blood-Brain Barrier Transport of Polyamines

Transport of polyamines across the blood-brain barrier of adult rats was examined by measuring the amount of radioactivity that reached the forebrain 5 s after a "bolus" intracarotid injection. The values were expressed by the brain uptake index (BUI), which is the percentage of material transported in relation to freely diffusible water in a single passage through the brain. Transport was restricted as indicated by the respective BUI values, presented as means +/- SD (number of animals): putrescine, 5.3 +/- 0.8 (11); spermidine, 6.1 +/- 1.3 (7); and spermine, 5.8 +/- 0.5 (4). A kinetic study of the transport of [14C]putrescine showed that transport due to passive diffusion accounted for the majority of the observed influx (66% at 1 mM putrescine). However, a small saturable component exists with a Km value of 4-5 mM and a Vmax of 30 nmol X min-1 X g-1. This Km value is considerably higher than the circulating levels of the polyamine in the normal mature animal, and thus is unlikely to be of physiological significance. Competition studies indicated that putrescine does not interact with carriers for adenosine, arginine, choline, or leucine.     

Leishmania spp.: cellular levels and synthesis of polyamines during growth cycles

Polyamines were extracted from five different leishmanial strains (Leishmania sp., L. tropica major, L. mexicana, and two L. donovani isolates) and identified as pulrescine, spermidine, and spermine by thin-layer chromatography and mass spectrometry. These sensitive methods were also used to demonstrate the conversion of radioactive putrescine into spermidine and spermine. As in other types of cells, polyamine levels fluctuated during the growth cycle, maximal levels being attained during the logarithmic growth phase. In the five leishmanial strains, which were members of four different serotypes, the spermidine—putrescine ratios also varied, and in two strains of the same serotype, polyamine ratios were practically identical, suggesting that polyamine characteristics might serve as a further criterion for strain identification and classification.     

The role of free polyamines in the alternate-bearing of pistachio (<Emphasis Type="Italic">Pistacia vera</Emphasis> cv. Pontikis)

The present study was conducted in order to examine the physiological role of free polyamines in flower bud abscission. For this reason five 15-year old pistachio trees cv. "Pontikis" were selected and half of the main branches were manually defruited in early May. Polyamines were analyzed in three different organs (shoots, leaves and flower buds) from both fruiting and non-fruiting branches, during the period of kernel growing. Five samplings took place and the polyamines putrescine, spermidine and spermine were assayed. The flower bud abscission percentage was recorded every 5–10 days during kernel formation. Polyamine concentration declined during the period that coincides with that of kernel development, in both fruiting and non-fruiting branches, while significant bud abscission occurred from mid-July till late September in fruiting branches. Polyamine concentration in organs from fruiting branches was in most cases lower than that of non-fruiting ones. Most of the individual polyamines exhibited a high and significant negative correlation with bud abscission. By measuring the spermidine content of leaves and the spermine content of buds, it was possible to estimate the forthcoming bud abscission with significant accuracy (approximately 93%). On the other hand, the total polyamine content of the buds exhibited a significant strong negative relationship with bud abscission. Consequently, polyamines could have an important physiological function in the development of flower bud abscission of pistachio.     

Effect of polyamines on in vitro somatic embryogenesis in <Emphasis Type="Italic">Momordica</Emphasis><Emphasis Type="Italic">charantia</Emphasis> L.

The effects of exogenous polyamines (PAs) on enhancement of somatic embryogenic calli was investigated in Momordica charantia L. in vitro. Induction of somatic embryogenesis (SE) in leaf explants of M. charantia after 21 days of culture in Murashige and Skoog (MS) medium was determined using scanning electron microscopy. During induction of SE there were high titers of Putrescine (Put) as compared to Spermidine (Spd) and Spermine (Spm), a prerequisite for cell division. Addition of PAs to the embryogenic media resulted in an increase in fresh weights and number of somatic embryos of 21-day old embryogenic calli. Put at a concentration of 1 mM showed maximum increase in fresh weights of embryogenic calli (5 fold) and number of somatic embryos produced per 0.2 g of callus (2.5 fold). Moreover addition of PAs to the embryogenic media resulted in lowering of endogenous free PA level of 21-day old embryogenic calli. Thus, when the media was supplemented with exogenous PAs a positive correlation was found to exist between Somatic Embryogenesis enhancement and decrease in endogenous free PA levels.