Glutathione localization by a novel o-phthalaldehyde histofluorescence method

Summary Glutathione in tissues forms an intense fluorophore with a solution ofo-phthalaldehyde at room temperature. We have studied the loss of glutathione from tissue sections and find that it is not measurable from thick sections. The fluorescence spectra of the induced fluorophore between glutathione ando-phthalaldehyde are identical in model and tissue sections, while depletion of hepatic glutathione by diethyl maleate produces a comparable fall in fluorescence measured biochemically or histochemically. This simple method is specific as interfering substances, such as spermine and spermidine, produce very weak fluorescence under the conditions employed.     

Localization and possible function of polyamines in protein and peptide secreting cells

Three different cytochemical methods, the formaldehyde-fluorescamine and the ortho-phtalaldehyde fluorescence cytochemical methods as well as immunocytochemistry have been developed for localising the polyamines spermidine and spermine in tissue. All three methods produce identical results and show polyamines to occur inter alia in high concentrations in certain protein- and peptide-secreting cells. Many of these cells also show the capacity to metabolise monoamines and belong to the amine content or amine precursor uptake and decarboxylation (APUD) series. In cell types where fluorescence microscopical resolution allows, most polyamines appear to be localised to secretory granules. Moreover, studies on isolated pancreatic islets reveal active and glucose-dependent polyamine biosynthesis to occur in insulin cells. Possible function of polyamines in secretory granules are discussed in the light of the above findings.     

Polyamine cytochemistry

Summary o-Phtalaldehyde (OPT) reacts with a number of biologically important molecules, including the polyamines, spermidine and spermine. By systematically varying reaction conditions with respect to temperature, pH, concentration and length of exposure to the reagent, using both model systems and tissues, we have succeeded in constructing a cytochemical OPT-method specific for spermidine and spermine. The method detects cell types known to contain these polyamines, including growing and neoplastic cells. The staining pattern obtained with the OPT method is identical to that obtained with the formaldehyde-fluorescamine (FF) technique recently shown to be specific for spermidine and spermine. In contrast to the FF technique, the OPT method can be used for staining suspensions of isolated cells and may hence be employed in studies using fluorescence-activated cell sorting (FACS). Preliminary such studies show a pronounced decrease in cellular OPT-induced fluorescence, paralleled by a decrease in content of polyamines, after treatment with the polyamine biosynthesis inhibitor -difluoromethylornithine (DFMO). In contrast, cells simultaneously treated with DFMO+spermidine show pronounced increases in their spermidine content and parallel increases in their OPT-induced fluorescence. Availability of methods selectively demonstrating polyamines at the cellular and subcellular level is expected to aid our understanding of polyamine functions in normal growth and cancer.     

Towards microfluorometric quantitation of polyamines in situ. Relationship between cellular polyamine concentration and fluorescence yield of the formaldehyde fluorescamine method

Two different fluorescence cytochemical methods, the formaldehyde-fluorescamine (FF) method and the orthophthalaldehyde (OPT) method as well as an immunocytochemical method have been developed for the localization of spermidine and spermine. Of these three methods, the FF-method is the most easy to perform. We have studied the relationship between fluorescence intensity induced by the FF-method and cellular polyamine levels measured by HPLC in MCF-7 cells and HeLa cells. The experiments were designed to obtain different cell concentrations of polyamines. Cells grown on microscope slides in Petri-dishes were partly depleted of spermidine by two days inhibition of their ornithine decarboxylase activity using alpha-difluoromethylornithine. One hr before harvest the cells were exposed to different concentrations (0-30 microM) of spermidine. Microfluorometric results and chemical determinations of spermidine and spermine were obtained from each separate slide. The cellular total polyamine (spermidine + spermine) concentration on the slides varied between 4 and 15 nmol per mg protein (MCF-7 cells) and 5 and 26 nmol per mg protein (HeLa cells) and the corresponding microfluorometric results between 60 and 115 arbitrary units (MCF-7 cells) and 80 and 160 arbitrary units (HeLa cells). Simple regression analysis showed a good linear relationship between cellular polyamine concentration and FF-fluorescence yield. The correlation coefficient for MCF-7 cells was 0.86 and for HeLa cells 0.82, significance of the correlations was p less than or equal to 0.0001. Our results add further credence to the specificity of the FF-method and indicate that the method may be useful for microfluorometric quantitation of polyamines in situ.     

Towards microfluorometric quantitation of polyamines in situ

Summary Two different fluorescence cytochemical methods, the formaldehyde-fluorescamine (FF) method and the orthophthalaldehyde (OPT) method as well as an immunocytochemical method have been developed for the localization of spermidine and spermine. Of these three methods, the FF-method is the most easy to perform. We have studied the relationship between fluorescence intensity induced by the FF-method and cellular polyamine levels measured by HPLC in MCF-7 cells and HeLa cells. The experiments were designed to obtain different cell concentrations of polyamines. Cells grown on microscope slides in Petri-dishes were partly depleted of spermidine by two days inhibition of their ornithine decarboxylase activity using -difluoromethylornithine. One hr before harvest the cells were exposed to different concentrations (0–30 M) of spermidine. Microfluorometric results and chemical determinations of spermidine and spermine were obtained from each separate slide. The cellular total polyamine (spermidine + spermine) concentration on the slides varied between 4 and 15 nmol per mg protein (MCF-7 cells) and 5 and 26 nmol per mg protein (HeLa cells) and the corresponding microfluorometric results between 60 and 115 arbitrary units (MCF-7 cells) and 80 and 160 arbitrary units (HeLa cells). Simple regression analysis showed a good linear relationship between cellular polyamine concentration and FF-fluorescence yield. The correlation coefficient for MCF-7 cells was 0.86 and for HeLa cells 0.82, significance of the correlations was p0.0001. Our results add further credence to the specificity of the FF-method and indicate that the method may be useful for microfluorometric quantitation of polyamines in situ.     

A simple and sensitive method of analysis for histamine,putrescine, and polyamines without the use of an amino acid analyzer

Histamine, putrescine, spermidine, and spermine in rat tissues and human urine were separated on a CM-cellulose column (0.6 × 10 cm). These amines in the chromatographic eluate were determined by the reactions with o-phthalaldehyde (for histamine), fluorescamine, o-phthalaldehyde-mercaptoethanol, or 2,4,6-trinitrobenzene sulfonate (for putrescine and polyamines). The procedures are rapid and simple when popular instruments are used. The limits of determination by the present method were of the order of 0.1 to 0.2 nmol for histamine and 2 to 4 nmol for putrescine and polyamines.     

Tissue-specific changes in polyamine levels of neural tissue and fat body in adult crickets

The three major polyamines—putrescine, spermidine, and spermine—were studied and changes of their levels were examined in extracts of cerebral ganglia and fat body from adult Acheta domesticus. In nervous tissue, only spermidine and spermine were present and spermine was two- to three-fold more abundant than spermidine. The polyamine levels were high up to day 3, decreased on day 4, and then remained relatively unchanged up to day 10. The spermidine/spermine ratios decreased during the imaginal life. Higher spermidine titres were observed in the neural tissue of egg-laying females compared to virgin females. In the fat body, putrescine was detected together with spermidine and spermine. Spermidine and spermine levels were two-fold higher than putrescine. Fat body of virgin females contained two times more polyamines than male fat body. Low at emergence, spermidine and spermine concentrations peaked on days 2–3 only in females, and egg-laying was characterized by an increase of putrescine and spermidine titres. Starvation did not change polyamine contents, implying homeostatic regulation of the intracellular polyamine metabolism. These data showing tissue specific changes in polyamine levels during the imaginal life of Acheta domesticus point to the physiological importance of polyamines as possible intracellular regulators during adult insect development. © 1993 Wiley-Liss, Inc.     

Biological and biomedical applications of isoelectric focusing : edited by N. Catsimpoolas and J. Drysdale, Plenum Press, New York, XV + 351 pp., Price US$ 39.00, ISBN 0-306-34603-6

An accurate, improved cation-exchange chromatographic method using o-phthalaldehyde and ultraviolet detection at 280 nm for the determination of free polyamines (putrescine, spermidine, spermine) has been developed. Different samples, such as the 105,000 g supernatant of reticulocyte or heart muscle, and KCl ribosomal wash containing initiation factors, can be analysed. The minor modification of reagents results in a good precision and sensitivity, which is demonstrated by a relative standard deviation of 5–9% and recoveries of 98%. This technique is of particular interest because it allows polyamine determination in biological samples with high concentrations of salt.     

An improved and easy technique for polyamine determination in biological samples : Application to cell-free system from hypertrophied rat heart

An accurate, improved cation-exchange chromatographic method using o-phthalaldehyde and ultraviolet detection at 280 nm for the determination of free polyamines (putrescine, spermidine, spermine) has been developed. Different samples, such as the 105,000 g supernatant of reticulocyte or heart muscle, and KCl ribosomal wash containing initiation factors, can be analysed. The minor modification of reagents results in a good precision and sensitivity, which is demonstrated by a relative standard deviation of 5–9% and recoveries of 98%. This technique is of particular interest because it allows polyamine determination in biological samples with high concentrations of salt.     

On the subcellular localization of the polyamines

Putrescine, spermidine and spermine were determined in the nuclear fraction of rat liver which was obtained by density gradient centrifugation in non-aqueous media, i.e. under conditions which avoid migration of water-soluble compounds. Calculations of the distribution of the polyamines between nuclear and extranuclear compartments were based on the assumption that the DNA is concentrated in the nuclei. No significant losses of the polyamines occurred during fractionation. From the polyamine determination in tissue and nuclear fraction it appeared that 16-17% of the liver spermidine and spermine, and about 8% of the putrescine content was localized in the nuclei. The spermidine/spermine-ratios in nuclei and whole tissue were not significantly different. Pretreatment of the animals with inhibitors of ornithine decarboxylase caused a decrease of putrescine exclusively in the extranuclear compartments, in agreement with a higher proportion of the inhibitors in the cytoplasm. Since the nuclear volume of rat liver corresponds to about 5% of total liver volume, the concentration of spermidine and spermine is higher in the nucleus than in extranuclear compartments. Published histochemical localizations of the polyamines suggested very low polyamine concentrations in the nuclei of non-dividing liver and HeLa cells, but dramatic polyamine accumulations in metaphase and anaphase nuclei. These results are in disagreement with previously reported autoradiographic data, subcellular localizations based on density gradient centrifugations, and with our present results. Since subcellular localization is a key issue in all attempts to clarify cellular functions of the polyamines the careful revision of the techniques involved in subcellular polyamine localizations seems imperative.     

Polyamine acetylation modulates polyamine metabolic flux, a prelude to broader metabolic consequences

Recent studies suggest that overexpression of the polyamine-acetylating enzyme spermidine/spermine N(1)-acetyltransferase (SSAT) significantly increases metabolic flux through the polyamine pathway. The concept derives from the observation that SSAT-induced acetylation of polyamines gives rise to a compensatory increase in biosynthesis and presumably to increased flow through the pathway. Despite the strength of this deduction, the existence of heightened polyamine flux has not yet been experimentally demonstrated. Here, we use the artificial polyamine precursor 4-fluoro-ornithine to measure polyamine flux by tracking fluorine unit permeation of polyamine pools in human prostate carcinoma LNCaP cells. Conditional overexpression of SSAT was accompanied by a massive increase in intracellular and extracellular acetylated spermidine and by a 6-20-fold increase in biosynthetic enzyme activities. In the presence of 300 microM 4-fluoro-ornithine, SSAT overexpression led to the sequential appearance of fluorinated putrescine, spermidine, acetylated spermidine, and spermine. As fluorinated polyamines increased, endogenous polyamines decreased, so that the total polyamine pool size remained relatively constant. At 24 h, 56% of the spermine pool in the induced SSAT cells was fluorine-labeled compared with only 12% in uninduced cells. Thus, SSAT induction increased metabolic flux by approximately 5-fold. Flux could be interrupted by inhibition of polyamine biosynthesis but not by inhibition of polyamine oxidation. Overall, the findings are consistent with a paradigm whereby flux is initiated by SSAT acetylation of spermine and particularly spermidine followed by a marked increase in key biosynthetic enzymes. The latter sustains the flux cycle by providing a constant supply of polyamines for subsequent acetylation by SSAT. The broader metabolic implications of this futile metabolic cycling are discussed in detail.     

Localization and biosynthesis of polyamines in insulin-producing cells.

Two recently developed fluorescence cytochemical methods, specific for spermidine and spermine, were used to localize polyamines in the endocrine pancreas. The polyamines were restricted to the insulin-producing beta-cells and were mainly associated with the secretory granules. Chemical polyamine determinations carried out on isolated rat and mouse pancreatic islets revealed large amounts of polyamines. Compared with extracts of whole pancreas, the islets contained very high concentrations of spermine relative to spermidine. Biosynthesis of polyamines from [3H]ornithine or from [3H]putrescine in isolated islets was significantly stimulated at high glucose concentrations. Moreover, significant incorporation of label from [3H]putrescine was also detected in gamma-aminobutyric acid. This incorporation, however, was not stimulated by high glucose. Possible roles for polyamines associated with the secretory granules in insulin-producing cells are discussed.     

Genetic manipulation of polyamine catabolism in rodents

Activation of polyamine catabolism through the overexpression of spermidine/spermine N1-acetyltransferase (SSAT) in transgenic rodents does not only lead to distorted tissue polyamine homeostasis, manifested as striking accumulation of putrescine, appearance N1-acetylspermidine and reduction of tissue spermidine and/or spermine pools, but likewise creates striking phenotypic changes. The latter include loss of hair, lipoatrophy and female infertility. Forced expression of SSAT modulates skin, prostate and intestinal carcinogenesis, induces acute pancreatitis and blocks early liver regeneration. Although many of these features are directly attributable to altered tissue polyamine pools, some of them are more likely related to the greatly accelerated flux of the polyamines caused by activated catabolism and compensatorily enhanced biosynthesis.     

Polyamine‐independent growth and biofilm formation,and functional spermidine/spermine N‐acetyltransferases in Staphylococcus aureus and Enterococcus faecalis

Polyamines such as spermidine and spermine are primordial polycations that are ubiquitously present in the three domains of life. We have found that Gram‐positive bacteria Staphylococcus aureus and Enterococcus faecalis have lost either all or most polyamine biosynthetic genes, respectively, and are devoid of any polyamine when grown in polyamine‐free media. In contrast to bacteria such as Pseudomonas aeruginosa, Campylobacter jejuni and Agrobacterium tumefaciens, which absolutely require polyamines for growth, S. aureus and E. faecalis grow normally over multiple subcultures in the absence of polyamines. Furthermore, S. aureus and E. faecalis form biofilms normally without polyamines, and exogenous polyamines do not stimulate growth or biofilm formation. High levels of external polyamines, including norspermidine, eventually inhibit biofilm formation through inhibition of planktonic growth. We show that spermidine/spermine N‐acetyltransferase (SSAT) homologues encoded by S. aureus USA300 and E. faecalis acetylate spermidine, spermine and norspermidine, that spermine is the more preferred substrate, and that E. faecalis SSAT is almost as efficient as human SSAT with spermine as substrate. The polyamine auxotrophy, polyamine‐independent growth and biofilm formation, and presence of functional polyamine N‐acetyltransferases in S. aureus and E. faecalis represent a new paradigm for bacterial polyamine biology.     

Transglutaminase activity is involved in polyamine-induced programmed cell death.

Natural polyamines, i.e., putrescine, spermidine, and spermine, are ubiquitous molecules essential for cell proliferation and differentiation. In the present study, the effect of polyamines on primary cultures of bovine aortic endothelial cells (BAECs), rat aortic smooth muscle cells (RASMCs), and a human melanoma cell line was examined. While in the absence of fetal calf serum (FCS) polyamines had no effect on viability, in the presence of FCS spermidine and spermine, at concentrations close to physiologic levels, induced a dose-dependent cell death, whereas putrescine was ineffective. RASMCs were significantly more sensitive than other cells. FACS analysis, oligo-nucleosome ELISA, Hoechst nuclear staining, and Annexin V-FITC quantification showed that cell death was likely due to apoptosis. Cells exposed to spermidine showed a marked increase of intracellular transglutaminase (TGase) activity ( approximately 30-fold over control). Inhibitors of polyamine oxidation or inhibitors of TGase activity prevented polyamine-induced apoptosis. Moreover, tissue TGase overexpression significantly increased cell sensitivity to polyamine, suggesting that this effect is likely related to enhanced intracellular TGase activity. These data indicate that polyamines may modulate cell viability through a novel TGase-dependent process.     

Separation and quantitation of polyamines in plant tissue by high performance liquid chromatography of their dansyl derivatives

High performance liquid chromatography in combination with fluorescence spectrophotometry can be used to separate and quantitate polyamines (putrescine, cadaverine, spermidine, spermine), prepared as their dansyl derivatives, from plant tissue. The procedure gives sensitive and consistent results for polyamine determinations in plant tissue. In a standard mixture, the minimal detection level was less than 1 picomole of polyamines.     

POLYAMINES INFLUENCE MATURATION IN REPRODUCTIVE STRUCTURES OF GRACILARIA CORNEA (GRACILARIALES,RHODOPHYTA)1

Naturally occurring levels of putrescine, spermidine, and spermine were analyzed in female gametophyte (nonfertilized) and reproductive tissues (cystocarps) at two different stages of development in the marine red algae Gracilaria cornea J. Agardh. Endogenous polyamine levels changed at differential stages of cystocarp maturation. Highest polyamine values were found on tissue from the early post‐fertilization stage, decreasing as the cystocarp matured. Incubation experiments revealed that exogenous polyamines induced cystocarp maturation and promoted carpospore liberation, developing cell masses within 4 to 7 days in treatments with spermine. This is the first report on the effect of polyamines on cystocarp maturation in marine algae.     

Profile of polyamines during sprouting and growth of saffron (Crocus sativus L.) Corms

The profile of free and conjugated polyamines putrescine, spermidine, and spermine was studied at the onset of sprouting and during various stages of vegetative growth in saffron (Crocus sativus L.) corms. Polyamines were extracted from the shoot meristems and estimated by high performance liquid chromatography. Free putrescine was not detected at the onset of sprouting, whereas free spermidine and spermine levels increased rapidly on sprouting and decreased during further stages of corm development. The levels of conjugated polyamines were several times higher than the free forms indicating their possible role in the developmental processes. A comparison of polyamine levels of vegetative and floral corms showed higher titers of free polyamines in vegetative and conjugated polyamines in floral corms.     

CLEARANCE OF THE POLYAMINES FROM THE PERFUSED CEREBROVENTRICULAR SYSTEM OF THE RABBIT

Abstract— The clearance of the polyamines spermidine and spermine from cerebrospinal fluid was investigated in the rabbit by ventriculocisternal perfusion. Clearance involved both saturable and nonsaturable uptake processes. The saturable component was a high affinity system with an affinity constant of 21 μ m for spermidine and 24 μ m for spermine. The clearance of spermidine was reduced by the presence of spermine and vice-versa. Other polyamine congeners also reduced spermidine and spermine clearance and it is suggested that the two polyamines share the same carrier. Evidence for concentrative uptake of polyamines into choroid plexus is presented and it is suggested that an active system may also transport polyamines into brain tissue. At high perfusion concentrations simple diffusion may also take place.     

High-performance liquid chromatographic procedure for the simultaneous determination of the natural polyamines and their monoacetyl derivatives

The separation of the natural polyamines and their monoacetyl derivatives by high-performance reversed-phase liquid chromatography is reported. Octane sulfonate was used to form ion pairs with the polycations and the o-phthalaldehyde method for post-column derivatization. The method allows polyamine and acetylspermidine determinations directly from tissue extracts and body fluids without pre-purification.