Presence of N-acyl and acetoxy derivatives of putrescine and cadaverine in the human gut

N-acyl and acetoxy derivatives of putrescine and cadaverine have been found in the faeces of children and in cultures of isolates of gut bacteria. The evidence was accumulated from two dimensional, thin layer chromatography, field desorption mass spectrometry, and accurate mass measurement of the DANS derivatives of the amines. The acetoxy compounds of putrescine and cadaverine have not previously been reported.

Isolation of transglutaminase-reactive sequences from complex biological systems: a prominent lysine donor sequence in bovine lens

The transglutaminase (protein-glutamine: amine gamma-glutamyltransferase, EC 2.3.2.13)-catalyzed cross-linking of proteins in biological systems can often be inhibited by inclusion of small primary amines or glutamine-containing peptides, which act as site-specific blockers of the relevant acceptor (i.e., glutamine) and donor (i.e., lysine) functionalities of the natural substrates. Compounds such as dansylcadaverine and dansyl-epsilon-aminocaproyl-Gln-Gln-Ile-Val are particularly useful in sorting out acceptor-donor relationships among lens crystallins. Apart from its fluorescent properties, the dansyl hapten offered special advantages as a "handle" for the rapid isolation of transglutaminase targets even in the complex system of lens cortical homogenate. The dansylated peptide was incorporated into bovine lens proteins under the influence of the Ca(2+)-activated intrinsic transglutaminase and, after digestion by endoproteinase Glu-C, the tracer-containing fragments were isolated by affinity chromatography on an anti-dansyl antibody column. The major fluorescent peak was isolated by HPLC and sequenced by Edman degradation, which yielded phenylthiohydantoin amino acid derivatives for the first 10 cycles, EKPAVTAAPK, and none for the next 2. The sequence, corresponding to residues 165-174 of alpha B-crystallin, unambiguously identifies the known carboxyl-terminal domain, EK-PAVTAAPKK, as the prominent lysine-donating fragment in bovine lens.

Biogenic amines in silage. 2. The dynamics of the formation of biogenic amines in silage

When analysing a series of laboratory silages made from orchardgrass, red clover and oats, the fluctuating dynamics of biogenic amines were observed. For levels of putrescine and cadaverine, a rapid exponential increase culminating approximately 30-50 days after ensiling is typical. A small decrease, reaching the minimum at approximately the 100th day, is sometimes followed by a second increase in amine concentrations achieving its maximum approximately 200-230 days after ensiling. Irregular curves of the dynamics probably originate in the simultaneous decarboxylation and deamination reactions along with other relevant amine degradation processes. The dynamics of other biogenic amines-spermidine, spermine and histamine are more difficult to predict. The changes in histamine levels resembled those in the diamines. Some 200 days after ensiling, considerable increases in this toxic amine were observed. The dynamics of some quality criteria, especially the degree of proteolysis, were in many cases similar to those of the amines.

Analysis of the binding of polymyxin B to endotoxic lipid A and core glycolipid using a fluorescent displacement probe

Dansylcadaverine, a cationic fluorescent probe binds to bacterial lipopolysaccharide and lipid A, and is displaced competitively by other compounds which possess affinity toward endotoxins. The binding parameters of dansylcadaverine for lipid A were determined by Scatchard analysis to be two apparently equivalent sites with apparent dissociation constants (Kd) ranging between 16 microM to 26 microM, while that obtained for core glycolipid from Salmonella minnesota Re595 yielded a Kd of 22 microM to 28 microM with three binding sites. The Kd of polymyxin B for lipid A was computed from dansylcadaverine displacement by the method of Horovitz and Levitzki (Horovitz, A., and Levitzki, A. (1987) Proc. Natl. Acad. Sci. USA 84, 6654-6658). The applicability of this method for analyzing fluorescence data was validated by comparing the Kds of melittin for lipid A obtained by direct Scatchard analysis, and by the Horovitz-Levitzki method. The displacement of dansylcadaverine from lipid A by polymyxin B was distinctly biphasic with Kds for polymyxin B-lipid A interactions corresponding to 0.4 microM and 1.5 microM, probably resulting as a consequence of lipid A being a mixture of mono- and di-phosphoryl species. This was not observed with core glycolipid, for which the Kd for polymyxin was estimated to range from 1.1 microM to 5.8 microM. The use of dansylcadaverine as a displacement probe offers a novel and convenient method of quantitating the interactions of a wide variety of substances with lipid A.

Diamine oxidase activity and related substrates in rat liver after chronic ethanol feeding

Chronic ethanol feeding as 12% or 36% of total calories caused a dose-dependent diminution of diamine oxidase activity in rat liver. Hepatic cadaverine and histamine levels were unmodified by ethanol, whereas putrescine increased, partially in relation to the decrease in diamine oxidase activity. Such results may be of interest in view of an aggravation of ethanol-induced hepatic damage when exogenous diamines and polyamines reach the liver in potentially toxic amounts.

Transglutaminase catalyses the modification of glutamine side chains in the C-terminal region of bovine beta-lactoglobulin

The transglutaminase-catalysed incorporation of primary amines (putrescine and monodansylcadaverine) into bovine beta-lactoglobulin has been studied. In the presence of 1 mM-dithiothreitol between 1 and 2 mol of amine can be incorporated per mol of beta-lactoglobulin subunit. There is very little incorporation of amines in the absence of reducing agent. By isolating and sequencing the modified peptides, the sites of modification have been identified as Gln-159 (preferred) and Gln-155. C.d. has been used to study the structure of beta-lactoglobulin over a range of pH values and in the presence or absence of dithiothreitol. The results are discussed in terms of the X-ray-crystallographically determined structure of beta-lactoglobulin.

Changes in polyamines during embryonic development of Atlantic salmon, Salmo salar

1. Polyamine composition of eggs and alevins from cultured and wild Atlantic salmon, Salmo salar, was compared during early development. 2. Eggs collected from wild stock had higher amounts of bound and free putrescine, spermidine and spermine than those collected from cultured stock. 3. Cadaverine was present in bound form in cultured and wild stocks before and after fertilization, respectively. However, free cadaverine was detected in both stocks throughout development. 4. Atlantic salmon embryos and alevins can synthesize polyamines which could be associated with their growth and development.

Nucleotide sequence of the Escherichia coli cad operon: a system for neutralization of low extracellular pH

Lysine decarboxylase of Escherichia coli has been the subject of enzymological studies, and the gene encoding lysine decarboxylase (cadA) and a regulatory gene (cadR) have been mapped. This enzyme is induced at low pH in the presence of lysine and achieves maximal level under anaerobic conditions. The induction of lysine decarboxylase increases the pH of the extracellular medium and provides a distinctive marker in tests of clinical strains. We report the sequence of the cad operon encoding lysine decarboxylase, a protein of 715 amino acids, and another protein, CadB, of 444 amino acids. The amino acid sequence of lysine decarboxylase showed high homology to that of the lysine decarboxylase of Hafnia alvei with less homology to the sequence of speC, which encodes the biosynthetic ornithine decarboxylase of E. coli. The cadA and cadB genes were separately cloned and placed under the control of lac and tac promoters, respectively, to facilitate independent study of their physiological effects. The cadB gene product had a mobility characteristic of a smaller protein on protein gels, analogous to that found for some other membrane proteins. The CadB sequence showed homology to that of ArcD of Pseudomonas aeruginosa, encoding an arginine/ornithine antiporter. Excretion studies of various strains, the coinduction of cadB and cadA, and the attractive physiological role for an antiport system led to a model for the coupled action of cadA and cadB in uptake of lysine, the reduction of H+ concentration, and excretion of cadaverine.

A unique factor XIII inhibitor to a fibrin-binding site on factor XIIIA

An 81-year-old woman, who presented with sudden episodes of spontaneous bleeding, was found to have a specific inhibitor of factor XIII. Her fibrin clots had approximately 70% gamma-gamma and no alpha polymer formation, under conditions where normal fibrin was fully cross-linked; the patient's clots were soluble in urea or monochloroacetic acid. Factor XIII activity in her plasma was 24%, measured by the dansylcadaverine incorporation assay. When mixed with normal plasma, the patient's plasma inhibited fibrin cross-linking; however, in mixtures of patient and normal plasma, there was no inhibition of factor XIII activity when assayed by the incorporation of dansylcadaverine into casein. Thus, this inhibitor was active against fibrin cross-linking but not against ligation of small molecules to casein. Consequently, gel electrophoresis of reduced, sodium dodecyl sulfate-solubilized fibrin clots was a simple, quantitative method that was used to measure inhibitor activity. This inhibitor is unique and has been designated inhibitor New Haven. It was neutralized by anti-IgG and anti-kappa. It did not inhibit the activation of factor XIII but did inhibit fibrin cross-linking. There was complex formation between the inhibitor and activated factor XIII (A', A*) but not between A2 or fibrinogen. Only A', A* and the 56-Kd fragment bound to affinity columns made with this IgG. The inhibitor significantly decreased the binding of A', A* to fibrin clots. These data indicate that the epitope for this inhibitor is in a fibrin binding site. It is hidden in the zymogen and expressed on A' and A*, indicating that the conformational change occurring with the cleavage of the activation peptide is sufficient to expose the fibrin binding site.

Lipoprotein (a) is a substrate for factor XIIIa and tissue transglutaminase

The mechanisms which mediate deposition of lipoprotein (a) (Lp(a)), an atherogenic lipoprotein particle, onto the vessel wall and cell surfaces are unknown. An irreversible deposition of Lp(a) may require the presence of enzymes that catalyze its binding to surface-oriented structures. Transglutaminases catalyze cross-linking of proteins as well as incorporation of primary amines into protein substrates. We studied whether tissue transglutaminase and/or activated Factor XIII (plasma derived or recombinant FXIIIa) incorporate primary amines into Lp(a). In the presence of Ca2+, Factor XIIIa and tissue transglutaminase catalyze incorporation of monodansylcadaverine or [14C]putrescine into purified Lp(a) in a specific and time-dependent manner. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis demonstrated that monodansylcadaverine became incorporated into the apo(a) portion of Lp(a). Lp(a) purified from five different donors showing different apo(a) phenotypes were substrates for tissue transglutaminases (TG). Western blot analysis confirmed that apo(a) was the major monodansylcadaverine carrying protein moiety of Lp(a). Tissue TG also extensively cross-linked the apo(a) portion of the Lp(a) particle. Characterization of the specificity of tissue TG showed that fibronectin, alpha 2-plasmin inhibitor, and apo(a) could be readily labeled with monodansylcadaverine by tissue TG, but other proteins including low density lipoprotein, IgG, alpha 1-proteinase inhibitor, and albumin showed poor or no reactivity. Direct comparison of Lp(a) with low density lipoprotein showed that apoB 100 was a poor substrate for transglutaminases. Recombinant apolipoprotein (a) proved to be an excellent substrate for TGs in that 1 mol of recombinant apolipoprotein (a) incorporated as much as 15 mol of [14C]putrescine, which corresponded to five times the amount of amine incorporated into Lp(a). The susceptibility of Lp(a) to transglutaminases suggests a mechanism whereby the interaction of Lp(a) with surface receptors and other surface oriented structures could be enzymatically altered.

Expression of a bacterial lysine decarboxylase gene and transport of the protein into chloroplasts of transgenic tobacco

A possible approach for altering alkaloid biosynthesis in plants is the expression of genes encoding key enzymes of a pathway such as lysine decarboxylase (ldc) in transgenic plants. Two strategies were followed here: one focused on expression of the gene in the cytoplasm, the other on subsequent targeting of the protein to the chloroplasts. The ldcgene from Hafnia alvei was therefore (a) placed under the control of the 1' promoter of the bidirectional Tr promoter from Agrobacterium tumefaciens Ti-plasmid, and (b) cloned behind the rbcS promoter from potato fused to the coding region of the rbcS transit peptide. Both ldc constructs, introduced into Nicotiana tabacum with the aid of A. tumefaciens, were integrated into the plant genome and transcribed as shown by Southern and northern hybridization. However, LDC activity was only detectable in plants expressing mRNA under the control of the rbcS promoter directing the LDC fusion protein into chloroplasts with the aid of the transit peptide domain. In plants expressing the processed bacterial enzyme cadaverine levels increased from nearly zero to 0.3-1% of dry mass.

Cross-linking of laminin-nidogen complexes by tissue transglutaminase. A novel mechanism for basement membrane stabilization

The laminin-nidogen complex, a major component of basement membranes, incorporates [3H]putrescine and monodansylcadaverine in the presence of guinea pig liver transglutaminase. Label was detected in nidogen in the isolated, as well as in the complexed form, but not in laminin. The incorporation proceeds in a time-dependent manner at a rate similar to that achieved with N,N-dimethylcasein, a well characterized transglutaminase substrate. Saturation of incorporation site(s), as well as comparison with the incorporation level in reference proteins, indicated the presence of one high affinity amine acceptor site in nidogen. Electron microscopy of the reaction products showed that the laminin-nidogen complexes become stabilized in a head-to-head arrangement, characteristic of Ca(2+)-induced self-aggregation. Indirect immunofluorescence and detection of transglutaminase activity on unfixed cryosections revealed an extracellular distribution of tissue transglutaminase. Intensive staining was observed in collagen-rich connective tissue. Codistribution with nidogen was not a ubiquitous feature, but was observed in many locations.

Relative affinities of divalent polyamines and of their N-methylated analogues for helical DNA determined by 23Na NMR

Interactions of divalent polyamines with double-helical DNA in aqueous solution are investigated by monitoring the decrease in 23Na NMR relaxation rates as NaDNA is titrated with H3N(+)-(CH2)m-+NH3, where m = 3, 4, 5, or 6. Analogous measurements are made for the same homologous series of methylated polyamines (methonium ions). The dependence of the 23Na relaxation rates on the amount of added divalent cation (M2+) is analyzed quantitatively in terms of a two-state model. The sodium ions are assumed to be in rapid exchange between a "bound" state, where they are close enough to DNA so that it affects their relaxation rate, and a "free" state in bulk solution, where their relaxation rate is the same as in solutions containing no DNA. The distribution of Na+ and M2+ between these states is described quantitatively in terms of an ion-exchange parameter: DM = (pMB)(1-pNaB)n/(pNaB)n(1-pMB), where pNaB and pMB are the fractions of Na+ and M2+ that are close enough to DNA to be considered bound (by the NMR criterion), and n is the number of sodium ions displaced from DNA by the binding of one M2+ ion. For each of the polyamines and methonium ions investigated here, equations derived from this two-state model yield acceptable fittings of the titration curves if roNa, the number of sodium ions bound per DNA phosphate when no competing cations are present, is assigned a value between 0.6 and 1.00. Within this range, changing the value assigned to roNa does change the best-fitted values of DM determined for these polyamines (DH) and for the methonium ions (DMe) but does not alter the following conclusions about the trends in these parameters. (1) For polyamines and methonium ions of the same m, DH exceeds DMe by factors that are significantly larger for m = 3 and 4 than for m = 5 and 6. (2) DH for m = 3 and 4 is larger than DH for m = 5 and 6. (3) DMe for m = 3 and 4 is smaller than DMe for m = 5 and 6.

Competition of homologous substrates, putrescine and cadaverine, in the reaction catalyzed by pea diamine oxidase

The determination of diamine oxidase activity with the ninhydrin reagent was used for monitoring of simultaneous oxidation of two homologous substrates, putrescine and cadaverine, which give different colour products (519 and 417 nm). We measured the reaction rates of oxidation of both substrates in different proportion and compared them with the total reaction rate determined by the guaiacol method. The substrates show competition with inhibition constants of putrescine against cadaverine of 0.14 mmol.l-1 and cadaverine against putrescine of 6.4 mumol.l-1.

Comparison of the activities of variant forms of eIF-4D. The requirement for hypusine or deoxyhypusine

Eukaryotic protein synthesis initiation factor 4D (eIF-4D) (current nomenclature, eIF-5A) contains the unique amino acid hypusine (N epsilon-(4-amino-2-hydroxybutyl)lysine). The first step in hypusine biosynthesis, i.e. the formation of the intermediate, deoxyhypusine (N epsilon-(4-aminobutyl)lysine), was carried out in vitro using spermidine, deoxyhypusine synthase, and ec-eIF-4D(Lys), an eIF-4D precursor prepared by over-expression of human eIF-4D cDNA in Escherichia coli. In a parallel reaction, using N-(3-aminopropyl)cadaverine in place of spermidine, a variant form of eIF-4D containing homodeoxyhypusine (N epsilon-(5-aminopentyl)lysine) was prepared. Evidence that N-(3-aminopropyl)cadaverine can also act as the amine substrate for deoxyhypusine synthase in intact cells was obtained by incubating putrescine- and spermidine-depleted Chinese hamster ovary cells with [3H]cadaverine. In these cells, in which [3H]cadaverine is readily converted to N-(3-aminopropyl) [3H]cadaverine, small amounts of [3H]homodeoxyhypusine and another 3H-labeled compound, presumed to be N epsilon-(5-amino-2-hydroxy[3H]pentyl)lysine, were found. eIF-4D stimulates methionyl-puromycin synthesis, an in vitro model assay for translation initiation. Whereas the unmodified precursor ec-eIF-4D(Lys) appeared inactive, the deoxyhypusine-containing form provided a significant degree of stimulation. The variant form containing homodeoxyhypusine, on the other hand, showed little or no activity. These findings emphasize the importance of hypusine or deoxyhypusine for the biological activity of eIF-4D and demonstrate the influence of both the length and chemical nature of its amino alkyl side chain.

Rapid determination by high-performance liquid chromatography of free fatty acids released from rat platelets after derivatization with monodansylcadaverine

The release of free fatty acids from rat platelets, triggered by thrombin stimulation, was monitored by high-performance liquid chromatography (HPLC) after precolumn derivatization with monodansylcadaverine (MDC). A rapid filtration procedure was devised for the precise determination of free fatty acids released from aggregated platelets, instead of the conventional method using a stop solution or enzyme reactions. The fatty acids thus collected were derivatized with MDC in the presence of diethyl phosphorocyanidate (DEPC). The simultaneous separation of MDC derivatives of fatty acids was achieved on a reversed-phase TSKgel ODS-80TM column within 60 min by linear gradient elution, using 0.2 M Tris-HCl buffer (pH 7.8)-methanol (50:50, v/v) and acetonitrile. The MDC derivatives were detected with excitation and emission wavelengths of 340 and 518 nm, respectively. The amounts of liberated fatty acids were in the range from 45.0 pmol for myristoleic acid (C14:1) to 395.0 pmol for palmitic acid (C16:0) per 1.9 x 10(7) platelets.

Gastrointestinal luminal polyamines: cellular accumulation and enterohepatic circulation

The concentration of polyamines contained in the lumen of the gut was quantified. The duodenum and jejunum of the rat contained 2-3 mM putrescine and 1-2 mM cadaverine, whereas in the ileum and colon the concentration of these polyamines was significantly less. In addition, the concentrations of spermine and spermidine in the intestinal lumen were low to undetectable. Putrescine in the lumen of the gut was over 90% free with only 10% or less bound to protein. The activity of the enzymes responsible for the synthesis of polyamines was also measured. In contrast to concentration, enzyme activity was found to be high in the ileum, cecum, and colon and nonexistent in the duodenal and jejunal lumen. This suggested the potential for enterohepatic circulation of polyamines that were synthesized by the colonic microflora and transported to the proximal gut via the portal circulation and biliary tree. Indeed, when [14C]putrescine was instilled into the lumen of the gut, it was secreted in pancreaticobiliary secretions. Upper and lower jejunum and colon all supported enterohepatic circulation of polyamines, whereas it was absent in the ileum. Polyamine accumulation in IEC-6 cells grown under in vitro conditions was also measured. Putrescine was transported under time- and temperature-dependent but sodium-independent conditions. The transporter displayed little selectivity for the various polyamines and compounds with related structures but did not recognize amino acids. The Michaelis constant for putrescine accumulation was 1.26 x 10(-6) M with a maximal velocity of the enzyme reaction of 5,184 pmol putrescine.mg protein-1.h-1.(ABSTRACT TRUNCATED AT 250 WORDS)

Polyamine concentrations in pancreatic tissue, serum, and urine of patients with pancreatic cancer

We investigated the total, free, and acetylated polyamine concentrations in pancreatic tissue, serum, and urine of 20 patients with pancreatic cancer, 30 healthy volunteers, and 40 patients with nonmalignant, gastrointestinal diseases by reversed-phase liquid chromatography. Tissue concentrations in carcinoma compared to histologically unaffected pancreas were significantly higher for putrescine, elevated for cadaverine, and nearly identical for spermidine and spermine, while N1-acetylspermidine was detectable in cancer tissue only. With the exception of free spermine in urine and total spermine in serum, all other polyamines were significantly elevated in the urine and serum of cancer patients compared to healthy controls. These data support the concept that polyamines play an important role in rapidly growing tissues. However, nonmalignant gastrointestinal diseases partly showed similar elevations. Because of this low specificity, polyamines are of little value only as diagnostic markers of pancreatic carcinoma. Since polyamine concentrations normalized in patients after curative operation while they were further elevated in patients with tumor relapse or metastases, polyamines might play a clinical role in predicting therapeutic success or indicating relapse of the tumor. A significant linear correlation of polyamine concentrations and the size of the tumor was found while a significant correlation to CEA, CA 19-9, and CA 125 or the presence of organ metastases did not exist.

The major structural proteins of cod (Gadus morhua) eggshells and protein crosslinking during teleost egg hardening

The highly hydrophobic protein aggregate which constitutes the fish eggshell has for the first time been quantitatively solubilized. This study shows that the nonactivated eggshell from cod is composed primarily of only three protein monomers, designated alpha (74 kDa) beta (54 kDa) and gamma (47 kDa). Protein extraction studies of the eggshells before and after egg activation demonstrate that egg hardening is accompanied by a 10-fold decline in total protein solubility, which is due to nonextraction of the alpha, beta, and gamma chains. When present during the egg activation process monodansylcadaverine (MDC-a fluorescent lysine analog) inhibits eggshell hardening and at the same time becomes covalently incorporated into the eggshell. This MDC incorporation is calcium-dependent and suggests the induction of a perivitelline transglutaminase activity after egg activation. (Transglutaminases catalyze the formation of an amide bond (isopeptide bond) between the gamma-carbonyl group of glutamine and the epsilon-amino group of lysine with release of ammonia. Crosslinks between proteins are generated when the two amino acid residues are located on different proteins.) Protein solubilization studies and NaDodSO4 gel analysis of the eggshell proteins from eggs subjected to 5 mM MDC during egg activation, reveal that when eggshell hardening is blocked by MDC, the three main eggshell proteins remain extractable even after egg activation. Simultaneously we observed a covalent incorporation of MDC into the gamma protein.

Lysine catabolism in Streptomyces spp. is primarily through cadaverine: beta-lactam producers also make alpha-aminoadipate

Genetic and biochemical evidence was obtained for lysine catabolism via cadaverine and delta-aminovalerate in both the beta-lactam producer Streptomyces clavuligerus and the nonproducer Streptomyces lividans. This pathway is used when lysine is supplied as the sole source of nitrogen for the organism. A second pathway for lysine catabolism is present in S. clavuligerus but not in S. lividans. It leads to alpha-aminoadipate, a precursor for beta-lactam biosynthesis. Since it does not allow S. clavuligerus to grow on lysine as the sole nitrogen source, this pathway may be used exclusively to provide a precursor for beta-lactam biosynthesis. beta-Lactam producers were unable to grow well on alpha-aminoadipate as the only nitrogen source, whereas three of seven species not known to produce beta-lactam grew well under the same conditions. Lysine epsilon-aminotransferase, the initial enzyme in the alpha-aminoadipate pathway for lysine catabolism, was detected in cell extracts only from the beta-lactam producers. These results suggest that synthesis of alpha-aminoadipate is exclusively a secondary metabolic trait, present or expressed only in beta-lactam producers, while genes governing the catabolism of alpha-aminoadipate are present or fully expressed only in beta-lactam nonproducers.

Triiodothyronine transport into differentiated and undifferentiated mouse neuroblastoma cells (NB41A3)

The mechanism of T3 entry into cells was studied in undifferentiated NB41A3 neuroblasts and after differentiation with 0.5 mM sodium butyrate. In undifferentiated neuroblasts, cell uptake of labeled L-T3 at 2 h was reduced to 43% of the control value by excess L-T3, whereas only 5.9% of D-T3 uptake was saturable. After incubation of intact cells with labeled hormone, the nuclei contained 3.8% of the total cellular L-T3 and 4.3% of D-T3. Thus, L-T3 nuclear uptake was 3 times higher than D-T3. Kinetic analysis of the initial rate of uptake of L-T3 by the cells gave a Km of 1.25 nM and a maximum velocity of 2.38 fmol/min.10(6) cells. The initial rate of D-T3 uptake was not saturable. Inhibitors of ATP production (antimycin and oligomycin) as well as monodansylcadaverine virtually abolished saturable cell uptake and decreased nuclear uptake more than total cell uptake, suggesting that the saturable component of uptake into the cells is the major source of nuclear L-T3. After differentiation by butyrate, both cell uptake and nuclear uptake of L-T3 increased. The apparent affinity (Ka) of the nuclear T3 receptors was determined in intact cells and compared with the Ka measured with isolated nuclei. In undifferentiated cells, the apparent Ka was 3-fold higher than the true Ka, presumably due to a step-up in the free T3 concentration in the cytosol compared to that in the incubation medium. After butyrate exposure, the apparent nuclear Ka was decreased to less than 1.5 times the control value, but Ka in isolated nuclei was unchanged. The number of nuclear receptors, however, was increased by butyrate in both intact cell and isolated nuclei experiments. These results indicate that butyrate exerts separate effects on the number of nuclear receptors and saturable T3 transport in mouse neuroblasts.

Effect of DL-alpha-difluoromethylornithine on polyamine synthesis and interconversion in Trichomonas vaginalis grown in a semi-defined medium

Growth of Trichomonas vaginalis in a semi-defined medium was inhibited by 5 mM DL-alpha-difluoromethylornithine (DFMO). Using high pressure liquid chromatography (HPLC) analysis, putrescine and cadaverine levels were found to be 90 and 100% reduced, respectively after 120 h exposure, whilst spermidine and spermine levels were unchanged. Putrescine (40 microM) and cadaverine (6 microM) were detected in the spent media from control cultures. Neither of these diamines was detected in spent media from 72 h DFMO-treated cultures. Changes in intracellular levels of amine precursors were also determined by HPLC. There was a transient increase in ornithine to 39 nmol (mg protein)-1 at 48 h in the DFMO-treated cells while it remained undetectable in control cells throughout the experiment. Arginine and citrulline levels remained high, decreasing to control levels only after 72 h. Only spermine (1 mM) rescued DFMO-treated cells, and this is discussed with respect to the presence of a putative spermine-specific oxidase designated by its sensitivity to aminoguanidine. Aerobic incubation of growing (normal) cells with [14C]spermine resulted in the production of an unknown metabolite (19% of total label), whose content was reduced to 5% under anaerobic conditions. Decarboxylated S-adenosylmethionine remained undetectable in DFMO-treated cells, and the methylation index (ratio of S-adenosylmethionine to S-adenosylhomocysteine) did not change from the control value of 9.3. Ornithine decarboxylase, S-adenosylmethionine synthetase, S-adenosylmethionine:L-homocysteine methyltransferase, and S-adenosylhomocysteine hydrolase enzyme activities were detected. However, S-adenosylmethionine decarboxylase, spermidine synthase or spermine synthase were not detected. These findings are discussed with reference to the arginine dihydrolase pathway whose end products are putrescine and ATP.(ABSTRACT TRUNCATED AT 250 WORDS)

Polyamines, ornithine decarboxylase, and diamine oxidase in the substantia nigra and striatum of the male rat after hemitransection

Partial hemitransection at the mesodiencephalic junction in the rat increased striatal and nigral putrescine concentrations on the lesioned side for at least 168 h, with maximal increases between 24 and 48 h. Spermidine and spermine levels declined at 24 h in the striatum, rising above control values at 48 h and further at 168 h. In the substantia nigra, they remained unchanged for the first 48 h and then increased by 168 h. Cadaverine in the striatum also increased at 48 h. On the intact side putrescine increased but to a much lesser extent (at 48 h in the striatum and at 24 and 48 h in the substantia nigra). Ornithine decarboxylase and diamine oxidase activities showed maximal increases at 24 h in the striatum of the lesioned side, whereas in the substantia nigra ornithine decarboxylase attained a very high value as early as 4 h after the operation and diamine oxidase activity peaked at 48 h. The enzyme activities returned toward the basal values at 168 h. On the intact side, ornithine decarboxylase showed a small increase starting at 4 h and diamine oxidase was enhanced at 48 h. These results indicate that the stimulation of biosynthetic and degradative enzymes of polyamine metabolism accompanied by marked and prolonged increases in putrescine may be essential events in the early phases of neuronal response to mechanical injury in the CNS.

Evidence for filaggrin as a component of the cell envelope of the newborn rat

A substrate of transglutaminase, specific to the epidermis, was identified, by fluorescent and radioactive labelling with the lysine analogues dansylcadaverine and [14C]putrescine respectively, in newborn-rat epidermal homogenates and whole-skin organ cultures. The labelled analogues were preferentially incorporated into the stratum-corneum protein filaggrin in a Ca2+-dependent manner in both 'in vitro' systems. When filaggrin was labelled in vivo with [3H]histidine and then incubated with rat epidermal preparations, the label was rendered SDS/thiol-insoluble. Incorporation of [3H]filaggrin into the insoluble envelope fraction was Ca2+-dependent and inhibited by EDTA and exogenous amines. Antisera to newborn-rat filaggrin cross-reacted with purified newborn-rat cell envelopes, and this reaction was blocked by adsorbing the antiserum with purified filaggrin. Quantification of the 'envelope-bound' filaggrin showed it to be a significant component, accounting for approx. 10% of the cell-envelope protein.

Isolation of a sodium dodecyl sulfate-insoluble transglutaminase substrate from liver plasma membranes

Rat liver plasma membranes contain transglutaminase activity and a large molecular weight protein complex which serves as a substrate for this enzyme. When plasma membranes were solubilized in sodium dodecyl sulfate and disulfide-reducing agents the transglutaminase substrate was recovered in the detergent-insoluble fraction. The insolubility of the complex suggested that it might be further studied by adsorbing membranes onto glass slides, then extracting with the detergent and reducing agent. After extraction, dark field light microscopy revealed numerous flattened sheets which varied in size from 4 to 12 micrometers. To confirm that these structures were the large molecular weight transglutaminase substrate, the plasma membranes were solubilized in sodium dodecyl sulfate and dithiothreitol and sedimented through a sucrose gradient containing the agent. The large molecular weight substrate was the only material found at the 1.11/1.23 g/cm3 interface. Microscopic examination showed the same structures previously observed on the glass slides. We conclude that the large molecular weight transglutaminase substrate is a sodium dodecyl sulfate-insoluble, morphologically distinct, protein complex. Due to its considerable size, nondissociable nature, and association with the lateral membrane, the sodium dodecyl sulfate-insoluble transglutaminase substrate may serve as a type of skeleton or scaffolding for this plasma membrane domain.

Polyamines and cell proliferation in the sea star Pycnopodia helianthoides

1. Diamines (putrescine and cadaverine) and polyamines (spermidine and spermine) were extracted from tissues of the sea star Pycnopodia helianthoides, separated and quantitated using reversed-phase high-performance liquid chromatography (RP-HPLC). Simultaneous measurements of levels of protein and DNA and rates of incorporation of 14C-thymidine were carried out. 2. The most abundant polyamine in tissues was spermidine (0.3873-2.5282 nmol/mg tissue) followed by spermine (0.103-1.5517 nmol/mg tissue), putrescine (0.2096-0.5322 nmol/mg tissue) and cadaverine (0.022-0.6064 nmol/mg tissue). 3. An unknown molecule with derivatization and elution behaviour similar to that of polyamine standards was detected in all tissues. 4. Protein levels ranged from 20.47 mg/g tissue in the body wall to 48.44 mg/g tissue in the pyloric caecum. 5. DNA levels were lowest in the ovary (0.25 mg/g tissue) and highest in the testis (5.62 mg/g tissue). 6. Incorporation of 14C-thymidine was highest in the testis. Testicular tissue had the highest spermidine/spermine ratio (5.4). A significant correlation between the spermidine/spermine ratio and 14C-thymidine incorporation (expressed either as DPM/g tissue or DPM/mg protein) suggests that polyamines are implicated in the regulation of cell proliferation in the sea star P. helianthoides.

Measurement of interprotein distances in the acto-subfragment 1 rigor complex

Using enzymatic labeling, we have conjugated the fluorescence probe dansylcadaverine (DNC) to Gln-41 of rabbit skeletal muscle actin with the intention of utilizing the dansyl chromophore as a donor in fluorescence resonance energy transfer (FRET) distance measurements. The fluorescence decay of DNC-actin was found to consist of two decay constants (8.23 and 21.2 ns) that were associated with two different but partially overlapping spectra of the dye. Three different chemical points on myosin subfragment 1 (S1) were labeled with suitable acceptors: reactive thiol 1 (SH1) and Cys-136 on LC3 were modified with tetramethylrhodamine 5- (and 6-) iodoacetamide (ITMR); Lys-83 (RLR) was derivatized with trinitrobenzenesulfonate. In the rigor complex of the two labeled proteins, fluorescence resonance energy transfer took place, the efficiency of which was 10.9, 9.28, and 3.73% for the transfer from Gln-41 to SH1, Cys-136 (LC3), and RLR, respectively. The limits of the Förster critical distance for each pair were obtained from the analysis of the polarization spectra of the donor and of the acceptors. The kappa 2(2/3) distances from actin Gln-41 to the three points on S1 were 63, 66, and greater than 37 A for SH1, Cys-136 (LC3), and RLR, respectively.

Structural specificity of diamines covalently linked to peptidoglycan for cell growth of Veillonella alcalescens and Selenomonas ruminantium

Putrescine and cadaverine are essential constituents of the peptidoglycan of Veillonella alcalescens, Veillonella parvula, and Selenomonas ruminantium and are necessary for the growth of these organisms (Y. Kamio and K. Nakamura, J. Bacteriol. 169:2881-2884, 1987, and Y. Kamio, H. Pösö, Y. Terawaki, and L. Paulin, J. Biol. Chem. 261:6585-6589, 1986). In this study, the structural specificity of the diamine requirement for normal cell growth of these bacteria was examined by using a series of diamines with a general structure of NH3+ X (CH2)n X NH3+. Diaminohexane (n = 6) which was incorporated into the peptidoglycan was as effective as putrescine (n = 4) and cadaverine (n = 5) for normal cell growth. However, diaminopropane (n = 3) and diaminoheptane (n = 7) were less effective for growth than diaminohexane, although they were incorporated into the peptidoglycan to the same extent.

Role of polyamines in intestinal adaptation in the rat

The cellular mechanisms controlling adaptive intestinal mucosal hypo- and hyperplasia are poorly understood but changes in tissue polyamine levels and in the activity of the key enzymes controlling their synthesis (ornithine decarboxylase: ODC) and degradation (diamine oxidase: DAO) have been implicated. Therefore, in two models of adaptive mucosal hyperplasia (pancreatico-biliary diversion, PBD, achieved by surgically transposing the jejunum to lie between pylorus and ampulla of Vater, and 90% small bowel resection, SBR-both studied 8 weeks after surgery) and in one model of hypoplasia (8 days total parenteral nutrition) we measured indices of mucosal mass (wet weight, protein and DNA per 10-cm intestine), the growth-associated polyamines (putrescine, spermidine and spermine per 10-cm intestine and per mg DNA) and DAO activity in the duodenum, five 10-cm segments of jejunum, five 10-cm segments of ileum and in the colon, and compared the results with those found in transected or unoperated controls. The results for the indices of mucosal mass confirmed that TPN led to a modest degree of small bowel mucosal hypoplasia whilst PBD, and particularly 90% SBR, stimulated marked adaptive hyperplasia. There were corresponding changes in the amounts of putrescine and spermidine (but not of spermine)-not only when the results were expressed per unit length but also when calculated per mg mucosal DNA and in the ratio of spermidine:spermine. There was an increasing proximal-to-distal gradient in mucosal DAO per unit length intestine in all experimental groups but when the results were expressed per mg DNA, the ileal DAO levels were significantly reduced in the PBD and resection groups, when compared with the controls. These data support the hypothesis that polyamines play a major, and perhaps a controlling, role in regulating adaptive intestinal mucosal growth.

Putrescine and cadaverine are constituents of peptidoglycan in Veillonella alcalescens and Veillonella parvula

Veillonella alcalescens ATCC 17745, a strictly anaerobic, gram-negative small coccus, requires putrescine or cadaverine for growth (M. B. Ritchey, and E. A. Delwiche, J. Bacteriol. 124:1213-1219, 1975). Both putrescine and cadaverine were demonstrated to be incorporated exclusively into the peptidoglycan layer of V. alcalescens ATCC 17745. V. parvula GAI 0574 also proved to contain putrescine as a component of peptidoglycan. The primary chemical structure of the peptidoglycan common to the two Veillonella species is N-acetylglucosamine-N-acetylmuramic acid-L-alanine-D-glutamic acid gamma-meso-diaminopimelic acid-D-alanine. Putrescine or cadaverine links covalently to the alpha-carboxyl group of the D-glutamic acid residue of the peptidoglycan is necessary for normal cell growth. In V. alcalescens ATCC 17745, above 40% saturation at cadaverine linked to the alpha-carboxyl group of the D-glutamic acid residue of the peptidoglycan is necessary for normal growth.

The conformational changes of alpha 2-macroglobulin induced by methylamine or trypsin. Characterization by extrinsic and intrinsic spectroscopic probes

The conformational changes around the thioester-bond region of human or bovine alpha 2M (alpha 2-macroglobulin) on reaction with methylamine or trypsin were studied with the probe AEDANS [N-(acetylaminoethyl)-8-naphthylamine-1-sulphonic acid], bound to the liberated thiol groups. The binding affected the fluorescence emission and lifetime of the probe in a manner indicating that the thioester-bond region is partially buried in all forms of the inhibitor. In human alpha 2M these effects were greater for the trypsin-treated than for the methylamine-treated inhibitor, which both have undergone similar, major, conformational changes. This difference may thus be due to a close proximity of the thioester region to the bound proteinase. Reaction of trypsin with thiol-labelled methylamine-treated bovine alpha 2M, which retains a near-native conformation and inhibitory activity, indicated that the major conformational change accompanying the binding of proteinases involves transfer of the thioester-bond region to a more polar environment without increasing the exposure of this region at the surface of the protein. Labelling of the transglutaminase cross-linking site of human alpha 2M with dansylcadaverine [N-(5-aminopentyl)-5-dimethylaminonaphthalene-1-sulphonamide] suggested that this site is in moderately hydrophobic surroundings. Reaction of the labelled inhibitor with methylamine or trypsin produced fluorescence changes consistent with further burial of the cross-linking site. These changes were more pronounced for trypsin-treated than for methylamine-treated alpha 2M, presumably an effect of the cleavage of the adjacent 'bait' region. Solvent perturbation of the u.v. absorption and iodide quenching of the tryptophan fluorescence of human alpha 2M showed that one or two tryptophan residues in each alpha 2M monomer are buried on reaction with methylamine or trypsin, with no discernible change in the exposure of tyrosine residues. Together, these results indicate an extensive conformational change of alpha 2M on reaction with amines or proteinases and are consistent with several aspects of a recently proposed model of alpha 2M structure [Feldman, Gonias & Pizzo (1985) Proc. Natl. Acad. Sci. U.S.A. 82, 5700-5704].

Polyamines and diamine oxidase activity in maternal, embryonal, and fetal tissues of rat after chronic ethanol consumption

The effects of maternal ethanol consumption for 4 weeks before and throughout gestation on polyamine content and diamine oxidase activity of maternal, embryonal and fetal tissues are reported. At the 12th day of pregnancy, a decrease of putrescine in the liver of the mother and marked increases in putrescine, cadaverine and spermidine in embryos were observed. At day 18, putrescine and cadaverine diminished in maternal liver and placenta, and no changes in amine content in fetal liver and brain were found. At day 12, diamine oxidase activity increased in maternal liver and placenta, whereas it greatly diminished in embryos. At day 18, enzyme activity decreased in maternal liver, placenta, fetal liver and brain. These results indicate that chronic ethanol ingestion induces alterations in polyamine concentrations and metabolism in growing and developing tissues during pregnancy that might contribute to the adverse effect of ethanol on conceptual development.

Modification of phospholipids in erythrocyte membranes by phospholipase D. A fluorescence and ESR spectroscopic study

The conversion of more than 65% of the phospholipids in human erythrocyte membranes to phosphatidyl-methanol and phosphatidic acid by incubation with phospholipase D and methanol increased the dissociation constant of the fluorescence probe ANS compared to untreated membranes, but did not affect the number of binding sites and the limiting fluorescence enhancement at maximal binding (Imax). On the contrary, the cationic fluorescence probe dansylcadaverin showed additional binding sites without a change in Kd and an increase of Imax upon incubation with phospholipase D treated erythrocyte membranes compared to incubations of membranes with the original phospholipid pattern. The characteristic temperature-dependence of the quenching of the membrane protein fluorescence by a membrane-bound nitroxide-labeled stearic acid was not influenced by the modification of the phospholipids. A slight reduction of the order parameter, S, determined by ESR-spectroscopy with the same nitroxide spin-labeled fatty acid incorporated into modified membranes compared to controls was found at 40 degrees C, but not at 25 degrees C. The results were interpreted as an indication of membrane domains that retained their physical properties and lipid composition during the incubation with phospholipase D.

Factor V is a substrate for the transamidase factor XIIIa

Coagulation Factor V (Mr = 330,000), upon cleavage by thrombin, produces Factor Va, which is composed of two subunits with Mr values of 94,000 and 74,000, along with two activation fragments possessing no known function. Studies were undertaken to assess the ability of the transamidase Factor XIIIa to covalently incorporate the lysine analogs [3H]putrescine and dansylcadaverine into the thrombin-cleaved (activated) and unactivated forms of human and bovine Factor V. The incorporation of either probe into thrombin-activated Factor V proceeded at an initial rate approximately twice that for unactivated Factor V. The extent of the incorporation of [3H]putrescine or dansylcadaverine into activated or unactivated human Factor V was identical; 4 mol of either probe per mol of Factor V. In the case of bovine Factor V, however, while 4 mol of probe were bound per mol of the unactivated pro-cofactor, 5 mol of either lysine analog were covalently linked to 1 mol of thrombin-cleaved Factor V. Polyacrylamide gel fluorography, immunoaffinity chromatography, and immunoprecipitation identified the largest activation fragment of human Factor V (Mr = 150,000) and bovine Factor V (Mr = 120,000) to contain the sites of incorporation of the covalently bound probes. High molecular weight, apparently covalent polymers of Factor V were produced by the action of Factor XIIIa on activated and unactivated human or bovine Factor V. The absence of either probe in the reaction mixtures did not appear to allow an enhancement of protein polymerization.

Transglutaminase and the neuronal cytoskeleton in Alzheimer's disease

Transglutaminase [EC 2.3.2.13, (R)-glutaminyl-peptide:amine gamma-glutamyltransferase], an enzyme that catalyzes the introduction of glutamine-lysine cross-links into proteins, was purified. Neurofilament and microtubule proteins were substrates for this enzyme but the insoluble neurofibrillary tangles (NFT) isolated from Alzheimer's disease brain were not substrates. In vitro cross-linking of neurofilaments and microtubules by the enzyme did not produce paired helical filaments (PHF), which are the major ultrastructural component of NFT. These results make it unlikely that PHF are formed by the straightforward cross-linking of neurofilaments or microtubules.

Cadaverine covalently linked to a peptidoglycan is an essential constituent of the peptidoglycan necessary for the normal growth in Selenomonas ruminantium

Cadaverine links covalently to the D-glutamic acid residue of the peptidoglycan in Selenomonas ruminantium, a strictly anaerobic Gram-negative bacterium (Kamio, Y., Itoh, Y., and Terawaki, Y. (1981) J. Bacteriol. 146, 49-53). This report clarifies a physiological function of cadaverine in this organism by using DL-alpha-difluoromethyllysine, which had previously been shown to be a selective irreversible inhibitor of lysine decarboxylase of Mycoplasma dispar (Pösö, H., MaCann, P.P., Tanskanen, R., Bey, P., and Sjoerdsma, A. (1984) Biochem. Biophys. Res. Commun. 125, 205-210). DL-alpha-Difluoromethyllysine is now shown to be a potent and irreversible inhibitor of lysine decarboxylase of S. ruminantium in vitro; however, it did not inhibit the transfer of cadaverine to the alpha-carboxyl group of the D-glutamic acid residue of the peptidoglycan. DL-alpha-Difluoromethyllysine at 5 mM markedly inhibited the growth of the bacterium and caused rapid cell lysis. Immediately before the cell lysis, almost all cells became swollen, and such cells showed a loosened envelope structure when studied by electron microscopy. The peptidoglycan prepared from the DL-alpha-difluoromethyllysine-treated cells did not have covalently linked cadaverine. The growth inhibition by DL-alpha-difluoromethyllysine was completely reversed by adding cadaverine (1 mM) to the medium. Furthermore, the exogenous cadaverine was exclusively incorporated into the peptidoglycan in the presence of DL-alpha-difluoromethyllysine (5 mM), and a normal peptidoglycan was synthesized. The cell lysis and the formation of an abnormal cell structure were completely prevented by cadaverine added to the medium. We conclude that cadaverine covalently linked to the peptidoglycan in S. ruminantium is an essential constituent of the peptidoglycan and is required for cell surface integrity and the normal growth of S. ruminantium.

Formation of a compensatory polyamine by Escherichia coli polyamine-requiring mutants during growth in the absence of polyamines

The amounts of normal and compensatory polyamines of polyamine-requiring Escherichia coli mutants grown in the absence of polyamines were determined. Although aminopropylcadaverine, a compensatory polyamine, was synthesized by MA135 (speB) and DR112 (speA speB), no aminopropylcadaverine or only small amounts of aminopropylcadaverine were synthesized by EWH319 (speA speB speC speD) and MA261 (speB speC), respectively. The average mass doubling times of MA135, DR112, MA261, and EWH319 grown in the absence of polyamines were 113, 105, 260, and 318 min, respectively. The correlation of these values with the sum of spermidine plus aminopropylcadaverine suggested that aminopropylcadaverine is important for cell growth in the presence of limiting amounts of normal polyamines. This hypothesis is supported by the results of aminopropylcadaverine stimulation of the in vitro synthesis of polyphenylalanine and MS2 RNA replicase and of its stimulation of the growth of MA261. For the following reasons, it was concluded that aminopropylcadaverine was synthesized preferentially from cadaverine made by ornithine decarboxylase: aminopropylcadaverine was synthesized in relatively large amounts in cells (MA135 and DR112) which possess ornithine decarboxylase; ornithine decarboxylase catalyzed the decarboxylation of lysine in vitro, and the in vivo formation of aminopropylcadaverine was inhibited by an inhibitor of ornithine decarboxylase.

Amplification of ornithine decarboxylase gene in response to polyamine deprivation in Chinese hamster ovary cells

We have isolated from an arginase-deficient polyamine-dependent Chinese hamster ovary cell line a new mutant strain that has greatly increased ornithine decarboxylase activity. This enables the cells, in the absence of ornithine, to decarboxylate lysine into cadaverine (diaminopentane) that is further converted into N-(3-aminopropyl)cadaverine and N,N'-bis(3-aminopropyl)cadaverine. These unusual polyamines can support the growth of the cells without added polyamines derived from ornithine. Immunoreactive ornithine decarboxylase-like protein was clearly increased in the mutant cells but could not solely account for the greatly increased enzyme activity. Southern blot analysis of DNA hybridized to a plasmid carrying ornithine decarboxylase-cDNA revealed at least a 32-fold amplification of the ornithine decarboxylase gene. Ornithine decarboxylase-mRNA concentration was also highly increased in the cells. The half-life of the enzyme and the Km for ornithine were not altered from those of the parental cell line.

[Subcellular localization, inhibiting specificity and catalytic properties of several aminooxidases from the human placenta]

Human placenta was shown to contain practically all known types of aminooxidase, i.e., Membrane-bound and soluble monoamine oxidases A that predominantly oxidize serotonin (Km approximately 0.05 and 0.2 mM) and tyramine (Km approximately 0.03 and 0.085 mM), partly oxidize phenylethylamine (Km approximately 0.013 and 0.1 mM) and slightly oxidize benzylamine; Monoamine oxidase B and its intermediate form, B', with equal sensitivity towards the inhibitors, Lilly 51641 and deprenyl. The main substrates for these enzymes are phenylethylamine (Km = 0.011 mM for the membrane-bound and 0.019 mM for the soluble enzymes); Membrane-bound and soluble benzylamine oxidases that are stable to MAO inhibitors but are highly labile towards semicarbazide and aminoguanidine and that predominantly oxidize benzylamine. The Km value for the soluble enzyme is 0.19 mM, its specific activity is 0.058 nmol aldehyde/min/mg protein, which markedly exceeds that for serum benzylamine oxidase (i.e., 0.014 nmol/min/mg) and thus excludes its serum origin; Diamine oxidase that oxidizes putrescine (Km = 0.025 mM), histamine and cadaverine and only slightly oxidizes benzylamine. One characteristic feature of the placenta is the presence of soluble MAO as well as MAO incorporated into the endoplasmic reticulum membrane (microsomes). In all probability, these enzymes are precursors of the mitochondrial enzyme. The concentration of MAO A in the mitochondria is approximately 1.3%, that in microsomes--approximately 1%, kcat = 270 and 320 min-1, respectively.

Biosynthesis of 5-aminopentanoic acid and 2-piperidone from cadaverine and 1-piperideine in mouse

1-Piperideine, 5-aminopentanoic acid, and its lactam, 2-piperidone, were identified as metabolites of cadaverine in 10,000 g mouse liver supernatants to which diamine oxidase had been added. Both metabolites were also found when the cadaverine metabolite 1-piperideine was incubated with the preparation which suggested that 1-piperideine is an intermediate in the formation of 5-aminopentanoic acid and 2-piperidone. Identification of the metabolites was based on gas chromatography-mass spectrometric analysis in comparison to authentic standards. Mouse brain homogenates converted 1-piperideine to 5-aminopentanoic acid. The results suggest that the metabolic fate of cadaverine may provide precursors of pharmacologically active analogues of GABA.

Hyperplasia and hypertrophia in the denervated and distended rat urinary bladder

The parasympathetically denervated and distended rat urinary bladder was found to have increased fourfold in weight when examined 3 weeks postoperatively. Both in muscularis and mucosa of such a bladder the synthesis of proteins, RNA and DNA was increased severalfold. An increase in the polyamines putrescine, spermidine and spermine was also found; these polyamines are usually linked to protein synthesis. The results suggest that the cells of the two layers increase both in size and number. Hyperplasia was, in a previous study, suggested as a possible explanation for a right-ward shift of the active length-tension curve of muscle strips in the denervated rat urinary bladder.

Transfer of intestine-derived diamines into tumour cells during treatment of Ehrlich-ascites--carcinoma-bearing mice with polyamine anti-metabolites

Treatment of Ehrlich-ascites-carcinoma-bearing mice with methylglyoxal bis(guanylhydrazone) alone or in combination with 2-difluoromethylornithine greatly enhanced the transfer of intragastrically administered radioactive putrescine and cadaverine into the carcinoma cells. Difluoromethylornithine alone did not have any effect on the accumulation of intestine-derived diamines in the tumour cells. The frequently reported restoration of difluoromethylornithine-induced polyamine depletion on administration of methylglyoxal bis(guanylhydrazone) is in all likelihood attributable to a profound inhibition of intestinal diamine oxidase (EC 1.4.3.6), resulting in an enhanced entry of intestinal (bacterial) diamines into general circulation and finally into tumour cells.

Epidermal and hair follicle transglutaminases and crosslinking in skin

Epidermal and hair follicle transglutaminases crosslink structural proteins in the skin by epsilon-(gamma-glutamyl)-lysine bonds. This crosslinking produces protein polymers that are extremely insoluble and, until recently, difficult to characterize. Epidermal transglutaminase is localized to the granular layer of the epidermis. It catalyzes the crosslinking of a soluble cytoplasmic precursor to form the cornified envelope that lines the inner membrane of the mature keratinocyte in the stratum corneum. Hair follicle transglutaminase is localized to the inner root sheath and medulla of the hair follicle. It crosslinks a poorly characterized citrulline-rich protein. The enzymes and their substrates have been shown to be important markers of normal differentiation. Regulation of these processes is currently under investigation.

[Peroxidation of lipids in mitochondrial membranes, induced by enzymatic deamination of biogenic amines]

In presence of ferrous cations and ascorbate lipid peroxidation in mitochondrial membranes has been induced by incubation of fragments of the membrane devoid of catalase activity with amines which are substrates of monoamine oxidases of the B type (2-phenyl ethylamine, benzylamine) or transformed monoamine oxidases of type A (cadaverine). In the samples containing both cadaverine and benzylamine the highest stimulation of lipid peroxidation was noted. To the contrary, a substrate of the monoamine oxidases of the type A (serotonin) caused under the same conditions an antioxidative effect. The following conditions are obligatory to induce lipid peroxidation in mitochondria by incubation with amines: I. absence of catalase activity in the biomembranes; 2. presence of physiological concentrations of Fe2+. Physiological concentrations of ascorbate or alterations of pH in the samples caused additional stimulation of the lipid peroxidation.

Transglutaminase-mediated cross-linking in mammalian epidermis

The epsilon-(gamma-glutamyl)lysine isopeptide bond has been identified in certain structural proteins of the hair fibre and the epidermis. The major cross-linked proteins are not keratins and generally have little or no cysteine, but have a high glutamic acid/glutamine residue content. In the hair fibre the cross-link appears in the citrulline-containing proteins of the medulla and the inner root sheath of the follicle. In the epidermis the cross-linked proteins are involved in the formation of the cornified envelope of the stratum corneum cells. In both cases, the cross-linked proteins contribute the characteristic property of chemical resistance to their biological structures.

Cadaverine and aminoguanidine potentiate the uptake of histamine in vitro in perfused intestinal segments of rats

Examination of the serosal fluid following in vitro luminal perfusion of rat intestinal segments with 1 mg/ml [3H]histamine for 2 hr showed that histamine constituted only 22.1% of the total serosal radioactivity. The remainder of the radioactivity was comprised of histamine metabolites. When equimolar amounts of either aminoguanidine and cadaverine were added to the luminal perfusate, the percentage of the serosal radioactivity as histamine increased to 67.0 and 60.4%, respectively. However, when equal amounts of histamine and anserine were added to the luminal perfusate, only 30.6% of the 3H translocated within 2 hr was [3H]histamine. In all cases, the gross translocation rate based on the percentage of total serosal radioactivity for total radioisotope [( 3H]histamine plus [3H]histamine metabolites) was unchanged by the addition of these substances to the luminal perfusate. The results indicate that the potentiation of histamine toxicity by putrefactive amines, such as cadaverine, results from the inhibition of histamine metabolism which leads to increased uptake of unmetabolized histamine. The results do not support the hypothesis that potentiation occurs via an overall increase in the absorption of histamine and its metabolites due to some disruption in the barrier function of the intestine.

Conversion of orally administered 2-n.pentylaminoacetamide into glycinamide and glycine in the rat brain

Male Sprague Dawley albino rats were treated orally with 2-n.pentylaminoacetamide (10 to 100 mg/kg b.wt). This oral administration provoked a dose-related and time-dependent accumulation of glycinamide in forebrain, cerebellum, and medulla, and to increased levels of glycine in the three brain areas, and of serine in medulla. In kidney, liver and plasma, the accumulation of glycinamide was lower and there was no increase in glycine and serine levels. With a dose of 100 mg/kg b.wt, 28% of the drug were eliminated unchanged and 16% as glycinamide, in urines collected for 24 h. In all tissues examined, 2-n.pentylaminoacetamide and glycinamide levels peaked at 1 h and were nil again after 24 h, the ratio of 2-n.pentylaminoacetamide over glycinamide decreasing more rapidly in brain than in kidney and liver. Contrasting with the effects of 2-n.pentylaminoacetamide, the oral administration of glycinamide (66 mg/b.wt) led, 2 hours later, to similar low rises of glycinamide in plasma and brain. In another control experiment, the intraperitoneal injection of a large dose of glycine (450 mg/kg b.wt) provoked, 30 min later, modest rises of glycine levels in the central nervous system that merely reflected a contamination by plasma glycine.

Characterization of binding and uptake of 3,3',5-triido-L-thyronine in cultured mouse fibroblasts

The binding and internalization of 3,3'-[125I] 5-triiodo-L-thyronine ([125I]T3) was studied in cultured Swiss 3T3-4 mouse fibroblasts. At 0 C, the binding of T3 to cells is saturable, reversible, and stereospecific. These results together with those of earlier fluorescence studies using rhodamine-labeled T3 demonstrate the presence of specific plasma membrane T3 receptors. At 37 C, the uptake of T3 reached a steady state after 1 h, and approximately 57 fmol T3 were specifically taken up by 10(6) cells. In other cell lines, 7, 19, and 201 fmol T3 were specifically taken up by Chinese hamster ovary cells (subclone 10001), Kirsten sarcoma virus-transformed NIH 3T3 mouse fibroblasts, and nontransformed NIH 3T3 mouse fibroblasts, respectively. Incorporation of T3 into nuclei followed similar kinetics and accounted for approximately 9% of the total cellular uptake. Equilibrium binding studies of T3 to isolated nuclei showed one class of binding sites with an apparent association constant of 5 X 10(9) M-1 and a binding capacity of 16 fmol/100 micrograms DNA. At 37 C, the internalization of T3 was nearly totally blocked by antimycin A or rotenone, inhibitors of oxidative phosphorylation. These results indicate that the uptake of T3 is an energy-dependent process. In the presence of bacitracin or monodansylcadaverine, substances that inhibit the receptor-mediated endocytosis of alpha 2-macroglobulin, the cellular uptake of T3 as well as the nuclear incorporation of T3 were inhibited in a concentration-dependent manner. The half-maximal inhibitory concentrations for the cellular uptake of T3 were 90 and 660 microM for monodansylcadaverine and bacitracin, respectively; for nuclear incorporation, they were 70 and 350 microM for monodansylcadaverine and bacitracin, respectively. These results indicate that receptor-mediated endocytotic uptake of T3 is a physiologically significant pathway.