Permeation of a myristoylated dipeptide across the buccal mucosa: topological distribution and evaluation of tissue integrity

The ex vivo permeation of an acylated model dipeptide, Myristoyl-Tryptophan-Leucine (Myr-Trp-Leu) was studied using pig buccal mucosa. Myr-Trp-Leu, being lipophilic, did not readily penetrate across the membrane. Rather, it accumulated in the epithelial and connective tissue of the mucosal barrier. The topological distribution of Myr-Trp-Leu across the mucosa, following its application in ethanol/phosphate buffer (30/70 pH 7.4), was determinated by thin-sectioning of the tissue, extraction of the peptide, and high performance thin layer chromatography (HPTLC). The concentration profile depended, of course, on the duration of the experiment and appeared to be dependent upon the presence of sufficient ethanol in order that the peptide could be solubilized. This important role for ethanol then raised the question of the solvent's effect on tissue integrity. Light microscopic examination of the mucosa was, therefore, undertaken, under identical conditions to those used in the permeation experiments, to evaluate any perturbation induced by the ethanolic vehicle. No obvious effects were observed.

Factors and strategies for improving buccal absorption of peptides

Peptides and polypeptides have important pharmacological properties but only a limited number (e.g. insulin, oxytocin, vasopressin) have been exploited as therapeutics because of problems related to their delivery. The buccal mucosa offers an alternative route to conventional, parenteral administration. Peptides are generally not well absorbed through mucosae because of their molecular size, hydrophilicity and the low permeability of the membrane. Peptide transport across buccal mucosa occurs via passive diffusion and is often accompanied by varying degrees of metabolism. This review describes various approaches to improve the buccal absorption of peptides including the use of penetration enhancers to increase membrane permeability and/or the addition of enzyme inhibitors to increase their stability. Other strategies including molecular modification with bioreversible chemical groups or specific formulations such as bioadhesive delivery systems are also discussed.

Synthesis and characterization of an acylated di-peptide (Myr-Trp-Leu) with modified transmucosal transport properties

In order to improve the buccal absorption of a dipeptide model compound, Tryptophan-Leucine (Trp-Leu), we have synthesised a lipophilic derivative by myristoylation of the N- terminal amino group of Trp-Leu. The acylated peptide (Myr-Trp-Leu) was characterized by HPTLC, purified and isolated by chromatography on a silica gel column. Its structure was confirmed by (13)C and (1)H NMR and mass spectroscopy. The increased lipophilicity of the Myr-Trp-Leu was compared to that of the native peptide by chromatography and by its partition coefficient between n-octanol and saline phosphate buffer. In addition, the sensitivity towards hydrolytic enzymes was studied. The interaction of Trp-Leu with liposomes as model membranes was also studied. The phase transition temperature of dipalmitoylphosphatidylcholine (DPPC) was lowered in the presence of Myr-Trp-Leu, while it was increased in the presence of native parent peptide. Permeation experiments performed in vitro with pig buccal mucosa showed that the Myr-Trp-Leu accumulated in the tissue at the various concentrations tested. In contrast, the native peptide was able to pass through the membrane at all concentrations used. Lipophilic modification of the peptide by acylation drastically changes its behaviour towards tissue systems.

Regulation of the intracellular pH in the protozoan parasite Trypanosoma brucei brucei

The mechanisms regulating the intracellular pH (pHi) in both forms of Trypanosoma brucei brucei (cultured cells) were investigated using the fluorescent probe 2',7'-bis-(2-carboxyethyl)-5-(and-6)-carboxyfluorescein (BCECF). The pHi values measured were 7.22+/-0.03 in the procyclics and 7.40+/-0.05 in the bloodstream form. In the presence of 24mM HCO3-, pHi values were slightly higher in both forms of trypanosomes suggesting a bicarbonate-linked pH regulation. pHi was more stable in procyclics (between 7.15 and 7.30 in the external pH range 6.4-7.6) than in the bloodstream forms. The amiloride analogue tested decreased pHi, suggesting Na+-driven Na+/H+ antiporters. H+-ATPases also seem to be involved in pHi regulation since the inhibitors N-ethylmaleimide (1 mM) and N,N'-dicyclohexylcarbodiimide (80 microM) induced a rapid acidification in both forms of trypanosomes. Addition of pyruvate caused a cytosol acidification in the bloodstream form only confirming the existence of a diffusion-facilitated carrier for pyruvate, with the cotransport of H+. Our results show that, although similar pH regulation mechanisms seem to exist in both forms of trypanosomes, the procyclics can regulate efficiently their pHi and consequently their plasma membrane potential whereas the bloodstream forms cannot always maintain their pHi and are easily depolarized following a small acid load.

Translationally controlled tumor protein: a protein identified in several nontumoral cells including erythrocytes

The translationally controlled tumor protein (TCTP) is a growth-related protein which is regulated at the translational level. It is present in mammals, higher plants and Saccharomyces cerevisiae. This study was undertaken to localize and further characterize the TCTP in human cell lysates using two-dimensional gel electrophoresis, monoclonal antibodies, and 45Ca-gel overlay. TCTP was found in several healthy and tumoral cells including erythrocytes, hepatocytes, macrophages, platelets, keratinocytes, erythroleukemia cells, gliomas, melanomas, hepatoblastomas, and lymphomas. It could not be detected in kidney and renal cell carcinoma (RCC). A monoclonal antibody raised against TCTP detected three isoforms likely due to post-translational modifications. A calcium binding property was found as well as heat stability and cytoplasmic localization. The high degree of homology from plants to man and its expression in many tissues suggests that TCTP most likely has a cell housekeeping function.

Kinetic study of the plasma-membrane potential in procyclic and bloodstream forms of Trypanosoma brucei brucei using the fluorescent probe bisoxonol

The characteristics of the plasma-membrane potential of procyclic and bloodstream forms of Trypanosoma brucei brucei (cultured cells) were investigated using the fluorescent anionic probe bisoxonol. Observation of a stable and representative plasma-membrane potential in the resting state required careful washing, centrifugation and maintenance of the cells at room temperature before measurement. Bloodstream forms were more prone to depolarization during washing at 4 degrees C than procyclic cells. The higher fluorescence observed in the presence of long slender cells than in the presence of procyclic cells shows that the plasma-membrane potential is more negative in the insect form. Healthy dilute cells can sustain their plasma-membrane potential for hours in the presence of external glucose. The presence of a high K+ concentration in the medium did not promote by itself the depolarization of either type of cell. Study of bisoxonol fluorescence as a function of time allowed us to follow the kinetics of the action of metabolic inhibitors in the presence of various ions. o-Vanadate (1 mM) was found to depolarize bloodstream-form cells rapidly but only in a phosphate-free NaCl buffer. Omeprazole and strophanthidin also specifically depolarized bloodstream-form trypanosomes. However, NN'-dicyclohexylcarbodi-imide depolarized both types of cell, but more rapidly for bloodstream-form cells. Bloodstream-form trypanosomes appear to use mainly a vanadate-sensitive Na+ pump to maintain their Na+-diffusion gradient. However, most of the ATPase inhibitors tested had little or no effect on the plasma-membrane potential of procyclics suggesting that this form of trypanosome may rely on several regulation mechanisms.

Neutral endopeptidase activity and concentration of sensory neuropeptide in the human nasal mucosa

Human nasal mucosa biopsy samples were studied by biochemical and histological methods to determine whether the concentration of calcitonin gene-related peptide-like immunoreactivity (CGRP-LI) as a marker of sensory nerves was dependent on the activity of neutral endopeptidase-like enzyme (NEP-LE). Mucosal samples from the middle turbinate were obtained from 32 patients undergoing functional endoscopic nasal surgery for non-allergic chronic rhinosinusitis. The degree of symptoms related to nasal obstruction, rhinorrhea and headaches was recorded. The number of inflammatory cells in each biopsy sample was evaluated by conventional histopathological examination. CGRP-LI was measured by radioimmunoassay. The activity of NEP-LE was evaluated in vitro using [3H] Leu5-enkephalin as substrate. A good correlation was observed between increased concentrations of CGRP, abundant inflammatory cells and the intensity of symptoms (R2 = 0.80). A low activity of NEP-LE was associated with a high concentration of both inflammatory cells and CGRP, suggesting that NEP-LE activity was reduced during inflammation. These observations further support the hypothesis that reduced degradation of sensory neuropeptides could be involved in the pathophysiological mechanisms of non-specific chronic rhinosinusitis.

Characterization of reactions catalysed by yeast phosphatidylinositol synthase

The nature of reactions catalysed by yeast phosphatidylinositol synthase expressed in E. coli has been investigated. The single enzyme is shown to carry both CDP-diacylglycerol-dependent incorporation of inositol into phosphatidylinositol (Km for inositol of 0.090 mM) and a CDP-diacylglycerol-independent exchange reaction between phosphatidylinositol and inositol (Km for inositol of 0.066 mM). The exchange reaction and reversal of phosphatidylinositol synthase were both stimulated by CMP, but had different optimum pH and requirements for substrates. These results suggest that CMP-stimulated exchange and CMP-dependent reverse reactions are distinct processes catalysed by the same enzyme, phosphatidylinositol synthase.

Active transport of L-proline in the protozoan parasite Trypanosoma brucei brucei

The characteristics of L-proline transport in the procyclic form of Trypanosoma brucei were studied by using L-[14C]proline and a quick separation technique by centrifugation through an oil mixture. L-Proline uptake displayed typical Michaelis-Menten kinetics, with a Km of 19 microM and a maximum transport velocity of 17 nmol/min per 10(8) cells at 27 degrees C. The maximum concentration gradient factor obtained after 1 min of incubation was 270-fold in 0.02 mM proline. Cells permeabilized with 80 microM digitonin were still able to accumulate 14C label, but to a lower extent. The temperature-dependence of proline uptake gave an apparent activation energy of 74.9 kJ.mol-1. In competition studies with a 10-fold excess of structural analogues, L-alanine, L-cysteine and L-azetidine-2-carboxylate were found to inhibit L-proline uptake. Variation of pH or addition of the protonophore carbonyl cyanide m-chlorophenylhydrazone ('CCCP') did not affect proline transport, showing that it is not driven by a protonmotive force. The absence of Na+, with or without monensin, did not affect proline transport. The absence of K+ and the addition of the Na+,K(+)-ATPase inhibitor ouabain had no significant effect on proline uptake activity. The thiol-modifying reagent iodoacetate (10 mM) decreased proline uptake by half. KCN (1 mM) inhibited proline uptake to a lesser extent, and the degree of inhibition was proportional to the intracellular ATP concentration. Preliminary experiments on proline transport in plasma-membrane vesicles of the cells, using a filtration technique, showed an uptake of proline (0.67 nmol/mg of protein) by the vesicles, but only in the presence of intravesicular ATP. The results thus obtained suggest that the proline carrier system in T. brucei is ATP-driven and independent of Na+, K+ or H+ co-transport.

Transport of pefloxacin across the bacterial cytoplasmic membrane in quinolone-susceptible Staphylococcus aureus

Binding to phospholipids, uptake by simple diffusion, and an energy-dependent, carrier-mediated efflux are thought to characterize interactions between fluoroquinolones and bacterial cytoplasmic membranes. Here, we have found that an endogenous active efflux is unlikely in quinolone-susceptible Staphylococcus aureus. The protonophore, carbonyl cyanide m-chlorophenylhydrazone (CCCP), increased pefloxacin uptake in different membrane systems under conditions which excluded carrier-mediated transport, i.e., in bacterial cells at 4 degrees C and in protein-free phosphatidylglycerol liposomes. When plotted as a function of outer pH, the CCCP effect, both in S. aureus cells and in phosphatidylglycerol liposomes, correlated with pefloxacin labeling of everted S. aureus membrane vesicles, with all three profiles showing maximal effect at an acidic pH. So the CCCP effect may result not from inhibition of the proton motive force, as previously thought, but rather from acidification of the intramembrane space by the protonophore, leading to enhanced binding of the positive pefloxacin species to the inner leaflet of the bilayer. Moreover, antistaphylococcal potency and uptake profiles of pefloxacin in S. aureus and phosphatidylglycerol liposomes, assayed as a function of outer pH, peaked at a neutral pH. These observations suggest that zwitterionic and positive quinolone species are responsible for diffusion through and binding to the cytoplasmic membrane, respectively.

Cadmium speciation studies in the intestine of Lumbricus terrestris by electrophoresis of metal proteins complexes

Cadmium speciation of the intestinal compartment of the earthworm species, Lumbricus terrestris, has been investigated using polyacrylamide gel electrophoresis under non-denaturing conditions. Worms exposed to Cd(NO3)2 supplemented soils have been studied and compared to control samples. Prior to electrophoresis, the worm intestines were removed and dissected. Proteins in the crude intestinal extracts were separated using polyacrylamide gel electrophoresis. The cadmium distribution in the proteins has also been described. In a second set of experiments, cadmium bound to proteins was first isotopically exchanged with labelled cadmium (109Cd) and then cadmium speciation was performed using gel electrophoresis. Autoradiography of this gel shows an intense band in the contaminated sample whereas this band was absent in the control sample. These results show that one type of major protein has a strong affinity for cadmium in the worm intestinal extract. This type of protein had a migration close of that of rabbit liver metallothionein used for comparison.

Stimulus-response coupling in insulin-secreting HIT cells. Effects of secretagogues on cytosolic Ca2+, diacylglycerol, and protein kinase C activity

The hamster islet B cell line HIT retains the ability to secret insulin in response to glucose and several receptor agonists. We used HIT cells to study the initial signaling events in glucose or receptor agonist-stimulated insulin secretion. Glucose stimulated insulin release from HIT cells in a dose-dependent manner with a half-maximal effect seen already at 1 mM. Insulin release was also stimulated by carbachol in a glucose-dependent manner. Glucose depolarized the HIT cell membrane potential as assessed with the fluorescent probe bisoxonol and raised intracellular Ca2+ as revealed by fura-2 measurements. Using a Mn2+ fura-2 quenching technique, we could show that the rise in intracellular Ca2+ was due to Ca2+ influx following opening of voltage-gated Ca2+ channels. Glucose is thought to increase the diacylglycerol (DAG) content of insulin-secreting cells. However, although HIT cells respond to glucose in terms of insulin secretion, membrane depolarization, and Ca2+ rise, the hexose was unable to increase the proportion of protein kinase C activity associated with membranes. In contrast, the membrane-associated protein kinase C activity increased in HIT cells exposed to the two receptor agonists carbachol and bombesin. Bombesin was shown to generate DAG with the expected fatty acid composition of activators of phospholipase C. Glucose, in contrast, only caused minor increases in DAG containing myristic and palmitic acid without affecting total DAG mass. The failure to detect stimulation of protein kinase C by glucose could be due to both the limited amount and to the different fatty acid composition of the metabolically generated DAG. The latter was in part supported by experiments performed on protein kinase C partially purified from HIT cells. Indeed, 1,2-dipalmitoylglycerol, presumed to be the main DAG species generated by glucose, was only one-third as active as 1,2-dioleoylglycerol and 1-stearoyl-2-arachidonylglycerol in stimulating the isolated enzyme at physiological Ca2+ concentration. It is therefore unlikely that DAG and protein kinase C play a major role in glucose-stimulated insulin secretion.

Purification and properties of the gamma-butyrobetaine-binding protein from an Agrobacterium sp

A binding protein for gamma-butyrobetaine was purified from osmotic shock fluid of an Agrobacterium sp. It was a monomeric protein with an apparent molecular weight of 52,000 or 53,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and gel filtration, respectively. The isoelectric point was 4.3, as determined by isoelectric focusing. Amino acid analysis of the protein showed that Asx and Glx were predominant components and that the protein contained no cysteine. The dissociation constant of this protein for gamma-butyrobetaine was found to be 0.7 microM by equilibrium dialysis. Attempts to sequence the amino-terminal end with the Edman method failed, suggesting that this region of the protein is blocked.

Evidence for a role of a vicinal dithiol in the transport of gamma-butyrobetaine in Agrobacterium sp

An Agrobacterium sp. isolated from soil is able to use gamma-butyrobetaine as its sole source of carbon and nitrogen. The involvement of thiol groups for active transport of gamma-butyrobetaine was investigated by use of the thiol alkylating reagent N-ethylmaleimide (NEM) and the dithiol specific reagent phenylarsine oxide (PAO). Both reagents strongly inhibited gamma-butyrobetaine uptake, but also induced the release of the accumulated substrate, suggesting that the transport system either contains a dithiol-dependent protein or that a small thiol-containing molecule is implicated in the uptake phenomenon.

Genetic evidence for the existence of a repressor that modulates colicin D expression on plasmid ColD-CA23

The plasmid ColD-CA23, a high copy number plasmid of 5.12 kb, contains genes for colicin D (cda), for immunity colicin D (cdi), and for a lysis function (cdl). These genes are arranged on a contiguous 2.4 kb fragment in the following sequence: cda, cdi, cdl. They are transcribed in two operons, one transcribing cda and cdl from a SOS inducible promoter, the other transcribing cdi in the opposite direction. The expression of cda and cdl is modulated by a repressor, cdr, which is encoded on the same transcript as cda and cdl. In the absence of this repressor, transcription from the SOS inducible colicin D promoter is exceptionally strong and leads to protein contents up to 50% of total cellular proteins. This autoregulative repressor is a new finding in the control mechanisms of expression of colicins. We have also identified the gene product of cdl to be a 10,000 dalton protein.

Accessibility of Trypanosoma brucei procyclic glycosomal enzymes to labeling agents of various sizes and charges

The high efficiency of glycolysis in Trypanosoma brucei has been attributed to impermeability of the glycosomal membrane to most metabolites. However, the strong stimulation of the glycolytic rate by exogenous metabolites and coenzymes in intact glycosomes is only compatible with their accessibility to the internal space. The accessibility of glycosomal enzymes to protein labeling agents of varying charge and size has been investigated. The results show that the glycosomal membrane is permeable to small molecules of the size of metabolites, but impermeable to larger molecules.

Transport of gamma-butyrobetaine in an Agrobacterium species isolated from soil

An Agrobacterium sp. isolated from soil by selective growth on gamma-butyrobetaine (gamma-trimethylaminobutyrate) as the sole source of both carbon and nitrogen has been shown to possess an inducible transport system for this growth substrate. This transport system has a Kt of 0.5 microM and a maximal velocity of 3.8 nmol/min per mg (dry weight). The influx of gamma-butyrobetaine is optimal at pH 8.5 and operates against a concentration gradient. The transport system shows a high specificity for trimethylamine carboxylic acid molecules of defined chain length. gamma-Butyrobetaine uptake was significantly reduced in osmotically shocked cells and a gamma-butyrobetaine binding activity was detected in the crude shock fluid. This suggests a transport mechanism involving a periplasmic gamma-butyrobetaine binding protein.

Cloning of genes involved in myo-inositol transport in a Pseudomonas sp

A soil isolate of a Pseudomonas sp. can utilize myo-inositol (MI) as the sole carbon source. In this strain, MI is transported through the membrane by a high-affinity transport system in which a periplasmic binding protein is involved. Mutants impaired in the transport system were obtained by mutagenesis with N-methyl-N'-nitro-N-nitrosoguanidine and subsequently identified by their slow growth rate at low MI concentrations. Strains with a low linear initial rate of MI uptake were analyzed. Using a broad-host-range cosmid cloning system, we have constructed a gene bank of the wild-type Pseudomonas sp. in an Escherichia coli recA-host. A rapid mating technique enabled us to screen the gene library for clones which are able to restore the active transport of MI in the mutant. An 11.5-kilobase segment containing genes involved in the MI transport has been isolated, and its restriction enzyme cleavage map has been determined.

Purification and properties of the myo-inositol-binding protein from a Pseudomonas sp

A myo-inositol-binding protein was isolated from a Pseudomonas sp. soil isolate and was purified to homogeneity. Its molecular weight is 30,000, and it has a single binding site. The amino acid analysis showed that the protein contains three tryptophan residues and no cysteine. Tryptophan residues seem to be involved in the binding of the ligand, as shown by the modification of the fluorescence spectra and by the fact that oxidation of tryptophan residues with N-bromosuccinimide abolished the binding of myo-inositol. Sequence analysis of the N-terminal segment of 37 amino acids showed that 13 are conserved when compared with the galactose-binding protein of Escherichia coli.

Stable cosmid vectors that enable the introduction of cloned fragments into a wide range of gram-negative bacteria

A cosmid cloning system has been developed which is useful for the construction of genomic libraries and the introduction of clones into a broad range of bacterial species. The cosmids pMMB33 and pMMB34 allow selective cloning into their unique BamHI site of 36-kb DNA fragments generated by BamHI, Sau3A and MboI partial digestion. This selective cloning is achieved by a strategy that avoids formation of polycosmids without a dephosphorylation step. It uses two unique recognition sites within the vectors for endoncleases that generate blunt-ended DNA fragments for the preparation of left and right cosmid "arms". An alternative method that uses the unique EcoRI and SstI sites and dephosphorylation of the cosmid arms prior to BamHI digestion is also outlined and discussed. The DNA is first cloned with either vector into a rec- E. coli strain, where clones can be maintained stably, and can then be introduced by mobilization into a wide range of Gram-negative species to permit the study of gene expression and complementation. Because mobilization is much more efficient than transformation, the vector has the advantage that it can be transferred between bacterial species that specify different restriction systems, where transformation appears to be inefficient. The vectors have been used to generate gene libraries from the chromosomal DNA of several Pseudomonas and a Thiobacillus species. The genes specifying myo-inositol transport from Pseudomonas strain JD34 have been cloned with this system.

Occurrence and role of phosphoenolpyruvate carboxykinase in procyclic Trypanosoma brucei brucei glycosomes

Phosphoenolpyruvate carboxykinase (EC 4.1.1.32) was detected in a particulate fraction of Trypanosoma brucei brucei procyclic culture form. It requires ADP rather than GDP for activity in the direction of carboxylation and is located in the glycosomes. Since phosphoenolpyruvate can serve to furnish ATP for glycolysis and can promote 3-phosphoglycerate or 1,3-bisphosphoglycerate formation without simultaneous alpha-glycerophosphate production, we suggest that the glycosomal phosphoenolpyruvate carboxykinase-malate dehydrogenase tandem contributes to ATP regeneration and NADH re-oxidation in the glycosome, and regulates alpha-glycerophosphate production.

Phosphate ion transport in rabbit brain synaptosomes

Synaptosomes (vesicles of nerve endings) isolated from rabbit brain were studied as a model system for the uptake of inorganic phosphate. The phosphate uptake showed a sodium-dependent, saturable component with a Kt of 0.29 mM. The sodium-dependent component was larger at pH 6 than at pH 7.4 or 8. Application of potassium salts, ouabain, monensin, nigericin or FCCP decreased the uptake. The results indicate that the sodium-sensitive phosphate influx is dependent on the Na+ gradient and on the membrane potential, which might act, preferentially, on the transport of the monovalent phosphate ion.

Sugar Uptake in Lily Pollen : A PROTON SYMPORT

The data presented here are consistent with a proton-sugar co-transport in germinated pollen of Lilium longiflorum Thunb. Optimal uptake occurs at pH 5.0. A K(m) of 1.7 to 1.8 millimolar is obtained from the initial rate of pH change induced by sucrose uptake as well as from uptake of [U-(14)C]-sucrose. The energy of activation is - 11 kilocalories mole(-1). The effect of several inhibitors and sugar competitors on [U-(14)C]sucrose and d-[U-(14)C] glucose uptake is given. The possibility of hydrolysis of sucrose prior to its transport into the pollen tube has been considered and reasons for choosing a sucrose-type uptake are presented. The possible in vivo significance of this co-transport process during pollen germination is discussed. Germinated pollen has features to recommend it as an experimental system of choice for studies of sugar uptake.

Role of glycerol permeation in the bloodstream form of Trypanosoma brucei

Under aerobic conditions, we have determined glycerol uptake in the long slender (LS) bloodstream form of Trypanosoma (Trypanozoon) brucei brucei by studying glycerophosphate accumulation in the parasites. The coupled enzyme theory applies to the permeation-phosphorylation sequence. Glycerol passage through the plasma membrane is asymmetric, the efflux process being favored over the influx process. No free diffusion of glycerol can be detected even under conditions under which free glycerol accumulates within the cells; most probably, glycerol permeation is mediated by a specific transport system. In the absence of respiratory activities, glycerol is known to be an end-product of T. brucei glycolysis; its production from glycerophosphate should allow ATP synthesis. The observed efflux of free glycerol following intracellular accumulation of glycerophosphate confirms the hypothesis that glycerol production occurs through reversal of glycerol kinase activity. We conclude that in vivo the role of the carrier-mediated asymmetric permeation process is to prevent inhibition of the reversal of the glycerol kinase-mediated reaction by removing free glycerol.

Energetics of myo-inositol transport in Pseudomonas putida

The effects of specific inhibitors on the high-affinity transport system of cyclitols and on the respiration of Pseudomonas putida shows that the transport activity is dependent on high energy phosphate bond.

Labelling of the cyclitol permease in Klebsiella aerogenes

The protein component(s) of the cyclitol-transport system in Klebsiella aerogenes has been labelled by using three different procedures. One method is based on differential alkylation with N-ethylmaleimide, and another on incorporation of amino acids during the induction process. A protein of mol.wt. 34 000 was labelled by both procedures; by alkylation with N-ethylmaleimide two other proteins of mol.wts. 55 000 and 67 000 were also labelled. The third uses diazotized [35S]sulphanilic acid after protection by substrate and the comparison of labelling of induced cells with non-induced cells; the label was also concentrated in a mol.wt.-33 000 peak. The labelled protein is, from the evidence, the cyclitol carrier.

D-Glucose transport in Trypanosoma brucei. D-Glucose transport is the rate-limiting step of its metabolism

D-Glucose and 2-deoxyglucose enter the 'long-slender' bloodstream form of Trypanosoma brucei only by means of a carrier-mediated process; no free diffusion can be observed. Permeation is not energy-dependent. The uptake is driven by the downhill concentration gradient of free substrate. The latter is maintained by the continual removal of sugar, due to the extremely high activities of the glycolytic enzymes. The permeation process is the rate-limiting step of glucose consumption, because permeation proceeds at a rate slower than metabolism. The inhibition of sugar uptake by glycerol was tested. Interactions at the carrier site can be ruled out since glucose and its 2-deoxy analog exhibit different inhibition kinetics.

Purification and characterization of a long chain, fatty-acid-binding protein supplying the mitochondrial beta-oxidative system in the heart

A fatty-acid-binding protein with a molecular weight of approximately 12 000 was purified from rat heart and the binding investigated by electron spin resonance. The stearic acid bound to the protein was found to be transferred to the mitochondrial beta-oxidative system, suggesting a role as transcytoplasmic fatty acid carrier for this protein. For the first time a physiological cytoplasmic protein was used as a carrier supplying the mitochondrial beta-oxidative system. A new mechanism of action is proposed to explain the control exerted by this type of protein in some membrane-linked enzymatic processes.

Myo-inositol transport system in Pseudomonas putida

The kinetic features of the myo-inositol transport system in Pseudomonas putida are reported. The system is sensitive to osmotic shock, is not operative in membrane vesicles, and does not involved substrate phosphorylation. Line-weaver-Burk plots indicate the presence of two different systems, whose Kt are 5 micrometer and 0.43 mM and whose V max are 7.9 and 27 nml/mg per min, respectively. Transport activity of glucose-grown cells is very low. myo-Inositol-grown cells lose the high-affinity system upon osmotic shock; concentrated shock fluid possesses myo-inositol-binding activity. The system is very specific for the myo-configuration of the cyclitol.

Stereospecific ring opening of conduritol-B-epoxide by an active site asparatate residue of sucrase-isomaltase

Conduritol-B-epoxide inactivates sucrase-isomaltase (sucrose alpha-glucohydrolase, EC 3.2.1.48-dextrin 6-alpha-glucohydrolase, EC 3.2.1.10) irreversibly with incorporation of 1 mol inhibitor/mol subunit, the affinity label being bound in both subunits to a beta-carboxyl group of an aspartic acid (Quaroni, A. and Semnza; G. (1976) J. Biol. Chem. 251, 3250-3253). Conduritol-B-epoxide is a racemic mixture of 1-L-1,2-anhydro-myo-inositol and 1-D-1,2-anhydro-myo-inositol, but only the latter one is the reactive component, since 1-L-1,2-anhydro-myo-inositol alone did not inactivate the enzyme. After inactivation by 1-D-1,2-anhydro-myo-inositol the label was released by hydroxylamine and identified as scyllo-inositol. One can decide now which C atom of the epoxide ring has been attacked by the enzyme's aspartate residue. This explains why only the D-enantiomer is the reactive species and provides further information about the role of the carboxylate residue during enzymic hydrolysis.

Assymetry of the myo-inositol transport system in Klebsiella aerogenes. Energy is necessary to create the assymetry of the transport system

1. In Klebsiella aerogenes the influx of myo-inositol proceeds during the steady state at a rate equal to that of efflux. 2. The kinetic parameters of influx during the steady state are similar to those observed at the initial time of uptake. 3. Efflux and influx processes share the same transport system. 4. The ability of other cyclitols to chase the accumulated scyllo-inositol is dependent on their affinity for the transport system. 5. A counter transport can be observed in preloaded cells only in poisoned cells and under anaerobiosis. 6. The efflux process is not temperature-dependent. 7. The KT of influx in poisoned cells is larger than that in normal cells. 8. Although no saturation kinetics of efflux could be observed, it can be inferred that the KT of efflux is at least 50-fold larger than the KT of influx; 9. The results suggest that in the transport of myo-inositol by K. aerogenes energy coupling enhances the affinity of the carrier for the substrate at the outer side of the cytolplasmic membrane by lowering the KT.

Myo-Inositol transport in Klebsiella aerogenes. scyllo-Inositol, a non-metabolizable substrate for the study of the myo-inositol transport system

1. Scyllo-Inositol is transported against a concentration gradient by Klebsiella aerogenes, but is not metabolized. 2. The apparent KT of scyllo-inositol is 0.05 X 10(-3) M while that of myo-inositol is 0.23 X 10(-3) M. The V values are respectively 32 and 12 nmol min(-1) mg cells(-1) (dry weight). 3. Both cyclitols bind to the same carrier, since typical competitive inhibition kinetics are observed. 4. Neither phosphoenolpyruvate phosphotransferase nor a periplasmic binding protein seems to be involved in the scyllo-inositol transport system. 5. The induction of the transport system is not repressed by malate, furmarate, citrate, succinate or pyruvate; however, acetate represses the induction. The activity of the transport system is increased when the growth medium is supplemented with adenosine 3':5'-monophosphate.

Transport of cyclitols by a proton symport in Klebsiella aerogenes

The respiration and the ATP content of Klebsiella aerogenes in the presence of various inhibitors were compared to the transport of scyllo-inositol. The ATPase was found to be inhibited by dicyclohexyl carbodiimide. The transport has been tested in anaerobiosis and aerobiosis. From the results obtained it is concluded that either ATP or respiration can sustain the transport activity in independent manner. 2. The energy derived from the respiratory chain reactions or the ATP hydrolysis results in electrogenic extrusion of protons. The electrochemical potential created drives the accumulation of scyllo-inositol, as shown by an increase of pH of the medium on addition of the substrate to cells in anaerobiosis. With non-induced cells no change in pH occurs, which demonstrates that proton flow is really linked to the transport. No H+/Na+ or K+ exchange is observed and the proton conductor carbonylcyanide m-chlorophenylhydrazone abolishes the pH shift caused by substrate addition. The stoichiometry of the symport H+/cyclitol is 1 and the half-maximum value of the pH variation as a function of the amount of scyllo-inositol added corresponds to a concentration of scyllo-inositol very close to the KT of influx.