High-affinity folate binding in human mammary gland

High-affinity³H-folate binding in Triton X-100 solubilized human mammary gland tissue displayed characteristics, e.g. apparent positive cooperativity and increasing affinity with decreasing concentration of folate binding protein, shown to be typical of specific folate binding. Radioligand dissociation was slow at pH 7.4. A major fraction of the bound radioligand dissociated rapidly at pH 3.5, while a residual binding of 20% persisted even after prolonged dialysis at pH 3.5. Gel chromatography revealed two major folate binding proteins (M_r100 kDa and 25 kDa). However, only one single band was detectable on SDS-PAGE immunoblotting. The highest folate binding activity per g protein was associated with the upper triglyceride-containing layer of the 1000 g supernatant of the homogenate. The folate binding protein extracted from this layer had a low cross-reactivity (<5%) with rabbit antibodies against 25 kDa human milk folate binding protein. The folate binding protein in the 1000 g pellet and the aqueous phase of the 1000 g supernatant was present at a low concentration and had a cross-reactivity of 100%.     

A high-affinity folate binding protein in human amniotic fluid. Radioligand binding characteristics,immunological properties and molecular size

The presence of a folate binding protein of high-affinity type (affinity constant 5 · 10⁹M^–1, maximum folate binding 3 nM) in human amniotic fluid was demonstrated in equilibrium dialysis experiments (37°C, pH 7.4) with the radioligand³H-folate. Dissociation of³H-folate from the binding protein was slow at pH 7.4 but rapid at pH 3.5. By use of rabbit antibodies against low molecular weight folate binding protein from human milk we determined the concentration of folate binding protein in 5 amniotic fluids (range 1.5–2.3 nM) in an Enzyme-Linked Immunosorbent Assay (ELISA). ultrogel AcA 44 chromatography of amniotic fluid showed that immunoreactive and radioligand bound folate binding protein coeluted in two peaks: a major one (M _r 25 000) and a minor one (M _r 100 000).     

A high-affinity folate binding protein in human semen

The presence of a folate binding protein of high-affinity type (affinity constant 3.10¹⁰M^–1, maximum folate binding 1.4 nM) in human semen was demonstrated in equilibrium dialysis experiments (37°C, pH 7.4) with the radioligand³H-folate. Radioligand dissociation from the binding protein was slow at pH 7.4, but rapid at pH 3.5. By use of rabbit antibodies against 25 kDa human milk folate binding protein we determined the concentration of folate binding protein in 16 speciments of human semen in an enzyme-linked immunosorbent assay. The concentration of immunoreactive folate binding protein was independent of the number of spermatozoa in individual specimens. Gel filtration showed that immunoreactive and radioligand bound folate binding protein coeluted in two peaks: a major one of 100 kDa and a minor one of 25 kDa.     

A high-affinity folate binding protein in human urine. Radioligand binding characteristics,immunological properties and molecular size

High-affinity binding of [³H]folate in human urine displayed characteristics, e.g. apparent positive cooperativity, which are typical of specific folate binding. By means of a two-site enzyme-linked immunosorbent assay (ELISA) with rabbit antibodies against the low molecular weight folate binding protein from human milk, we measured folate binding protein concentrations in the range of 0.51 to 4.13 nM in urine samples from 16 apparently healthy individuals. Ultrogel AcA 44 chromatography of the urine showed that immunoreactive and radioligand bound folate binding protein coeluted in one large peak (M_r25,000).     

Endo-deoxyribonuclease from Streptomyces rimosus

From filtrates of an oxytetracycline-producing culture of Streptomyces rimosus a deoxyribonuclease was purified to homogeneity and determined to be a potent endo-DNase. It is a monomeric, basic protein (M_r 21 000; pI 9.5) stable in a broad pH range but unstable to higher temperature. The enzyme has an absolute requirement for Mg^{2 +} or Mn^{2 +}, and for its full activity requires free SH groups and a low-ionic-strength environment. Its N-terminal primary structure differs from that of other nucleases.     

A high-affinity folate binding protein in normal human leukocytes: Ligand binding characteristics,ionic charge and molecular size

High-affinity binding of [³H]folate to supernatant from homogenized human leukocytes containing large amounts of binding protein displayed apparent positive cooperativity. The DEAE-Sepharose^® CL-6B chromatographic profile of the supernatant at pH 6.3 contained a major peak of folate binding (M_r approx. 25 000) in the front effluent and a smaller more acidic peak (M_r approx. 25 000) that emerged after a rise in NaCl from 30 mmol/l to 1 mol/l. Triton X-100 solubilized ceil sediment from the leukocyte homogenate contained some high-affinity folate binding activity (M_r approx 25 000), typically 5–10% of the total binding activity.     

Folate Receptors in Malignant and Benign Tissues of Human Female Genital Tract

We have characterized the folate receptor in malignant and benign tissues of human female genital tract (Fallopian tube and benign and malignant tissues of uterus). Radioligand binding displayed characteristics similar to those of other folate binding proteins. Those include a high-affinity type of binding (K=10¹⁰M^–1), apparent positive cooperativity, a slow dissociation at pH 7.4 becoming rapid at pH 3.5, and inhibition of binding by folate analogues. The gel filtration profile of Triton X-100 solubilized tissue contained two large peaks of ³H-folate labelled protein (>=130 and 100kDa) as well as a 25 kDa peak. Only a single band of 70 kDa was seen on SDS-PAGE immunoblotting. The large molecular size forms on gel filtration appear to represent folate receptors having a hydrophobic membrane anchor inserted into Triton X-100 micelles. The folate receptor of female genital tract showed cross-reactivity in ELISA and positive immunostaining with rabbit antibodies against human milk folate binding protein. Variations in the ratio of immunoresponse to total high affinity folic acid binding suggests the presence of multiple isoforms of the receptor in different types of malignant and benign tissues.     

Anion specificity of the jejunal folate carrier: Effects of reduced folate analogues on folate uptake and efflux

Summary We previously reported that³H-folate uptake by rabbit jejunal brush-border membrane (BBM) vesicles was markedly stimulated by an outwardly directed OH^– gradient (pH_in 7.7, pH_out 5.5), inhibited by anion exchange inhibitors (DIDS, SITS, furosemide), and saturable (folateK _m=0.19 m) suggesting carrier-mediated folate/OH^– exchange (or H⁺/folate cotransport). In the present study, the anion specificity of this transport process was examined. Under conditions of an outwardly directed OH^– gradient, DIDS-sensitive folate uptake wascis inhibited (>90%) by reduced folate analogues: dihydrofolate (IC₅₀=0.40 m), folinic acid (IC₅₀=0.50 m), 5-methyltetrahydrofolate (IC₅₀=0.53 m), and (+)amethopterin (IC₅₀=0.93 M). In contrast, 10 m (–)amethopterin had only a modest effect on folate uptake (18% inhibition) suggesting stereospecificity of the folate/OH^– exchanger. The nonpteridine compounds which are transported by the folate carrier in L1210 leukemic cells (phthalate, thiamine pyrophosphate, and PO ₄ ^–3 ) did not inhibit jejunal folate uptake. Furthermore, folate uptake was not inhibited by SO ₄ ^–2 (4mm) or oxalate (4mm) thereby distinguishing this carrier from the previously described intestinal SO ₄ ^–2 /OH^– and oxalate/Cl^– exchangers. After BBM vesicles were loaded with³H-folate, the initial velocity of³H-folate efflux was stimulated by unlabeled folate in the efflux medium. The transstimulation of³H-folate efflux by unlabeled folate was furosemide (or DIDS) inhibitable and temperature sensitive. Half-maximal stimulation of furosemide-sensitive³H-folate efflux was observed with 0.25±0.05 m unlabeled folate, a concentration similar to theK _m for folate uptake. These data suggest that folate-stimulated³H-folate efflux is mediated by the folate/OH^– exchanger. With the exception of (–) amethopterin, reduced folate analogues also transstimulated furosemide-sensitive³H-folate efflux in a concentration-dependent manner suggesting stereospecific transport of these analogues by the folate/OH^– exchanger. In summary, folate transport by the jejunal folate/OH^– exchanger demonstrates bothcis inhibition and transstimulation by reduced folate analogues, but not by other inorganic or organic anions suggesting bidirectional transport of folate and a high degree of anion specificity.     

Characterization of the Human Gonadotropin-Releasing Hormone Receptor Heterologously Produced Using the Baculovirus/Insect Cell and the Semliki Forest Virus Systems

1. Two eukaryotic viral systems, the baculovirus/insect cell and the Semliki Forest virus systems, were tested for heterologous expression of human gonadotropin-releasing hormone receptor (GnRHR) cDNA.2. An unmodified as well as a c-myc epitope-tagged human GnRH receptor was produced in two insect cell lines (Spodoptera frugiperda, Trichoplusia ni) after infection with the respective recombinant baculoviruses. In both insect cell lines, the receptor was identified by immunoblot analysis as a triplet of bands between 35 and 40 kDa. After deglycosylation of the receptor the molecular mass decreased to 35 kDa. The GnRH receptor was localized in membrane compartments within the infected insect cells. However, only in membranes of infected Trichoplusia ni insect cells could 2000 receptors per cell be detected.3. Production of the GnRH receptor in BHK cells using the Semliki Forest virus system resulted in 50,000 receptors per cell. A maximal yield of 0.42 pmol/mg membrane protein was obtained 24 hr after electroporation of BHK cells with in vitro synthesized RNA. Binding of the antagonist [¹²⁵I]Cetrorelix was saturable with a K _D of 1.3 nM. The receptor produced in the BHK cells was further characterized by ligand displacement studies. The rank order of agonist and antagonist affinities was Cetrorelix > Triptorelin > Antide > GnRH.     

High-affinity folate binding in human liver membranes

High-affinity binding of³H-folate in Triton X-100 solubilized membranes of human liver displayed characteristics, e.g. apparent positive cooperativity, which are typical of specific folate binding. Ultrogel^® AcA 44 chromatography of solubilized membranes saturated with³H-folate revealed a major peak of 100 kDa and a minor peak of 25 kDa. The 100 kDa peak could represent a hydrophobic membrane associated molecular form of the protein. This notion was supported by the fact that the two peaks had identical molecular weights as determined by sodium dodecyl sulfate polyacrylamide gel electrophoresis with immunoblotting.     

Characterization of serine/threonine protein phosphatases in RINm5F insulinoma cells

This study investigates the occurrence and regulation of serine/threonine protein phosphatases (PPases) in insulin-secreting RINm5F insulinoma cells. PPases types 1 and 2A were identified in crude RINm5F cell homogenates by both enzymatic assay and Western blot analysis. We then characterized and compared the inhibitory actions of several compounds isolated from cyanobacteria, marine dinoflagellates and marine sponges, (viz. okadaic acid, microcystin-LR, calyculin-A and nodularin) cation-independent PPase activities in RINm5F cell homogenates. It was found that okadaic acid was the least potent inhibitor (IC₅₀10^–9M, IC₁₀₀10^–6M), while the other compounds exhibited IC₅₀ values of 5·10^–10 M and IC₁₀₀ 5·10^–9 M. The findings indicate that the inhibitory substances employed in this study may be used pharmacologically to investigate the role of serine/threonine PPases in RINm5F cell insulin secretion, a process that is likely to be regulated to a major extent by protein phosphorylation.     

Partial characterization of neural-inducing factors from Xenopus gastrulae Evidence for a larger protein complex containing the factor

Summary High (Mr 90–110 kDa) and low (Mr 15–30 kDa) molecular weight forms of neural-inducing factors have been found in the supernatant of Xenopus gastrula homogenate. The factors, which are protein in nature, have been partially purified by size exclusion high-performance liquid chromatography (HPLC) and sodium dodecyl sulphate (SDS)-polyacrylamide gel electrophoresis. The factor of smaller size, which could be derived from a precursor, is associated with other proteins in a larger complex. The neural-inducing factors are not irreversibly inactivated after chemical deglycosylation with trifluoromethansulfonic acid. The neural-inducing protein which is found in ribonucleoprotein (RNP)-particles was partially purified by hydrophobic chromatography. Possible relationships of the factors in different subcellular fractions and their physiological significance are discussed. Offprint requests to: H. Tiedemann     

Model predictions of the ionic mechanisms underlying the beating and bursting pacemaker characteristics of molluscan neurons

The general properties of the excitable membrane on molluscan pacemaker neurons can be described on the basis of a fair amount of experimental evidence available in the literature. The neuronal membrane exhibits under voltage clamp an initial inward current carried by both Na⁺ and Ca²⁺ ions, the time- and voltage-dependent characteristics of which are similar to that of other excitable structures. The conductance mechanism for the two ion species and the transport kinetics appear to be closely similar. The time course and amplitude of the delayed outward current carried by K⁺ ions shows a marked dependence on the membrane potential. Characteristic for the molluscan neurons is the existence of an additional fast transient outward current which is only activated by hyperpolarizing shifts from the membrane potential. A regular beating discharge over a wide range of frequencies can be predicted by making the assumption of a metabolically controlled driving of the Na⁺ conductance. Bursting pacemaker characteristics can be correctly simulated by the model if sinusoidal variations of an additional Na⁺ and Ca²⁺ conductances g _Na and g _Ca, and periodic variations of the K⁺ conductance g _K, governed by the known operation of a metabolic substrate cycle are introduced. The close approximation of experimentally observed impulse bursts requires that the actual inpulse-frequency and the amplitude of the after-spike hyperpolarization are determined by the temporal pattern of g _Na, while the spike amplitude is controlled by g _Na which (although of similar time course) is lagging in phase behing g _Na. The periodic changes in additional K⁺ conductance g _K, are responsible for burst termination and the changes in inter-burst interval, to the effect that spike doublets, triplets and multi-spike bursts can be simulated by a suitable choice for the time characteristics of g _K. The model makes use of the finding that the Ca²⁺ inflow associated with a spike discharge actually activates g _K, so that large postburst hyperpolarizations can be obtained in high-frequency bursts.Supported by the Deutsche Forschungsgemeinschaft (Grant Ch 25/1)     

Cell cycle dependent distribution of phosphorylated proteins in microspores and pollen ofBrassica napus L., detected by the monoclonal antibody MPM-2

Summary The monoclonal antibody MPM-2, which interacts with a mitosis-specific phosphorylated epitope, has been used to study phosphorylation of proteins in microspores and pollen ofBrassica napus. One- (1-D) and two-dimensional (2-D) immunoblots revealed that MPM-2 recognized a family of phosphorylated proteins in freshly isolated microspores and pollen. The same set of phosphorylated proteins was found after 8 h of culture at embryogenie (32 °C) and non-embryogenic (18 °C) conditions. Two major spots were observed on 2-D immunoblots, one of which (M_r75 kDa, pI5.1) co-localized with the 70 kDa heat shock protein. Immunolabelling of sectioned microspores and pollen showed that MPM-2 reactive epitopes were predominantly observed in the nucleoplasm from G₁ until G2-phase, and in the cytoplasm during mitosis. This may be due to a cell cycle related translocation of phosphoproteins from the nucleus to the cytoplasm, or alternate phosphorylation and dephosphorylation in nucleus and cytoplasm. Detectability of epitopes on sections depended on the embedding procedure. Cryo processing revealed epitope reactivity in all stages of the cell cycle whereas polyethylene glycol embedded material showed no labelling in the cytoplasm during mitosis. Processing might reduce the antigenicity of cytoplasmic MPM-2 detectable proteins, probably due to dephosphorylation. The MPM-2 detectable epitope was observed in all cells investigated, irrespective of culture conditions, and its intracellular distribution depended on the cell cycle stage and was not related to the developmental fate of the microspores and pollen.     

Effect of carbon source on the β-glucosidase system of the thermophilic fungus Humicola grisea

H. grisea produced an extracellular -glucosidase (EC 3.2.1.21) at high activity in media supplemented with carboxymethyl cellulose (CMC) or cellobiose. Cellobiose-induced -glucosidase was insensitive to glucose repression whereas that of CMC-supplemented cultures was partially repressed. Molecular sieving revealed three main active components (M_r 50, 128 and 240 kDa). Glucose competitively inhibited -glucosidase activities with K_i values of 0.9mM and 3.3mM (extracellular) and 10.2mM and 22.6mM (cytosolic), induced in the presence of CMC or cellobiose respectively.The authors are with the Departamento de Biologia, Faculdade de Filosofia. Ciências e Letras de Ribeirão Preto, Universidade de São Paulo-14040-901 Ribeirão Preto, São Paulo, Brasil;     

Effect of the cationic polypeptide polylysine on neutral amino acid transport in isolated brain microvessels

Summary The functionality of isolated brain microvessels — used as anin vitro model of the blood-brain barrier — can be influenced by interaction with cationic proteins. The various polylysines (M_r ranging from 0.9 to 180 kDa) tested affected the activity of both the Na⁺-dependent (A) and the Na⁺-independent (L) systems for neutral amino acid transport. Exposure to the 180 kDa polylysine caused a conspicuous inhibition of both transport systems, associated to an increased passive permeability. There was a constant, M_r-dependent, inhibition of the the L-system-mediated uptake of hydrophobic neutral amino acids. The activity of the A-system was enhanced, upon exposure to polymers larger than 22 kDa reaching its peak at 68 kDa and and declining at higher M_r values. The effect which was Na⁺-ions dependent and abolished by phloretine, could be essentially ascribed to an increased affinity of the MeAIB for its carrier (K_m value decreasing from 265 to 169µM in presence of 68 kDa polylysine).     

Characterization of two different Ca2+ uptake and IP3-sensitive Ca2+ release mechanisms in microsomal Ca2+ pools of rat pancreatic acinar cells

We have examined the effect of the Ca²⁺ (Mg²⁺)-ATPase inhibitors thapsigargin (TG) and vanadate on ATP-dependent ⁴⁵Ca²⁺ uptake into IP₃-sensitive Ca²⁺ pools in isolated microsomes from rat pancreatic acinar cells. The inhibitory effect of TG was biphasic. About 40–50% of total Ca²⁺ uptake was inhibited by TG up to 10 nm (apparent K_i4.2 nm, Ca²⁺ pool I). An additional increase of inhibition up to 85–90% of total Ca²⁺ uptake could be achieved at 15 to 20 nm of TG (apparent K_i12.1 nm, Ca²⁺ pool II). The rest was due to TG-insensitive contaminating plasma membranes and could be inhibited by vanadate (apparent K_i10 m). In the absence of TG, increasing concentrations of vanadate also showed two phases of inhibition of microsomal Ca²⁺ uptake. About 30–40% of total Ca²⁺ uptake was inhibited by 100 m of vanadate (apparent K_i18 m, Ca²⁺ pool II). The remaining 60–70% could be inhibited either by vanadate at concentrations up to 1 mm (apparent K_i300 m) or by TG up to 10 nm (Ca²⁺ pool I). The amount of IP₃-induced Ca²⁺ release was constant at 25% over a wide range of Ca²⁺ filling. About 10–20% remained unreleasable by IP₃. Reduction of IP₃ releasable Ca²⁺ in the presence of inhibitors showed similar dose-response curves as Ca²⁺ uptake (apparent K_i 3.0 nm for IP₃-induced Ca²⁺ release as compared to 4.2 nm for Ca²⁺ uptake at TG up to 10 nm) indicating that the highly TG-sensitive Ca²⁺ pump fills the IP₃-sensitive Ca²⁺ pool I. At TG concentrations >10 nm which blocked Ca²⁺ pool II the apparent K_i values were 11.3 and 12.1 nm, respectively. For inhibition by vanadate up to 100 m the apparent K_i values were 18 m for Ca²⁺ uptake and 7 m for Ca²⁺ release (Ca²⁺ pool II). At vanadate concentrations up to 1 mm the apparent K_i values were 300 and 200 m, respectively (Ca²⁺ pool I). Both Ca²⁺ pools I and II also showed different sensitivities to IP₃. Dose-response curves for IP₃ in the absence of inhibitors (control) showed an apparent K_m value for IP₃ at 0.6 m. In the presence of TG (inhibition of Ca²⁺ pool I) the curve was shifted to the left with an apparent K_m for IP₃ at 0.08 m. In the presence of vanadate (inhibition of Ca²⁺ pool II), the apparent K_m for IP₃ was 2.1 m. These data allow the conclusion that there are at least three different Ca²⁺ uptake mechanisms present in pancreatic acinar cells: TG- and IP₃ insensitive but highly vanadate-sensitive Ca²⁺ uptake occurs into membrane vesicles derived from plasma membranes. Two Ca²⁺ pools with different TG-, vanadate- and IP₃-sensitivities are most likely located in the endoplasmic reticulum at different cell sites, which could have functional implications for hormonal stimulation of pancreatic acinar cells.This work was supported by the Deutsche Forschungsgemeinschaft, Sonderforschungsbereich 246. The authors wish to thank Dr. KlausDieter Preuß for valuable discussions and Mrs. Gabriele Mörschbächer for excellent secretarial help.     

Osmotic Forces and Gap Junctions in Spreading Depression: A Computational Model

In a computational model of spreading depression (SD), ionic movement through a neuronal syncytium of cells connected by gap junctions is described electrodiffusively. Simulations predict that SD will not occur unless cells are allowed to expand in response to osmotic pressure gradients and K⁺ is allowed to move through gap junctions. SD waves of [K⁺]_out 25 to 60 mM moving at 2 to 18 mm/min are predicted over the range of parametric values reported in gray matter, with extracellular space decreasing up to 50%. Predicted waveform shape is qualitatively similar to laboratory reports. The delayed-rectifier, NMDA, BK, and Na⁺ currents are predicted to facilitate SD, while SK and A-type K⁺ currents and glial activity impede SD. These predictions are consonant with recent findings that gap junction poisons block SD and support the theories that cytosolic diffusion via gap junctions and osmotic forces are important mechanisms underlying SD.     

Purification and characterization of folate binding proteins from rat placenta

Rat placenta contains virtually no unsaturated (i.e., apo-form) folate binding protein. However, by lowering the pH of a solubilized membrane preparation of this tissue to 3.5, the endogenous bound folate was dissociated from the protein and adsorbed to charcoal. The apo-form of the folate binding protein thus obtained was purified by affinity chromatography using pteroylglutamic acid covalently coupled to Sepharose 4B. A single protein band with an apparent M_r of 36 000 was observed by SDS-polyacrylamide gel electrophoresis of the eluate from the affinity matrix. Western blot of this preparation using a rabbit antiserum raised with the affinity eluate also identified a single 36 kDa protein band. However, peptide sequencing of the N-terminal region of the proteins in the affinity eluate established that it contained two homologous proteins. Computer alignment of the first 22 N-terminal amino acids of each rat placental protein with human, bovine milk and mouse folate binding proteins showed 50–64% identical homology and 27% homology when the eight proteins were aligned together. The affinity of both rat proteins is highest for pteroylglutamic acid (K_a = 1.6 − 109 l/mol) lower for N⁵-methyltetrahydrofolate and substantially lower for N⁵-formyltetrahydrofolate. In the dose-response range studied there was no apparent affinity for methotrexate. The folate binding proteins could be released from a preparation of placental membranes using phospholipase C indicating that these proteins belong to the class of proteins anchored to the plasma membrane by a glycosyl phosphatidylinositol adduct.     

Large scale purification and refolding of HIV-1 protease fromEscherichia coli inclusion bodies

The protease encoded by the human immunodeficiency virus type 1 (HIV-1) was engineered inEscherichia coli as a construct in which the natural 99-residue polypeptide was preceded by an NH₂-terminal methionine initiator. Inclusion bodies harboring the recombinant HIV-I protease were dissolved in 50% acetic acid and the solution was subjected to gel filtration on a column of Sephadex G-75. The protein, eluted in the second of two peaks, migrated in SDS-PAGE as a single sharp band ofM _r 10,000. The purified HIV-1 protease was refolded into an active enzyme by diluting a solution of the protein in 50% acetic acid with 25 volumes of buffer atpH 5.5. This method of purification, which has also been applied to the purification of HIV-2 protease, provides a single-step procedure to produce 100 mg quantities of fully active enzyme.