Binding of bovine parathyroid hormone to surface receptors of cultured B-lymphocytes.

Binding of parathyroid hormone onto B-lymphocytes is detected by the utilization of the labelled antibody membrane assay. The amount of parathyroid hormone bound to the receptor sites was depending on the quantity of cells in the incubation milieu. Each cell line showed typical characteristics in time course of parathyroid hormone binding and maximal receptor capacity. Fragmentation of intact parathyroid hormone, also varying with the cell line tested, was very rapid, even at 24 degrees C. Within 20 min most of the cell lines destroyed 20% of the native hormone in the incubation mixture, indicating a fragmentation rate of up to 2.25 ng/min at 37 degrees C. Bmax and KD for the different lymphocytes was 5.3--19 . 10(11) M and 1.8--18,5 . 10(11) M, respectively. These values are in the range of reported plasma concentrations and may therefore represent more physiological values for the capacity and affinity of membrane receptors.     

Solubilization of pituitary receptors for thyrotropin-releasing hormone

Receptors for thyrotropin-releasing hormone were solubilized by Triton X-100. Membrane fractions from GH₃ pituitary tumor cells were incubated with thyrotropin-releasing hormone in order to saturate specific receptor sites before the addition of detergent. The amount of protein-bound hormone solubilized by Triton X-100 was proportional to the fractional saturation of specific membrane receptors. Increasing detergent: protein ratios from 0.5 to 20 led to a progressive loss of hormone · receptor complex from membrane fractions with a concomitant increase in soluble protein-bound hormone. The soluble hormone · receptor complex was not retained by 0.22 μm filters and remained soluble after ultracentrifugation. Following incubation with high (2.5–10%) concentration of Triton X-100 and other non-ionic detergents, or following repeated detergent extraction, at least 18% of specifically bound thyrotropin-releasing hormone remained associated with particulate material. Unlike the hormone receptor complex, the free hormone receptor was inactivated by Triton X-100. A 50% loss of binding activity was obtained with 0.01% Triton X-100, corresponding to a detergent: protein ratio of 0.033.The hormone · receptor complex was included in Sepharose 6B and exhibited an apparent Stokes radius of 46 Å in buffers containing Triton X-100. The complex aggregated in detergent-free buffers. Soluble hormone receptors were separated from excess detergent and thyrotropin-releasing hormone by chromatography on DEAE-cellulose. Thyrotropin-releasing hormone dissociated from soluble receptors with a half-time of 120 min at 0°c, while the membrane hormone · receptor complex was stable for up to 5 h at 0°C.     

Properties of human growth hormone binding sites solubilized from female rabbit kidney

Human growth hormone binding sites from female rabbit kidney microsomes were solubilized by treatment with the nonionic detergent Triton X-100. The binding of ¹²⁵I-labelled human growth hormone to the solubilized sites retains many of the properties observed in the particulate fraction, such as saturability, reversibility, high affinity and structural specificity. The association and the dissociation process are time- and temperature-dependent. The association rate constant, k₁, is 1.6·10⁷ mol^?1·l·min^?1 at 25°C, and the dissociation rate constant, k_?1, is 2.8·10^?4 min^?1 at 25°C. Solubilization causes an increase in affinity as well as in binding capacity. Scatchard plots from saturation curves suggest the presence of a single class of binding site with a dissociation equilibrium constant, K_d, of 1.3·10^?11 M and a binding capacity of 133 fmol/mg of protein. Similar results were obtained from competition experiments. Specificity studies revealed the lactogenic characteristics of the solubilized sites. The Stokes radii of the free binding sites and of the ¹²⁵I-labelled human growth hormone-binding site complex, determined on a Sepharose CL-6B column, are 57 and 53 Å, respectively.     

Secretion of intrinsic factor from dispersed mucosal cells isolated from guinea pig and rabbit stomach

In dispersed mucosal cells prepared from rabbit and guinea pig stomach, the secretion of intrinsic factor was constant (0.3–0.4%/min) for at least 30 min incubation at 37°C. Histamine or isobutyl methylxanthine increased cyclic AMP and intrinsic factor secretion in both cell preparations. Isobutyl methylxanthine potentiated and cimetidine competitively inhibited (K_i=5·10^?7 M) both effects of histamine. Dibutyryl cyclic AMP (1.0 mM), also caused a 3-fold increase in intrinsic factor secretion. These results suggest that in rabbit and guinea pig histamine interacts with H₂-receptors to increase cyclic AMP which mediates the rise in the rate of intrinsic factor secretion.     

Transferrin binding and iron uptake in mouse hepatocytes

Methods were developed for obtaining highly viable mouse hepatocytes in single cell suspension and for maintaining the hepatocytes in adherent static culture. The characteristics of transferrin binding and iron uptake into these hepatocytes was investigated. (1) After attachment to culture dishes for 18–24 h hepatocytes displayed an accelerating rate of iron uptake with time. Immediately after isolation mouse hepatocytes in suspension exhibited a linear iron uptake rate of 1.14·10⁵molecules/cell per min in 5 μM transferrin. Iron uptake also increased with increasing transferrin concentration both in suspension and adherent culture. Pinocytosis measured in isolated hepatocytes could account only for 10–20% of the total iron uptake. Iron uptake was completely inhibited at 4°C. (2) A transferrin binding component which saturated at 0.5 μM diferric transferrin was detected. The number of specific, saturable diferric transferrin binding sites on mouse hepatocytes was 4.4·10⁴±1.9·10⁴ for cells in suspension and 6.6·10⁴±2.3·10⁴ for adherent cultured cells. The apparent association constants were 1.23·10⁷ 1·mol^?1 and 3.4·10⁶ 1·mol^?1 for suspension and cultured cells respectively. (3) Mouse hepatocytes also displayed a large component of non-saturable transferrin binding sites. This binding increased linearly with transferrin concentration and appeared to contribute to iron uptake in mouse hepatocytes. Assuming that only saturable transferrin binding sites donate iron, the rate of iron uptake is about 2.5 molecules iron/receptor per min at 5 μM transferrin in both suspension and adherent cells and increases to 4 molecules iron/receptor per min at 10 μM transferrin in adherent cultured cells. These rates are considerably greater than the 0.5 molcules/receptor per min observed at 0.5 μM transferrin, the concentration at which the specific transferrin binding sites are fully occupied. The data suggest that either the non-saturable binding component donates some iron or that this component stimulates the saturable component to increase the rate of iron uptake. (4) During incubations at 4°C the majority of the transferrin bound to both saturable and nonsaturable binding sites lost one or more iron atoms. Incubations including 2 mM α,α′-dipyridyl (an Fe¹¹ chelator) decreased the cell associated ⁵⁹Fe at both 4 and 37°C while completely inhibiting iron uptake within 2–3 min of exposure at 37°C. These observations suggest that most if not all iron is loosened from transferrin upon interaction of transferrin with the hepatocyte membrane. There is also greater sensitivity of ⁵⁹Fe uptake compared to transferrin binding to pronase digestion, suggesting that an iron acceptor moiety on the cell surface is available to proteolysis.     

Follitropin receptors in rat testis characterization with enzymatically 125I-labeled human follitropin

The interaction between enzymatically radioiodinated human follitropin and the follitropin receptors in testis homogenate was investigated in immature and adult rats. The ¹²⁵I-labeled human follitropin exhibited high binding activity, with specific binding of up to 17% in the presence of an excess of testis homogenate.Approx. 50% of the bound hormone could be eluted at pH 5, and the receptor purified tracer exhibited a 3.6-fold increase in binding activity when compared with the original tracer preparation. Quantitative analysis of equilibrium binding data was performed with corrections for the measured specific activity and maximum binding activity of the tracer hormone. The equilibrium association constants (K_a) determined at 24°C were not significantly different in immature and adult rat testis, and the mean value for K_a was 3.9 · 10⁹ M^?1. At 37°C, the K_a value obtained using immature rat testis was 1.3 · 10¹⁰ M^?1. The association of ¹²⁵I-labeled human follitropin with immature rat testis homogenate was time and temperature dependent. In the presence of an excess of unlabeled hormone, 30–60% of the preformed hormone · receptor complex was dissociated after 24 h incubation. A specific and sensitive radioligand-receptor assay for follitropin was developed using immature rat testis homogenate. The minimum detectable dose of purified human follitropin was 0.6 ng, and human urinary and pituitary follitropin, ovine follitropin and pregnant mare serum gonadotropin reacted in the assay with equivalent slopes. The potencies of highly purified pregnant mare serum gonadotropin and highly purified human follitropin were similar in the radioligand-receptor assay, consistent with the follitropin bioactivity of the equine gonadotropin.     

Interaction of anthelmintic benzimidazoles with AscarisSuum embryonic tubulin

The ability of mebendazole and fenbendazole to bind to tubulin in cytosolic fractions from 8-day Ascaris suum embryos was determined by inhibition studies with [³H]colchicine. Colchicine binding in the presence of 1·10^?6 M mebendazole was completely inhibited during a 6 h incubation period at 37°C. Inhibition of colchicine binding to A. suum embryonic tubulin by mebendazole and fenbendazole appeared to be noncompetative. The inhibition constants of mebendazole and fenbendazole for A. suum embryonic tubulin were 1.9·10^?8 M and 6.5·10^?8 M, respectively. Mebendazole and fenbendazole appeared to be competitive inhibitors of colchicine binding to bovine brain tubulin. The inhibition constants of mebendazole and fenbendazole for bovine brain tubulin were 7.3·10^?6 M and 1.7·10^?5 M, respectively. These values are 250–400 times greater than the inhibition constants of fenbendazole and mebendazole for A. suum embryonic tubulin. Differential binding affinities between nematode tubulin and mammalian tubulin for benzimidazoles may explain the selective toxicity. The importance of tubulin as a receptor for anthelmintic benzimidazoles in animal parasitic nematodes is discussed.     

Hormone-specific responses and biosynthesis of sulfolipids in cell lines derived from mammalian kidney

The established cell lines isolated from mammalian kidney were characterized by its receptor activities against hormones and the ability to synthesize sulfolipids localized in the renal tubule.The level of 3′: 5′-cyclic AMP in JTC-12.P3 (monkey kidney) cells increased in 2 min as much as 2.5–5-fold on activation with 1.0 unit/ml of bovine parathyroid hormone or 1.9 units/ml of synthetic parathyroid hormone (1–34) resulting in intracellular cyclic AMP concentration of more than 40 pmol/mg protein. Prostaglandin E₁ (14 μM) and isopropylnorepinephrine (10 μM) were also found to increase the concentration of cyclic AMP by more than 30- and 9-fold, respectively. Addition in medium of calcitonin, arginine vasopressin, adrenocorticotropic hormone and glucagon caused no significant changes of cyclic AMP level in the cell.In contrast, MDCK, a cell line isolated from canine kidney, reacted to arginine vasopressin, isopropylnorepinephrine and prostaglandin E₁ and only slightly to parathyroid hormone. MDBK cell line derived from bovine kidney or fibroblast cell lines from rat lung and guinea pig kidney did not react to any of the hormones specific to kidney, i.e. arginine vasopressin, calcitonin or parathyroid hormone in the presence of theophylline. However, in the presence of 2 mM isobutylmethylxanthine, small but significant elevation of cellular cyclic AMP levels in response to calcitonin, arginine vasopressin, isopropylnorepinephrine and prostaglandin E₁ was observed.The cell lines JTC-12, MDCK and MDBK, when incubated with H₂³⁵SO₄, incorporated the isotope into sulfolipids assigned as sulfatides and ceramide dihexoside sulfate or in MDCK also into cholesterol sulfate.The results suggested that JTC-12, MDCK and MDBK cell lines are epithelial origin and also JTC-12 and MDCK originated most probably from renal tubular cells of cortex and medulla, respectively.     

Characterization of the parathyrin receptor in renal plasma membranes by labelled hormones and labelled antibody binding techniques

The parathyrin receptor in renal cortex has been investigated by studying the binding of ¹²⁵I-labelled parathyrin, or of unlabelled parathyrin detected with ¹²⁵I-labelled antibodies, to a partially purified plasma membrane fraction. The kinetics of hormone uptake demonstrated a biphasic response in both systems at 22 °C but this phenomenon was not detectable at 37 °C. Specific displacement of lactoperoxidase labelled ¹²⁵I-labelled parathyrin occurred with 8 ng unlabelled bovine parathyrin. The apparent affinity constant was $\text{2.3 · 10}{}^8\text{M}{}^{\mathrm{?1}}$ and the apparent binding capacity of the membranes 1.25 pmol/mg protein. Using the labelled antibody technique the receptor showed maximal binding at pH 7.0–7.5. As little as 80 pg bovine parathyrin produced a significant increase in binding of labelled anti-bovine parathyrin antibody and saturation of binding sites was demonstrated at 2.5 pmol/mg protein. Oxidized hormone showed undetectable binding. Treatment of membranes with phospholipases A or D, or Trypsin greatly reduced subsequent hormone binding. Prior incubation of membranes with 1–34 synthetic parathyrin decreased the binding of intact hormone whereas gastrin, insulin and glueagon had no effect. Growth hormone and calcitonin slightly increased parathyrin binding.     

Inhibition by dexamethasone of the in vitro transport of 3-O-methylglucose into rat thymocytes

Reduced glucose transport across the plasma membrane and reduced phosphorylation may both be responsible for the early inhibitory effect of physiological concentrations of glucocorticoids on glucose uptake by rat thymocytes.The early inhibitory effects of glucocorticoids (5 · 10^?7 M dexamethasone) on glucose consumption and ¹⁴CO₂ formation from d-[U-¹⁴C]glucose were reproduced.The total uptake curve of 4.8 μM $\text{3-O-[}{}^{14}\text{C}\text{]}\text{methyl-}\text{d}\text{-glucose}$ was biexponential with $\text{t}\text{1}\text{2}$ of 1.1 min and 36 min, respectively, the rapid part comprising about 50% of the equilibrated intracellular water space. The latency of the effect of 5 · 10^?7 M dexamethasone on $\text{3-O-[}{}^{14}\text{C}\text{]}\text{methyl-}\text{d}\text{-glucose}$ uptake ranged from 15 to 100 min and the inhibition varied from 15 to 55% independently of the lag period. The effect of 3-O-methylglucose concentration on the initial uptake by steroid-responsive cell preparations was tested after 45 min of preincubation with or without 5 · 10^?7 M dexamethasone. In 12 experiments dexamethasone reduced V from 1.36 ± 0.16 mmol · min^?1 · l^?1 cell water to 0.81 ± 0.10 mmol · min^?1 · l^?1 cell water with insignificant change of K_m (6.0 mM versus 5.9 mM). Dexamethasone had similar effect after 90 or 120 min.The variabilities of control cell transport capacity, the lag period and the magnitude of the dexamethasone effect could not be accounted for by changes in pH, effects of cell density, concentrations of albumin, ethanol, nucleosides, pyruvate or correlated to age and sex of the rats. In conclusion the inhibition of glucocorticoids on glucose consumption by thymocytes appears to be an inhibited plasma membrane transport capacity.     

The effect of ethoxyzolamide, an analogue of insect juvenile hormone, nor-adrenaline and iodine on changes in the optical path difference in the excretory cells and oesophagus during exsheathment in Haemonchus contortus

Davey K. G., Sommerville R. I. and Rogers W. P. 1982. The effect of ethoxyzolamide, an analogue of insect juvenile hormone, nor-adrenaline and iodine on changes in the optical path difference in the excretory cells and oesophagus during exsheathment in Haemonchus contortus. International Journal for Parasitology12: 509–513. Ethoxyzolamide, an inhibitor of carbonic anhydrase, markedly inhibits exsheathment of Haemonchus when the larvae are subsequently exposed to an exsheathing stimulus of CO₂ at 38.5°C. Ethoxyzolamide at 2 × 10^?5M does not prevent the increase in optical path difference in the oesophageal region which normally accompanies exsheathment, but markedly inhibits the increase in optical path difference in the excretory cells. An analogue of juvenile hormone (JHA; the methyl ester of 3,7,11 trimethyl-7,11-dichloro-2-dodecenic acid) does not affect the optical path difference in either the oesophagus or the excretory cells of ensheathed worms. When worms are artificially desheathed by exposure to NaOCl, a procedure which mimics the effect of CO₂ upon the oesophagus, but which does not affect the excretory cells, subsequent exposure to JHA at room temperature increases the optical path difference in the excretory cells. This increase is enhanced by subsequent incubation of the worms at 38.5°C at 30–60 min and further enhanced when CO₂ is present during the incubation at 38.5°C. The stimulation of the excretory cells by JHA is inhibited by ethoxyzolamide at 2 × 10^?5M. Noradrenaline at 10^?3M has no effect on ensheathed larvae, but causes an increase in optical path difference in the excretory cells of larvae desheathed with NaOCl. This increase is inhibited by ethoxyzolamide. A brief exposure to I₂ blocks the response of the excretory cells of both CO₂ and JHA, but does not significantly reduce the effect of nor-adrenaline. On the basis of these and previous results, it is proposed that both CO₂ and JHA stimulate a hypothetical CO₂ receptor which leads to the release of nor-adrenaline. The noradrenaline in turn stimulates, either directly or indirectly, the excretory cells.     

Evidence for reutilization of surface receptors for alpha-macroglobulin.protease complexes in rabbit alveolar macrophages

Rabbit alveolar macrophages internalize α-macroglobulin ¹²⁵I-trypsin complexes subsequent to binding of complexes to high affinity surface receptors. Cells were capable of accumulating a 5–10 fold greater amount of αM · ¹²⁵I-T at 37°C than at 0°C. At 0°C cell-bound αM · ¹²⁵I-T was bound solely to surface receptors, whereas at 37°C the majority (85%) of cell-bound radioactivity was intracellular. The temperature-dependent accumulation of αM · ¹²⁵I-T did not reflect a change in surface receptor number or ligand-receptor affinity. Rather, the greater rate of uptake reflected continued internalization of αM · ¹²⁵I-T complexes. At 37°C cells took up 5–9 fmole αMT per μg cell protein per hr, whereas binding to surface receptors accounted for 0.5–0.7 fmole per μg cell protein. Once bound to surface receptors internalized αM · ¹²⁵I-T was localized in lysosomes, where it was degraded at a rate of 35–45% per hr. Following binding of αM · T to receptors at 37°C, but not at 0°C, unoccupied receptors could be found on the cell surface. Using cycloheximide to probe receptor turnover, I calculated that receptors were replenished at a rate of 15% per hr. Cells incubated in the presence of cycloheximide exhibited unaltered ligand uptake and catabolism for hours. Thus the reappearance of receptor activity during ligand uptake was not primarily due to de novo receptor synthesis. The rate of ligand uptake was a function of the number of surface receptors. Measurement of αM¹²⁵I-T binding to subcellular fractions did not reveal the presence of any intracellular reservoir of receptors. These observations are consistent with the hypothesis that continued ligand uptake reflects receptor reutilization.     

Amine transport at the plasmalemma of Riccia fluitans

Green thallus cells of the aquatic liverwort, Riccia fluitans, are rapidly depolarized in the presence of 1–20 μM NH₄Cl and 5–100 μM CH₃NH₃Cl, respectively. Simultaneously, the membrane conductance is increased from 0.41 to 1.2 S · m^?2. Uptake of [¹⁴C]methylamine is stimulated by increasing [K⁺]_o and inhibited by increasing [Na⁺]_o or [H⁺]_o, is highly voltage sensitive, and saturates at low amine concentrations.Double-reciprocal plots of (a) maximal membrane depolarization and (b) methylamine uptake vs. external amine concentration give apparent K_m values of 2 ± 1 μM ammonia and 25–50 μM methylamine; K_m values for changes in conductance and membrane current are greater and voltage dependent. Whereas the amine transport into the cell is strongly inhibited by CN^?, the amine efflux is stimulated.The current-voltage characteristics of the ammonia transport are represented by a sigmoid curve with an equilibrium potential of ?60 mV, and this is understood as a typical carrier curve with a saturation current of about 70 mA · m^?2. It is further concluded that the evidently carrier-mediated transport is competitive for the two amines tested, and that ammonia and methylamine are transported in the protonated form as NH₄⁺ and CH₃NH₃⁺ into the cytoplasm.     

Rotation of a single swollen thylakoid vesicle in a rotating electric field. Electrical properties of the photosynthetic membrane and their modification by ionophores,lipophilic ions and pH

Rotation of single swollen thylakoid vesicles (‘blebs’) was induced by means of a rotating electric field of strength 104 V · cm⁻¹, inducing a membrane voltage of 72 mV peak. Within the range of medium conductives described (40–300 μS · cm⁻¹), measurement of the field frequency (2–100 kHz) giving maximum rotation rate is equivalent to measuring the electrical time constant of the bleb membrane. Hence the membrane capacity (specific capacitance) was determined, and the value found at pH 8.1 (0.93 ± 0.07 μF · cm⁻²) is in agreement with values deduced from measurements using other techniques. However, the capacity was also found to decreased with pH: a minimum value of 0.77 ± 0.01 μF · cm⁻² was measured at pH 4.4. The present study was extended to measurements of the effects of the lipid-soluble anion of dipicrylamine on the membrane capacity. At pH 7.2 and dipicrylamine concentration of 1.0 μM, a minimum estimate of the apparent membrane capacity was found to be 2.0 ± 0.2 μF · cm⁻², with 2.6 ± 0.2 μF · cm⁻² being observed at 5.0 μM concentration. In addition, it was found possible to measure the membrane resistivity (specific resistance) in the presence of either gramicidin (1.0 to 10 nM) or valinomycin (1.0 to 10 μM). In the case of gramicidin, it was possible to derive a maximum estimate of the mean channel conductance, and this agrees very well with the values for individual, single channels that may be deduced from artificial bilayer work. Unless the gramicidin channels in blebs are in fact substantially more conductive than in artificial bilayers, this indicates that a high percentage of the added gramicidin forms channels which are open for most of the time. In the case of valinomycin, a much greater amount had to be added to produce the same reduction of membrane resistivity as seen with a given concentration of gramicidin. However, calculations indicate that the majority of this effect is due to the difference in partioning behaviour of the two ionophores.     

E-rosette formation at 37 °C: Analysis with monoclonal OKT antibodies

When cultured in the presence of PHA, a proportion of human peripheral blood mononuclear cells acquires the capacity to form E rosettes with sheep erythrocytes that are resistant to incubation at 37 °C. The nature of this 37 °C stable E-rosette formation was investigated using a panel of monoclonal OKT antibodies directed to human T-lymphocyte surface antigens. OKT11A antibody, at a concentration of 0.2–0.4 μg/ml, markedly blocked 37 °C E rosetting. OKT1, OKT3, OKT4, OKT6, and OKT8 antibodies, when tested at 10 μg/ml, show no such inhibiting activity. Quantitative studies with ¹²⁵I-labeled OKT11A indicated that the antibody interacted strongly with both 37 °C E-rosetting and nonrosetting cells, the association constant being 1.6–2.0 × 10⁹M^?1. However, on the average, a threefold higher concentration of OKT11A receptor sites was found on 37 °C E-rosette-forming cells (14.8 × 10⁴ sites/cell) than on nonrosetting cells (4.8 × 10⁴ sites/cell). Our data suggest that 37 °C E-rosette formation is governed by a lymphocyte surface determinant recognized by OKT11A antibody. “Overexpression” of OKT11A antigenic sites on a proportion of PHA-stimulated lymphocytes may explain their capacity to form 37 °C stable E-rosettes.     

Multiple G-protein involvement in parathyroid hormone regulation of acid production by osteoclasts

The involvement of multiple G-proteins in parathyroid hormone regulation of acid production was demonstrated in a highly enriched osteoclast population. Osteoclasts were isolated from the endosteum of 2.5 to 3-week-old chicken tibia using sequential enzymatic digestion. Single cell analysis of acid production was accomplished using microscope photometry and vital staining with acridine orange, a hydrogen ion concentration sensitive fluorescent dye. Lithium chloride, an uncoupler of G-proteins from their respective receptors, blocked parathyroid hormone stimulated production of acid. Cholera toxin, which permanently activates G_s-proteins, mimicked PTH stimulation. Pertussis toxin, which prevents receptor interaction with G_i- and G_o-proteins, blocked both 10 ⁸ M and 10 ¹¹ M PTH stimulated acid production, suggesting that the pertussis toxin-sensitive G-protein is utilized at both PTH concentrations. Immunoblots of osteoclast plasma membrane proteins, using a panel of antibodies generated against specific G-protein α subunits, revealed a 48 kDa G_sα, a 41 G_oα, a 34 kDa G_iα-3, and a unique 68 kDa Gα subunit, with the 41 kDa and 34 kDa bands being the most intense. Immunoblots of osteoblast plasma membrane proteins had a substantially different profile with the most intense bands being a G_sα (48 kDa) and a G_oα (36 and 38 kDa). The studies suggest the utilization of at least two different G-proteins in the parathyroid hormone regulation of acid formation by osteoclasts, a G_s and a pertussis toxin-sensitive G-protein (G_o and/or G_iα-3). J. Cell. Biochem. 64:161–170. © 1997 Wiley-Liss, Inc.     

Characterization and constitutive expression of an acidic mesophilic endo-1,4-β-d-xylanohydrolase with high thermotolerance and catalytic efficiency in Pichia pastoris

A putative endo-1,4-β-d-xylanohydrolase gene xyl11 from Aspergillus niger, encoding a 188-residue xylanase of glycosyl hydrolase family 11, was constitutively expressed in Pichia pastoris. The recombinant Xyl11 exhibited optimal activity at pH 5.0 and 50 °C, and displayed more than 68 % of the maximum activity over the temperature range 35–65 °C and 33 % over the pH range 2.2–7.0. It maintained more than 40 % of the original activity after incubation at 90 °C (pH 5.0) for 10 min and more than 75 % of the original activity after incubation at pH 2.2–11.0 (room temperature) for 2 h. The specific activity, K _m and V _max of purified Xyl11 were 22,253 U mg^?1, 6.57 mg ml^?1 and 51,546.4 μmol min^?1 mg^?1. It could degrade xylan to a series of xylooligosaccharides and no xylose was detected. The recombinant enzyme with high stability and catalytic efficiency could work over wide ranges of pH and temperature and thus has the potential for various industrial applications.     

Cell association and degradation of α2-macroglobulin-trypsin complexes in hepatocytes and adipocytes

¹²⁵I-labelled α₂-macroglobulin-typrin complex (¹²⁵I-labelled α₂-macroglobulin·trypsin) was associated to isolated rat adipocytes and hepatocytes with a half-time of about 60 min at 37°C. The association of 0.5 μg/ml ¹²⁵I-labelled α₂-macroglobulin·trypsin was inhibited by unlabelled α₂-macroglobulin·trypsin with a half-inhibition constant of about 8 μg/ml (11 nM). ¹²⁵I-Labelled α₂-macrioglubulin became cell-associated to a smaller extent (10–40% of that of α₂-macroglobulin·trypsin) and the half-inhibition constant was about 35 μg/ml in adipocytes. The cell associated of ¹²⁵I-labelled α-macroglobulin·trypsin was markedly inhibited by dansylcadaverin, bacitracin, omission of Ca²⁺ from the medium or pretreatment of the cell with trypsin. After incubation for 180 min more than 60% of the cell-associated ¹²⁵-Ilabelled α₂-macroglobulin·trypsin was not removed by treatment of the cells with trypsin-EDTA and represented probably internalized marterial. ¹²⁵I-Labelled α₂-macroglobulin·trypsin was degraded to trichloroacetic acid-soluble fragments by suspensions of both cell types but only to a negligible extent by incubation media preincubated with these cells. The rate of degradation of 0.5 μg/ml ¹²⁵I-labelled α₂-macroglobulin was approx. 40% of that of ¹²⁵I-labelled α₂-macroglobulin·trypsin. Degradation of ¹²⁵I-labelled α₂-macroglobulin·trypsin was abolished by a high concentration (0.5 mg/ml) and α₂-macroglobulin·trypsin. It is concluded that α₂-macroglobulin·trypsin by a specific and saturable mechanism is bound to, internalized and degraded by isolated rat adipocytes and hepatocytes.