Study of lectin-ganglioside interactions by high-performance liquid affinity chromatography

A high-performance affinity column containing immobilized modified GM1 (lyso-GM1) was used to study the binding of an endogenous human brain lectin (HBL) in comparison with other carbohydrate-binding proteins. The proteins are previously converted into biotinylated derivatives. Detection of biotinylated proteins in the eluates by a microtitre plate assay ensures good sensitivity. The maximum binding capacity of the adsorbent for HBL is obtained in Tris buffer supplemented with beta-mercaptoethanol. The binding is inhibitable by specific sugar. It is concluded that the use of immobilized glycolipids in analytical high-performance liquid affinity chromatographic methods may serve as models in the study of interactions between gangliosides and carbohydrate-binding proteins.

Agonist-modulated palmitoylation of beta 2-adrenergic receptor in Sf9 cells

The palmitoylation of the human beta 2-adrenergic receptor (beta 2-AR) was studied in recombinant baculovirus-infected insect Sf9 cells. At 48 h post-infection, a high level expression of an epitope-tagged beta 2-AR (10-25 pmol/mg protein) was detected by [125I]iodocyanopindolol ([125I]CYP) binding assays. The identity of the receptor was confirmed both by photoaffinity labeling and immunoblotting. The fusion receptor displayed typical beta 2-AR pharmacological properties and conferred a beta-adrenergic sensitive adenylyl cyclase activity to the Sf9 cells. Moreover, exposure of the Sf9 cells to the beta-adrenergic agonist isoproterenol induced a rapid desensitization of the receptor-stimulated adenylyl cyclase activity. Purification of the epitope-tagged beta 2-AR by immunoprecipitation as well as by alprenolol-Sepharose affinity chromatography revealed that the receptor is covalently modified with palmitic acid in the insect cells as is observed in mammalian cells. In addition, short-term incubation of the cells with isoproterenol led to a specific increase in the incorporation of [3H]palmitate in the receptor, consistent with a rapid agonist-modulated turnover of the beta 2-AR-attached palmitic acid. These results suggest that agonist-mediated regulation of beta 2-AR post-translational palmitoylation could represent an other regulatory process for G protein-coupled receptors.

Use of an immobilized human endogenous lectin for the purification of complementary ligands

1. A galactoside-specific endogenous lectin isolated from human brain was covalently immobilized on divinylsulfone-activated agarose. This highly selective affinity adsorbent proved to be useful in purifying soluble protein ligands. 2. The maximum binding capacity of the adsorbent for complementary proteins was calculated to be 618 micrograms per g of gel (wet resin). 3. Sequential elutions using 0.1 M lactose, 0.3 M lactose and 0.5 M NaCl, and competition assays using incorporation in the presence 0.1 M lactose revealed differences in lectin-ligand interactions.

Differential role of insulin receptor autophosphorylation sites 1162 and 1163 in the long-term insulin stimulation of glucose transport, glycogenesis, and protein synthesis

The long-term regulatory effect of insulin on glucose transport activity and glucose transporter expression was examined in Chinese hamster ovary (CHO) transfectants that overexpress either human insulin receptors of the wild type (CHO-R cells) or human insulin receptors mutated at two major autophosphorylation sites, Tyr1162 and Tyr1163 (CHO-Y2 cells). Previous studies showed that, when acutely stimulated by insulin, CHO-Y2 cells exhibit decreased receptor kinase activity along with decreased signaling of several pathways, including that for glucose transport, as compared with CHO-R cells. We now report the following. (i) When treated for 24 h with insulin (10(-10) to 10(-6) M), CHO-R and CHO-Y2 cells displayed closely similar concentration-dependent increases in 2-deoxyglucose uptake. In both transfectants, the maximal insulin-induced increase (approximately 3.5-fold) in uptake was cycloheximide-sensitive and was paralleled by equivalent increases in the levels of GLUT-1 immunoreactive protein and mRNA. (ii) By contrast, under similar conditions, CHO-Y2 cells exhibited a marked decrease in their response to insulin for [U-14C]glucose incorporation into glycogen (decreased sensitivity and maximal responsiveness) and for [U-14C]leucine incorporation into protein (decreased sensitivity) as compared with CHO-R cells. (iii) After a 24-h treatment with 10(-7) M insulin, CHO-R (but not CHO-Y2) cells showed a decreased ability to respond to a subsequent acute insulin stimulation of either receptor exogenous kinase activity or 2-deoxyglucose uptake as compared with respective untreated controls. These results indicate that (i) insulin receptors mutated at Tyr1162 and Tyr1163 retain normal signaling of the long-term stimulatory effect of insulin on glucose transport activity and GLUT-1 expression, but not on glycogenesis and overall protein synthesis; (ii) these three insulin signaling pathways may be triggered by distinct domains of the insulin receptor beta-subunit; and (iii) wild-type (but not twin-tyrosine mutant) receptors undergo negative regulation by chronic insulin treatment for subsequent signaling of acute biological actions of insulin.

Electrophoretic study of conformational changes of a human soluble beta-D-galactoside-binding lectin upon storage

Human brain lectin (HBL), a beta-galactoside specific soluble lectin, was purified by affinity chromatography. An alkylated derivative of this lectin was also prepared. Both native and modified molecules were conserved at -20 degrees C in the presence or absence of beta-mercaptoethanol, a reducing agent which was described to maintain the lectin activity in vitro or in the presence of beta-mercaptoethanol and lactose. The impact of storage conditions, over one year, on the native and derivated lectins, was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, isoelectric focusing and titration curve, using the PhastSystem (Pharmacia). Western-blot analysis using an anti-HBL antibody and size-exclusion high performance liquid chromatography were used to complete the study. The subunit M(r)s were estimated before freezing (T0) and after three and twelve months (T3, T12). They were comparable for all preparations. In all samples tested, isoelectric focusing demonstrated the existence of at least three acidic proteins, with the pI ranging between 4.7-4.9. Titration curves clearly showed pH-dependent conformational changes, resulting in a panel of differently charged molecular species, some of which may be related to different oxidative states of the cysteine residues. We concluded that lectin can be stored at -20 degrees C for at least one year before use as a reagent since the modifications revealed by electrophoretic analysis do not alter the hemagglutination activity and carbohydrate binding properties. The immunoreactivity also remained unchanged.

Development of screening methods for detection of carbohydrate-binding proteins by use of soluble glycosylated polyacrylamide-based copolymers

Mammalian endogenous carbohydrate-binding proteins (lectins) play fundamental roles in a variety of mechanisms of interactions both at the molecular and cellular levels. We have investigated the binding of one of them (human brain lectin) to soluble acrylamide copolymerized with derivatives of either lactose (O-beta-lactosyloxyallylallylaminoacrylamide copolymer) or D-mannose (D-alpha-mannosyloxyallylallylaminoacrylamide copolymer) in direct enzyme affinoassays, in an attempt to develop simple procedures for detection and estimation of its carbohydrate-binding activity. Biotinylated plant lectins were utilized as reference standards. Affinoassays employed the polymer dotted on nitrocellulose and the polymer coated on microtiter plates as well as detection of bound biotinylated lectin by streptavidin/horseradish peroxidase reagent. Both assays provided reproducible binding, inhibitable by specific sugars. The microtiter plate assay is well suited to sensitive detection of the negative endogenous lectin by competition with biotinylated brain lectin. We conclude that the use of derivatized acrylamide in dotting and microtiter plate assays may prove practical for detection of endogenous lectins and that such polymers may serve as model substances in the study of biological partners of these carbohydrate-binding proteins.

Baculovirus expression of mammalian G protein alpha subunits

Complementary DNAs encoding three subtypes of the alpha subunit (alpha i-1, alpha o and alpha s) of rat guanyl nucleotide regulatory proteins were used to construct recombinant baculoviruses which direct high-level expression of the corresponding proteins in cultured Sf9 insect cells. The expressed proteins were recognized by polyclonal antisera specific for the different alpha chains, and co-migrated with the native proteins from rat brain membranes in immunoblotting analyses. Soluble and particulate forms of all three immunoreactive alpha chains were observed following ultracentrifugation of cell lysates. Biosynthetic radiolabelling of infected cells with [35S]methionine or [3H]myristate showed that both soluble and particulate forms of alpha i-1 and alpha o were myristoylated; in contrast, alpha s did not incorporate myristate. The soluble fractions from cells expressing alpha chains showed high levels of GTP-binding activity over that observed in uninfected cells, or in cells infected with wild-type virus. The peak expression levels observed at 72 h post-infection were highest for alpha o at ca. 400 pmol of GTP-gamma-35S/mg protein, or roughly 2% of the total soluble protein. The results of this work show that the baculovirus system can be employed for high-level production of mammalian G protein alpha chains which retain GTP-binding activity and are appropriately modified by myristoylation.

Regulation of a beta-galactoside-binding lectin and potential ligands during postnatal maturation of rat brain

Variations in expression and activity of a beta-galactoside-specific lectin were quantified during postnatal maturation of the rat brain. Lectin expression, estimated from enzymatic immunoassay data, and lectin activity, evaluated by rabbit erythrocyte agglutination, are higher in the brains of young animals (5 days after birth) than in older ones (2 months of postnatal life). Concurrently, modifications in glycosylation during cellular differentiation were detected by affinoblotting using a biotinylated derivative of a beta-galactoside-specific brain lectin. This study shows that membrane and cytosolic glycoconjugates of the rat brain bear appropriate beta-galactoside moieties which may be recognized by an endogenous lectin expressed in the tissue itself in relation to brain maturation. The observed variations in the expression of lectin and complementary glycoconjugates can be correlated with significant events of rat brain development.

Human brain lectin: a soluble lectin that binds actin

A biotinylated probe was used for detection of endogenous ligands of a human brain lectin on blotted human brain soluble proteins. Of the various proteins from brain extract resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, five reacted with the biotinylated probe. After elimination of saccharidic moieties by periodic treatment of the same extract, a single band with Mr approximately 43,000 was recognized by the lectin. This band was identified as actin using an anti-actin antibody. These results were confirmed by binding of biotinylated lectin to purified actin.

Human brain lectin immunoreactive material in cerebrospinal fluids determined by enzyme immunoassay (EIA)

A sensitive enzyme immunoassay (EIA) micromethod is described which can measure levels of a 14 kDa human brain lectin (HBL) in the cerebrospinal fluid (CSF) of patients submitted to CSF examination. The assay is based on the use of a polyclonal antibody to HBL and the simultaneous application of biotinylated and unlabeled HBL. Biotin was then reacted with a streptavidin-peroxidase (Strep-HRP) conjugate and the bound enzyme quantified with the substrate orthophenylenediamine (OPD). The assay requires only 50 microliters of CSF and is very sensitive: as little as 6 ng/ml of HBL 14 can be detected. In a blind-test screening, the mean (+/- SEM) concentration of the HBL immunoreactive material (HIM) in CSF was determined to be 72.4 +/- 6.6 ng/ml. Our results indicate that EIA measurement of HIM levels in the CSF may find useful applications in elucidating the involvement of HBL in the physiopathology of human nervous system (NS).

Increased insulin action in cultured hepatocytes from rats with diabetes induced by neonatal streptozotocin

Previous studies have shown that Wistar rats injected at birth (n0) with STZ (n0-STZ) develop as adults a noninsulin-dependent diabetic state characterized by a lack of insulin response to glucose in vivo, a mild basal hyperglycemia, and an impaired glucose tolerance. Our former in vivo studies using the insulin-glucose clamp technique revealed an increased insulin action upon hepatic glucose production in these animals. We have now cultured hepatocytes from these mildly diabetic rats in parallel with hepatocytes from control rats, to examine more closely basal and insulin-regulated glucose production and glucose incorporation into glycogen. In addition, we extended our investigation to other hepatic functions such as lipid synthesis and amino acid transport, which could not be studied in vivo. Although glucose production from glycogenolysis or gluconeogenesis in absence or presence of glucagon was identical in the two cell populations, glucagon-stimulated glycogenolysis was more sensitive to insulin action in diabetic hepatocytes. Similarly, insulin action on glucose incorporation into glycogen, lipogenesis, and amino acid transport were enhanced in diabetic hepatocytes. The hormone effect was manifested by an increase in the sensitivity and/or in the responsiveness, reflecting the multiplicity of the pathways whereby the insulin signal is transduced through the insulin receptor to multiple postreceptor sites. To gain insight into the possible mechanism of these disturbances, we evaluated the initial insulin receptor interaction and the kinase activity of the receptor beta-subunit. In accordance with our previous study on intact livers, we found no alteration in either of these parameters in n0-STZ rat hepatocytes. Thus, the present study clearly demonstrates that these diabetic rats exhibit a postreceptor hyperresponsiveness to insulin at the cellular level. It strengthens the notion that a beta-cell deficiency with glucose intolerance does not necessarily lead to a hepatic insulin resistance.

Insulin receptor tyrosine residues 1162 and 1163 control insulin stimulation of myristoyl-diacylglycerol generation and subsequent activation of glucose transport

Chinese hamster ovary (CHO) transfectants expressing human insulin receptors that were mutated at tyrosines 1162 and 1163 (CHO-Y2 cells) exhibit decreased insulin stimulation of both receptor tyrosine kinase and 2-deoxyglucose uptake compared with transfectants expressing wild-type human insulin receptors (CHO-R cells). We now provide evidence that insulin stimulation of myristoyl-diacylglycerol (DAG) production is also markedly impaired in CHO-Y2 cells; this is manifested as a decreased responsiveness and sensitivity to insulin as compared with CHO-R and parental CHO cells. Further, we report that (i) the concentration-response curves of insulin-stimulated myristoyl-DAG production and 2-deoxyglucose uptake were superimposable within each of the three cell lines. (ii) The insulin-induced increase in myristoyl-DAG production preceded that in 2-deoxyglucose uptake, and the time course was altered for both responses in CHO-Y2 cells. (iii) Insulin also increased the phosphorylation of a 40-kDa protein known to be a substrate for protein kinase C, but to a much lesser extent in CHO-Y2 cells than in CHO-R cells. (iv) Exogenously added 1,2-dimyristoyl-glycerol and 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA) again stimulated both the phosphorylation of the 40-kDa protein and 2-deoxyglucose uptake, but in contrast to insulin, they elicited the same level of response in both CHO-R and CHO-Y2 cells. (v) Finally, in protein kinase C-depleted CHO-R cells, insulin and PMA stimulation of 40-kDa protein phosphorylation as well as PMA stimulation of 2-deoxyglucose uptake were completely abolished whereas insulin-stimulated 2-deoxyglucose uptake was only partially decreased. Taken together, these results suggest that insulin stimulation of 2-deoxyglucose uptake involves myristoyl-DAG production and, at least in part, protein kinase C activation, all three of these processes being controlled by receptor tyrosines 1162 and 1163.

Dual effect of metformin in cultured rat hepatocytes: potentiation of insulin action and prevention of insulin-induced resistance

The ability of the biguanide hypoglycemic agent metformin to improve the acute effects of insulin on glucose and/or lipid metabolism was investigated in both insulin-responsive and insulin-resistant cultured rat hepatocytes: (1) metformin (20 micrograms/mL, 16 hours) increased the insulin-dependent stimulation of glycogen and lipid synthesis through an exclusive enhancement of the responsiveness without modification of the cell sensitivity to the hormone; (2) metformin neither altered basal glycogenesis from [U-14C]glucose and basal lipogenesis from [1-14C]acetate nor insulin binding. These results indicate the ability of this drug to selectively potentiate the acute action of insulin at a postreceptor step in normal liver cells. A prolonged incubation with insulin (16 hours, 5 x 10(-7) mol/L) led the hepatocytes to a state of resistance evidenced by a 50% decrease in their maximal responsiveness and sensitivity to a subsequent acute stimulation by the hormone, as assessed on lipogenesis. Addition of metformin (20 micrograms/mL) during the overnight incubation of hepatocytes with insulin prevented the decrease in cell responsiveness and sensitivity to the hormone for the stimulation of lipogenesis, thus showing that metformin was able to hamper the development of the resistant state to the hormone in this pathway. These results strongly suggest that metformin improves type 2 diabetes through an effect at the hepatic level on both insulin action and insulin-induced resistance.

Biotinylated derivative of a human brain lectin: synthesis and use in affinoblotting for endogenous ligand studies

Coupling of biotin to an endogenous lectin yields a probe which can be used for selective nonradioactive detection of complementary endogenous ligands. To exemplify practical applications of this type of compounds, we have synthesized and characterized a biotinylated derivative of a beta-galactoside-specific human brain lectin. Proteins which bind this lectin can be located on nitrocellulose sheets after electrophoretic transfer from gradient polyacrylamide gels, by sequential incubation with biotinylated probes and streptavidin-peroxidase, with visualization by an insoluble reaction product (affinoblotting). Biotinylated galactoside-binding plant lectins were used in the same way to visualize human brain glycoproteins, and their binding specificity was compared with that of human brain lectin. The results obtained by means of these different probes showed the usefulness of the endogenous lectin derivative to actually identify its endogenous partners. Thus this approach may find extended applications in the study of biological activities of vertebrate lectins in homologous systems, i.e., with lectins and ligands coming from the same tissue origin.

Mutation of tyrosine residues 1162 and 1163 of the insulin receptor affects hormone and receptor internalization

Insulin internalization and degradation, insulin receptor internalization and recycling, as well as long term receptor down-regulation were comparatively studied in Chinese hamster ovary (CHO) cell lines, either parental or expressing the wild-type human insulin receptor (CHO.R) or a mutated receptor in which the tyrosine residues in positions 1162 and 1163 were replaced by phenylalanines (CHO.Y2). The two transfected cell lines presented very similar binding characteristics, and their pulse labeling with [35S]methionine revealed that the receptors were processed normally. As expected, the mutation of these twin tyrosines resulted in a defective insulin stimulation of both receptor kinase activity and glycogen synthesis. We now present evidence that compared to CHO.R cells, which efficiently internalized and degraded insulin, CHO.Y2 cells exhibited a marked defect in hormone internalization, leading to impaired insulin degradation. Moreover, the mutated receptors were found to be less effective than the wild-type receptors in transducing the hormone signal for receptor internalization, whereas the process of receptor recycling after internalization seemed not to be altered. In parental CHO cells, insulin induced long term receptor down-regulation, but was totally ineffective in both transfected cell lines. These results reveal that the tyrosines 1162 and 1163 in the kinase regulatory domain of the receptor beta-subunit play a pivotal role in insulin and receptor internalization.

Evidence for the involvement of vicinal sulfhydryl groups in the insulin stimulation of intracellular glucose metabolism in Zajdela hepatoma cells

Phenylarsine oxide (PhAsO), a dithiol reagent that blocks insulin stimulation of glucose transport in 3T3 L1 cells, also altered insulin stimulation of intracellular glucose metabolism in Zajdela Hepatoma cultured cells. PhAsO (2 microM) similarly inhibited the insulin-induced glycogen and lipid syntheses without modifying the basal level of these processes, cell viability or the ATP content. Prior incubation of the cells with PhAsO did not prevent insulin binding to the cells, or activation of the receptor tyrosine kinase, while it minimally (16%) altered receptor internalization. These results indicate that cellular dithiols located at a post-receptor step are involved in the transduction of the insulin signal to intracellular glucose metabolism.

Soluble galactoside-binding vertebrate lectins: a protein family with common properties

1. Soluble galactoside-binding lectins could play a key role in vertebrates by specifical binding to complementary glycoconjugates. 2. Their expression and localization are developmentally regulated. 3. They constitute a large family of structurally related proteins which contain a series of conserved aminoacids. 4. Their functional role could vary from an organ to another, and the same lectin may probably mediate several biological activities.

Soluble heparin-binding lectins from human brain: purification, specificity and relationship to an heparin-binding growth factor

1. An heparin-binding lectin activity was detected in soluble extracts of human brain. Three polypeptide chains were purified by affinity chromatography on heparin-Sepharose. Their Mrs estimated by polyacrylamide gel electrophoresis were 13,000, 14,500 and 16,000. 2. Several glycosaminoglycans were potent inhibitors of their hemagglutination activity. 3. From the pool of purified lectins three peaks were separated by reversed-phase high-performance liquid chromatography. They were indistinguishable by activity criteria (hemagglutination, stimulation of endothelial cell growth), and immunological relationship was found between one of them and acidic fibroblast growth factor (aFGF).

Marketing alternatives for hospitals to the nursing crisis

The current nursing shortage problem as defined in this article, is the result of a supply and demand imbalance. The demand for nurses is growing at a faster rate than the supply. If strategies are not implemented to correct this imbalance the demand for nurses will continue to surpass the supply, negatively affecting access to and delivery of quality patient care. Factors contributing to the increased demand for nurses and the dwindling supply must be examined if solutions to the problem are to be found and implemented. Factors contributing to the growing demand for nurses include the decreasing use of ancillary personnel by hospitals in an effort to tighten their budgets; the impact of Medicare's prospective payment system on hospital lengths of stay; the increase in patient acuity with advances in medical technology; and alternative health care opportunities pulling nurses away from the hospital setting. The supply of RNs is shrinking in relation to demand because of low retention rates; declining nursing school enrollment; non-competitive wages; poor working conditions; alternative career opportunities for women; and the lack of power and support within the nursing profession. An active marketing approach that relies on this assessment of contributing factors has been formulated in an attempt to resolve the problem and meet the increasing demand. Recommendations have been made and ranked in the order of their priority and pros and cons established for each. The strategies developed have been divided into four basic marketing categories of product, price, place, and promotion. If the problem is to be resolved these strategies must be marketed to hospitals, their administrators, nurses, other allied health professionals, third party payors, educators, and the general public. The nursing profession itself must find the unity and strength within its own group of professionals to build political and economic powers to enhance their product. Nursing is at a crossroad. Much depends on how we cope with the current shortage and its related issues. Nurses have the opportunity to shape their future. Hopefully, with proactive strategies, the profession will transform from a passive role to an active, vital force of the health care environment. The authors believe that through our marketing approaches this can be accomplished.

A further comparison of insulin- and phorbol ester-stimulated glucose transport in adipocytes

Insulin and 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA) stimulatory effects on adipocyte glucose transport were compared for their sensitivity to: (1) sphingosine and staurosporine, two potent protein kinase C (PKC) inhibitors; and (2) phenylarsine oxide (PhAsO), a dithiol reagent blocking insulin-stimulated glucose transport. None affected basal 2-deoxyglucose transport, cell viability, cellular ATP content, or insulin binding. Insulin- and PMA-stimulated 2-deoxyglucose transport were both markedly inhibited by sphingosine (5-50 microM) and staurosporine (0.1-2 microM), although with differences in the extents of maximal inhibitions (65 and 48% vs. 88 and 98%) and the concentrations of the drugs causing the half-maximal inhibitions observed in the experiments (2- to 3-fold higher for insulin). Insulin and PMA both altered PKC along with glucose transport, either by increasing its activity in the cytosol or by promoting its translocation to membrane. Insulin- and PMA-stimulated 2-deoxyglucose transport were both inhibited selectively by PhAsO (0.1-1 microM), at almost identical maximal inhibitions (84 and 90%) and IC50 values (0.18 and 0.16 microM). Furthermore, insulin- and PMA-induced increases in transport Vmax (6.5- and 3.4-fold) were both reduced by 89% by PhAsO, which, however, failed to affect the decrease in transport Km (1.7-fold) exclusively induced by insulin. Likewise, PhAsO did not affect insulin or PMA activation of PKC. The results suggest that insulin activates adipocyte glucose transport through: (1) a PKC-dependent mechanism requiring cellular dithiols, responsible for a part of the hormone-induced increase in transport Vmax; and (2) a PKC-independent mechanism responsible for both a further increase in transport Vmax and a decrease in transport Km.