Rubella Hemagglutination Inhibition: Removal of Nonspecific Agglutination Due to Manganous Chloride

Nonspecific inhibitors of rubella hemagglutination can be removed by treatment of sera with heparin-manganous chloride for use in the hemagglutination-inhibition test. After removal of nonspecific inhibitors by this procedure, an excess of manganous chloride may remain. This may cause the cells to agglutinate, thus obscuring the reading at low serum dilutions. This disadvantage can be overcome by the addition of sodium carbonate, which forms an insoluble compound with manganous chloride and does not interfere with antibody determination. The procedure presents a further refinement of the hemagglutination inhibition test for rubella by increasing specificity and sensitivity; it permits detection of antibody levels as low as 1:4 in sera.     

Augmentative effect of polyethylene glycol, polyvinyl alcohol and dextran on thyroid-stimulating antibody stimulated cAMP production in FRTL-5 cells and CHO cells expressing human TSH receptor

Previously we reported the augmentative effect of nonionic hydrophilic polymers such as polyethylene glycol (PEG), polyvinyl alcohol (PVA) and dextran on thyroid-stimulating antibody (TSAb) activity in porcine thyroid cell assays. We examined whether a similar phenomenon occurs in FRTL-5 thyroid cells and CHO cells expressing the human (h) TSH receptor (CHO-hTSHR cells). As with porcine thyroid cells, PEG 22.5% precipitated crude IgG from serum of patients with Graves' disease, significantly increased cAMP production as compared with PEG 12.5% precipitated crude IgG in both FRTL-5 cells and CHO-hTSHR cells. PEG 5% augmented purified-TSAb-IgG-stimulated cAMP production in both cell assays. TSAb activities and positivity by the direct assay using whole serum (0.05 ml) in the presence of 5% PEG in untreated Graves' patients were significantly increased as compared with the absence of 5% PEG. The augmentative effects of PVA 10% or dextran T-70 10% on TSAb-IgG-stimulated cAMP production were also observed in both cell assays. PVA 10% did not augment TSH-stimulated cAMP production in spite of weak augmentation by dextran 10% in both cell assays. Lack of the augmentative effects of PEG 5%, PVA 10% and dextran 10% on cAMP produced by GTPgammaS, forskolin and pituitary adenylate cyclase activating polypeptide was observed in both cell assays. The augmentative effects of these polymers in both cell assays similar to porcine thyroid cells suggest that there is no apparent species specificity among human, porcine and rat thyroid cells as far as TSH receptor linked cAMP production in cell membranes existed.     

Comparison of Methods for Removal of Nonspecific Inhibitors of Arbovirus Hemagglutination

Human sera were treated with kaolin, acetone, and dextran sulfate to determine the best method for removing nonspecific hemagglutination inhibitors. Results indicated that on surveys for group A, group B, and some group C arbovirus HI antibodies, dextran sulfate treatment of sera could be used effectively. This method, however, has limited usefulness for detecting HI antibody for a number of arboviruses, particularly some members of the Bunyamwera supergroup since nonspecific inhibitors for these antigens were not completely removed. HI antibodies in sera drawn early after dengue and Venezuelan equine encephalitis infection were detected more readily after dextran sulfate treatment than after kaolin treatment. Kaolin, but not dextran sulfate, was shown to remove antibody from IgM fractions of sera.     

Functional expression of human and mouse low density lipoprotein receptors in hybridomas

Though a mouse.human-human heterohybridoma, N12-16.63, secreting an antitetanus toxoid human monoclonal antibody grew well in a serum-free medium, its high producing subclone N12-69 required SSGF-I, a low density lipoprotein (LDL) from swine serum, or human-LDL (h-LDL) for growth. The growth-promoting action of SSGF-I was caused by its lipid fraction, and SSGF-I could be replaced completely with cholesterol in the presence of bovine serum albumin (BSA). Thus, cell line N12-69 is a cholesterol auxotroph of the heterohybridoma. N12-69 cells express both mouse and human LDL receptors on the cell surface in a ratio of 1:4. SSGF-I bound to both receptors with the same binding affinity, and h-LDL was also take up by the same receptors, though the affinity constant of the receptors for SSGF-I was 1.5 times stronger than that for h-LDL. The growth of N12-69 cells was completely inhibited by the addition of dextran sulfate, which is known to inhibit the binding of LDL to LDL receptors, to an SSGF-I or h-LDL containing medium but was not inhibited at all when dextran sulfate was added to a serum-free medium supplemented with cholesterol and BSA. Furthermore, an anti-human LDL receptor monoclonal antibody partially inhibited the growth of N12-69 cells in an SSGF-I or h-LDL containing medium. These findings suggest that N12-69 cells express both biologically active mouse and human LDL receptors on their cell surfaces and that SSGF-I or h-LDL is taken up by the both receptors to be utilized as a cholesterol source for the growth.     

Polysaccharides with sulfate groups are human T cell mitogens and murine polyclonal B cell activators (PBAs) II. Cellulose sulfate and dextran sulfate with two different lower molecular weights

In our previous paper, we reported that various types of carrageenan, dextran sulfate and fucoidan, which are sulfated homopolysaccharides with high molecular weights, were human T cell mitogens and murine polyclonal B cell activators (PBAs) and that heparin, a sulfated heteropolysaccharide, was a very weak human mitogen and mouse PBA. Here we used cellulose sulfate (Mr 7-9 X 10(3], dextran sulfate with two different low molecular weights (Mr 5 X 10(3) and 8 X 10(3], two different condroitin sulfates (Mr 3.5 X 10(4], polyvinyl sulfate and polygalacturonic acid to investigate mitogenic activities of polysaccharides in detail. The following results were obtained. Low-molecular-weight sulfated homopolysaccharides, dextran sulfate and cellulose sulfate, were very weak or not human T cell mitogens. However, they were better murine PBAs. Sulfated heteropolysaccharides, chondroitin 4-sulfate and chondroitin 6-sulfate, hardly induced mitogenic changes in human T cells and mouse B cells, even though the molecular weight of these substances was more than 1 X 10(4). There were no other polymers examined so far which activated both human T cells and murine B cells. The relationship among molecular size, sulfate groups and lymphocyte activation is discussed in detail.     

Effect of a Modified Kaolin Treatment on Serum Immunoglobulins

After kaolin treatment of fetal rabbit serum, 7S antibody titers were reduced more than 19S titers. This reduction was less when the kaolin treatment was performed at pH 9.0 than when it was performed at pH 7.3. A modification of the kaolin treatment of sera for use in the hemagglutination-inhibiting antibody titration, in which the hemagglutination reaction is performed at a neutral pH, is recommended. The advantage of the modified method is that adsorption of immunoglobulins to kaolin is minimized when serum is treated at a lower dilution with pH 9.0 kaolin, followed by reduction of the pH of the supernatant fluid to neutrality with a "serum adjusting diluent." When the serum was diluted with physiological saline before kaolin treatment, a great decrease in serum immunoglobulin concentrations occurred. This decrease was found to be less in the modified kaolin treatment than in the conventional pH 7.3 kaolin treatment.     

Effect of calcium chloride treatment on hybridoma cell viability and growth

In order to minimize hybridoma cell damage during calcium alginate entrapment, the effect of calcium chloride treatment on hybridoma cell viability and growth was studied in terms of calcium chloride concentration and treatment time. The cell viability as measured by trypan blue exclusion did not decrease rapidly during the first hour of calcium chloride treatment regardless of calcium chloride concentrations used (1.3 and 1.5%). However, 1.3% calcium chloride solution appeared to be more detrimental to the cells than 1.5% calcium chloride solution. The cells in 1.3% calcium chloride solution lost their viability faster than the cells in 1.5% calcium chloride solution. In addition, when the cells treated with calcium chloride were inoculated into spinner flasks containing IMDM with 10% fetal calf serum, the cells treated with 1.3% calcium chloride solution showed a longer lag phase than the cells treated with 1.5% calcium chloride solution.     

Comparative study of production of dextransucrase and dextran by cells of Leuconostoc mesenteroides immobilized on Celite and in calcium alginate beads

In fed-batch fermentation, cells of L. mesenteroides immobilized on three types of Celite were used to produce dextransucrase (DS) followed by production of dextran. A layer of calcium alginate on the porous Celite R630 particles improved their mechanical stability, increased the amount of soluble DS produced and decreased the cell leakage from the highly porous support. Enzyme production with the immobilized cell cultures was significantly affected by both pore and particle size. Immobilized cultures using Celite R648 (average particle radius of 200 mum and pore size of 0.14 mum) produced the highest total enzymatic activity, followed by Celite R633, alginate-coated Celite R630, Celite R630, and then calcium alginate beads. Culture of free cells produced about 18% more total enzymatic activity than immobilized cells in calcium alginate beads, but about 64% less than immobilized cells on Celite R630. It is expected that larger amounts of enzymatic activity than measured are immobilized inside the alginate-coated Celite R630 and calcium alginate beads due to the mass transfer limitation conferred by the dextran product formed therein. The dextran yield from conversion of sucrose to dextran and fructose with all such enzyme-enriched, immobilized-cell cultures was higher than that obtained from free-cell culture under similar conditions.     

Comparison of long-term retinoic acid-based neural induction methods of bone marrow human mesenchymal stem cells

The differentiation of human mesenchymal stem cells (hMSCs) into neural cells in vitro provides a potential tool to be utilized for cell therapy of neurodegenerative disorders. Although previous studies repeated different protocols for the induction of neural cells from hMSCs in vitro, the results were not in complete agreement. In this study, we have attempted to compare three of these neural induction methods; retinoic acid (RA) treatment, RA treatment in serum reduced conditions, and treatment using other chemical compounds (dimethyl sulfoxide and potassium chloride) along with RA by real-time cell analysis and immunofluorescent staining of neural markers. RA treatment led to a slow progression of cells into neural-like morphology with the expression of neural protein neurofilament whereas reducing serum during RA treatment caused a much more extended differentiation process. Additionally, neural-like morphology was persistent in the later periods of differentiation in RA treatment. On the other hand, chemical induction caused cell shrinkages mimicking neural-like morphology in a short time and loss of this morphology along with increased cell death in later periods. Among the three methods compared, RA treatment was the most reliable one in terms of stability of differentiation and neural protein expressions.     

The effect on kaolin adsorption of serum on the virus neutralization and enzyme-linked immunosorbent assays of antibody to bovine herpesvirus 1

Two procedures have been used for measuring antibody titres to bovine herpes virus 1 (BHV1): the serum neutralization (SN) test and enzyme-linked immunosorbent assay (ELISA). One hundred and thirty-two sera selected for their low SN titres were tested both unadsorbed and after adsorption with kaolin to determine the effect of kaolin on the titres. With ELISA, the titres of unadsorbed and kaolin adsorbed were not significantly different but with the SN test many treated sera, originally with weak positive titres, became negative after kaolin adsorption. Thus, if the ELISA results are specific for BHV1 antibody then the SN test findings suggest that treatment of sera with kaolin, rather than removing a viral inhibitor, removes a substance from the serum which potentiates SN antibody. This in turn indicates that low SN titres (reciprocal of titre less than or equal to 4, for instance) are probably specific for BHV1 SN antibody whether or not they are abolished by kaolin treatment of the serum.     

Expression of swelling- and/or pH-regulated chloride channels (ClC-2, 3, 4 and 5) in human leukemic and normal immune cells

Chloride channels on immune cells reportedly play important roles in cell volume regulation, cell proliferation and immune functions, but they are not well characterized at the molecular level. We examined the expression of swelling-and/or pH-regulated chloride channels (ClC-2, 3, 4 and 5) in human leukemic cell lines [Jurkat and Hut-78 (T cells), Raji and Daudi (B cells), K-562 and HL-60 (myeloid cells)] and T cells, B cells and neutrophils from 8 normal subjects to clarify the difference of their expression among different cell types and maturity. Semi-quantitative RT-PCR and Northern blot analysis showed that ClC-3 was most abundantly expressed in all cells regardless of the cell types and maturity, while expression of ClC-2 was weak in these cells. Expression of ClC-4 was observed mainly in leukemic B cell lines, and in B cells and neutrophils from normal subjects. ClC-5 was expressed in all cell lines, while it was observed in only T and B cells but not in neutrophils from normal subjects. Thus, these chloride channels (ClC-2, 3, 4 and 5) showed distinct distribution among human immune cells, suggesting that they have specific roles in these cells. Molecular identification of chloride channels in leukocytes of different types and maturity may provide a new approach for the treatment of leukemia.     

Intracellular Na+:K+ ratios in human cancer cells as revealed by energy dispersive x-ray microanalysis

Intranuclear sodium, potassium, and chloride contents were measured by energy-dispersive x-ray microanalysis in freeze-fractured, freeze- dried, bulk-tumor samples taken from 10 patients suffering from invasive urogenital cancers. Human biopsies were carried out during the first diagnostic interventions before any cytostatic treatment had been applied. Pathohistological diagnosis established the malignancy in each case. The cancers were classified in three types: keratinizing, transitional cell, and hypernephroid carcinoma. More than 250 cell nuclei were measured from each type of cancer. The results were compared with those obtained in intact human urothelium taken from patients having no malignant processes. Proximal and distal tubular epithelial cell nuclei representing the origin of human hypernephroid cancer were also measured in rat kidney because corresponding healthy human material cannot be obtained. The analyses revealed, in all three types of cancer cells, that the average intranuclear sodium content increased more than three-fold, the potassium content decreased 32, 16, and 13%, respectively; meanwhile the chloride content increased, but to a lesser extent than did the sodium. The intranuclear Na+:K+ ratios were more than five-fold higher in the cancer cells on the average, and their distribution histograms were much broader than in the normal human urothelium and in the tubular cell nuclei of the rat kidney. The results obtained fit well with the theory of Cone, C. D., Jr. 1971. J. Theor. Biol. 30: 151-181 according to which the sustained depolarization of the cell membrane may be of mitogenic effect.     

Droplet freezing of antibody-linked indicator red cells of sheep, ox, and human origin

A droplet freezing technique for the cryopreservation of indicator red cells is described. Recovery was crucially dependent on the composition of the solution in which the cells were suspended. Preliminary experiments to determine the relative importance of sucrose, glucose, sodium chloride and hydroxyethyl starch (HES) in determining the survival of trypsin-treated sheep red cells showed that the addition of sucrose or HES or both to isotonic sodium chloride solution increased recovery, whereas the additional inclusion of glucose was detrimental. It was shown that glucose penetrated the cells whereas sucrose did not. The optimum combination of sucrose and sodium chloride concentration, in the presence of 6 g/dl HES, was 7 g/dl sucrose plus 0.3 g/dl sodium chloride. Recovery was increased by increasing the concentration of HES, and maximal recovery was obtained by thawing the frozen droplets in phosphate-buffered saline at 40 °C. Trypsintreated ox and human cells gave much lower recovery than sheep cells when HES was used in the freezing mixture but the substitution of dextran (10 g/dl) for HES gave greater than 80% recovery with all three species. Ten different antibody-coupled reagent cells all gave >83% recovery. The effects of hematocrit, incubation time, and storage temperature are described. The preservation technique described is simple and convenient, and will make it possible to extend the use of immunoassay procedures using antibody-coupled red cells.     

Ion and water shifts produced by ammonium chloride in high K and low K red cells

The effect of ammonium chloride on the cellular Na⁺, K⁺ and water has been examined in human and horse (high K), cow (medium K) and cat (low K) red cells. It was found that high K red cells, especially those of the horse, gained water an Na⁺, whereas the net movement of K⁺ was negligible. There was a correlation between the increase of cellular Na⁺ concentration and of the packed red cell volume. In contrast, the packed cell volume of low K red cells increased slightly or not at all, and Na⁺ ions leaked out from the cells. The high K cells had a lower Cl^? concentration and higher buffer capacity than the low K cells. The results obtained with the medium K (cow) cells usually lay between those of the other two cell types. In all the cases both the plasma and cell pH decreased resulting from the addition of ammonium chloride. The mechanism of movements of water and Na⁺ ions in high K cells remained unsolved, but the response of low K cells to ammonium chloride was near that of a cation exchange resin.     

Intracellular processing of residualizing labels in different cell types in vitro.

In previous autoradiographic studies on the sites of catabolism of rat serum albumin (RSA) in the rat, fibroblasts in skin and muscle were shown to accumulate degradation product from RSA labeled with the residualizing label dilactitol-125I-tyramine (125I-DLT) (Strobel et al., 1986 J. Biol. Chem., 261:7989-7994). Residualizing labels remain at the cellular site of degradation of the carrier protein because of their size, hydrophilicity, and resistance to lysosomal hydrolases. This study was designed to evaluate whether fibroblasts might retain labeled degradation products more efficiently than other cell types. The uptake of 125I-DLT-RSA and release of its degradation products and of a second non-biodegradable probe, fluorescein isothiocyanate (FITC)-dextran, were studied in fibroblasts, endothelial cells, and macrophages, all cell types previously implicated in the catabolism of albumin in vivo. The rates of uptake of labeled protein and dextran were comparable in all cell types and consistent with fluid phase endocytosis. The rate of release of both intact protein (30-35% of total radioactivity released) and radioactively labeled degradation products followed similar kinetics and had half-lives ranging from 26 to 37 hr. The rate of release of FITC-dextran was slower than that of radioactivity, with a half-life of 42-125 hr. Thus, although there were differences between the rates of release of the fluorescent and radioactive materials in vitro, there were no significant differences in the disposition of protein-derived catabolites among these three cell types.     

Typology of ephemerid chloride cells

Summary The tracheal gills of 16 species of mayfly larvae were studied with regard to the chloride cells. The ephemerid chloride cells occur as two main types: single cells and cell complexes. The single chloride cells are characterized by deep tubular or slit-like infoldings of the apical cell membrane, whereas the chloride cell complexes show numerous intercellular channels resulting from cellular interdigitation at the basolateral side. According to the structural organization of the apices, the ephemerid chloride cells may be classified into caviform, coniform, bulbiform and filiform types. In the caviform type (single chloride cell), the apex retracts to form an apical cavity similar to teleost chloride cells. In the other types (chloride cell complexes), there is a progressive extension of the central cell apex into or beyond the cuticle in the form of cones, bulbs or filaments. The common feature of all types is the differentiation of the cuticle into thin porous plates or envelopes covering or surrounding the various forms of apices.Histochemical precipitation of sodium and chloride in the apical region suggests that all types have basically the same function of salt absorption. The population of the various types differs with the species. However, there seem to be some taxonomic regularities with respect to the families. No relation was found between the types of chloride cells and habitat of the species.Supported by the National Science Foundation.     

Intracellular degradation of microspheres based on cross-linked dextran hydrogels or amphiphilic block copolymers: a comparative raman microscopy study

Micro- and nanospheres composed of biodegradable polymers show promise as versatile devices for the controlled delivery of biopharmaceuticals. Whereas important properties such as drug release profiles, biocompatibility, and (bio)degradability have been determined for many types of biodegradable particles, information about particle degradation inside phagocytic cells is usually lacking. Here, we report the use of confocal Raman microscopy to obtain chemical information about cross-linked dextran hydrogel microspheres and amphiphilic poly(ethylene glycol)-terephthalate/poly(butylene terephthalate) (PEGT/PBT) microspheres inside RAW 264.7 macrophage phagosomes. Using quantitative Raman microspectroscopy, we show that the dextran concentration inside phagocytosed dextran microspheres decreases with cell incubation time. In contrast to dextran microspheres, we did not observe PEGT/PBT microsphere degradation after 1 week of internalization by macrophages, confirming previous studies showing that dextran microsphere degradation proceeds faster than PEGT/PBT degradation. Raman microscopy further showed the conversion of macrophages to lipid-laden foam cells upon prolonged incubation with both types of microspheres, suggesting that a cellular inflammatory response is induced by these biomaterials in cell culture. Our results exemplify the power of Raman microscopy to characterize microsphere degradation in cells and offer exciting prospects for this technique as a noninvasive, label-free optical tool in biomaterials histology and tissue engineering.     

Reagents specific for cell surface components.

Mercury, diazonium ions and dyes which bind nucleic acids were covalently linked to dextrans using methods that resulted in non-hydrolyzable reagent-dextran bonds without impairing the binding abilities of the reagents, i.e. these dextran derivatives reacted with thiols, phenols/imidazoles and nucleic acids respectively. Since these dextran derivatives cannot penetrate into cells and since dextran itself does not bind to cells, these compounds represent reagents specific for the cell surface. They may be used both to evaluate cell surface constituents of intact cells and to affect viable cells via an interaction with those constituents. Mercury-dextran was found to bind to cells; the amount of mercury thus attached to the cells was about ten times smaller than when an equivalent concentration of free mercury ions was used. Mercury-dextran, bound to cells after a 30-min exposure at room temperature, was localized on the surface of these cells, as sodium borohydride reduced this complex giving rise to the intact cells, elementary mercury and free dextran which was released into medium. When cells were constantly exposed to the mercury-dextran, its toxic effects were comparable to that of free mercury ions. Diazonium-dextran, which also binds tightly to the cell surface, was also considerably toxic. Dextrans substituted with dyes which bind to nucleic acids were less toxic than the parent dyes themselves; it was shown that the attachment of such a dye to dextran decreased the binding of dye to cells under detection limits.     

Meltable dextran esters as biocompatible and functional coating materials

The conversion of dextran with in situ synthesized iminium chlorides of long chain carboxylic acids was used to obtain pure and defined melting dextran esters in an efficient one-pot synthesis. The melting point of these esters can be tailored by the degree of substitutions (DS), the molecular weight of the starting polymer, and the chain length of the ester moiety. The dextran esters give homogeneous and completely transparent melts, which form stable films on a broad variety of materials. Even complex geometries, such as implants, can be evenly coated by multiple melting steps. The films do not display any inhomogeneity and have a very low surface roughness. Therefore, no unspecific protein binding is observed. Moreover, the dextran esters are biocompatible as demonstrated for the interaction with three types of cells namely human brain microvascular endothelial cell, primary human fibroblasts, and mouse myoblast cells.     

Microcarrier culture of recombinant Chinese hamster ovary cells for production of human immune interferon and human tissue-type plasminogen activator

Summary Recombinant Chinese hamster ovary cells were successfully cultured semi-continuously on microcarriers of gelatin or modified dextran under non-selective conditions for up to three weeks. High and constant production rates for human immune interferon and tissue-type plasminogen activator were obtained. For cells that produced interferon, the highest cell concentration and interferon production was obtained with gelatin microcarriers though the specific production when grown in the presence of 0.2% fetal calf serum was slightly higher for cells cultured on dextran microcarriers (0.12 U/cell day versus 0.11 U/cell day). For cells that produced plasminogen activator, a slightly higher cell concentration was obtained for cells grown on dextran microcarriers (9x10⁵ cells/ml versus 7x10⁵ cells/ml). However, the specific and total production rates were significantly higher for cells cultured on gelatin microcarriers (6.7 pg/cell day versus 2.1 pg/cell day). The maximum cell concentration and specific production rate could be increased to 2.3x10⁶ cells/ml and 3.4 pg/cell day for dextran microcarriers by adding 6-aminohexanoic acid to the medium. For gelatin microcarriers, the addition of 6-aminohexanoic acid increased the specific production rate to 14.4 pg/cell day. Cell growth, however, was inhibited.