Lysozyme stimulates immunoglobulin production by human-human hybridoma and human peripheral blood lymphocytes

Lysozyme [EC 3.2.1.17] derived from hen egg white stimulated immunoglobulin production by human-human hybridoma, HB4C5 cells producing human lung cancer specific monoclonal IgM. IgM production by HB4C5 cells was enhanced more than 13-fold by the addition of lysozyme at 380 μg/ml in a serum-free medium. The immunoglobulin production stimulating effect of lysozyme was observed immediately after inoculation and maintained for 5 days. Lysozyme enhanced immunoglobulin production by the hybridoma line without growth promotion. This enzyme also accelerated IgM and IgG production of human peripheral blood lymphocytes 5.3-fold and 2.3-fold, respectively. These results suggest that lysozyme stimulates immunoglobuling production of not only specific hybridoma line, but also non-specific immunoglobulin producers. However, although the enzymatic activity of lysozyme was almost lost by heat-treatment at 100 °C for 30 min, the IPSF activity was retained. This fact suggests that IPSF activity of lysozyme does not come from its enzymatic activity or reaction products. All these findings clearly indicate that lysozyme has a novel function as an immunoglobulin production stimulating factor. GAPDH - glyceraldehyde-3-phosphate dehydrogenase; Ig - immunoglobulin; IPSF - immunoglobulin production stimulating factor; PBL - peripheral blood lymphocytes; HPLC - high-performance liquid chromatography. This revised version was published online in July 2006 with corrections to the Cover Date.     

Alcohol dehydrogenase-I from horse liver stimulates immunoglobulin production by human hybridoma and human peripheral blood lymphocytes

Immunoglobulin production stimulating activity of alcohol dehydrogenase[EC 1.1.1.1] was assessed. Alcohol dehydrogenase-I (ADH-I) derived fromhorse liver stimulated IgM production by human-human hybridoma, HB4C5 cellsproducing human lung cancer specific monoclonal IgM. IgM production of HB4C5cells was enhanced more than 6 fold by the addition of ADH-I at 400µg/ml under serum-free condition. However, yeast derived ADHs, such asADH-II and -III were ineffective to accelerate immunoglobulin production ofthe hybridoma line. These results imply that the immunoglobulin productionstimulating effect of ADH-I is irrelevant to its enzymatic function, anddefined as a novel feature of ADH-I. This enzyme also stimulated IgM and IgGproduction by human peripheral blood lymphocytes 2.9 fold and 1.4 fold,respectively . This fact suggests that ADH-I stimulates immunoglobulinproduction not only by specific hybridoma cell line, but also bynon-specific immunoglobulin producers.     

Stimulation of IgM production in human-human hybridoma HB4C5 cells by chitosan.

We screened for immunoglobulin production stimulating factors (IPSFs) in polysaccharides using human-human hybridoma cells, HB4C5, cultured in serum-free medium. Among polysaccharides, citrus pectin, locust bean gum, and chitosan stimulated IgM production of HB4C5 cells. Especially chitosan showed the strongest IPSF activity; 100 ng/ml of chitosan stimulated IgM production approximately 5-fold. Chitosan had several characteristics as IPSF, as follows. 1) For the IPSF activity, 70-90% deacetylation was essential. 2) Chitosan oligomers (n = 5, 6, 7) and chitin oligomers (n = 5, 6, 7) showed no IPSF activities. 3) The IPSF activity of chitosan was inhibited by glucosamine, one of the constitutive sugars of chitosan. 4) Chitosan stimulated IgM production of human lymphocytes in serum-free culture, but not IgG or IgA, nor in serum-supplemented culture.     

Increase of immunoglobulin productivity of human-human hybridoma HB4C5 cells by histone

A histone mixture (H1, H2A, H2B, H3, and H4) derived from calf thymus stimulated IgM production by human-human hybridoma HB4C5 cells. On the contrary, the histone mixture did not increase IgM production by the human Burkitt's lymphoma cell line NAT-30, IgG production by the human B lymphoblastoid cell line HMy-2, and IgE production by the human myeloma cell line U266. The immunoglobulin production-stimulating activity of the histone mixture was inactivated by trypsin or chymotrypsin digestion. In addition, confocal laser microscopic analysis had shown that HB4C5 cells incorporated a lot of histone but other cell lines did not incorporate it as much. These facts strongly suggest that histone acts as an immunoglobulin production-stimulating factor (IPSF) after internalization into the human B cell lines and the native structure of histone is required for the IPSF activity.     

Screening of Immunoglobulin Production Stimulating Factor (IPSF) in Foodstuffs Using Human-human Hybridoma HB4C5 Cells

We screened the immunoglobulin production stimulating factor (IPSF) in foodstuffs, using human-human hybridoma HB4C5 cells cultured in serum-free 1TES-ERDF medium, and found that egg yolk lipoprotein (YLP), lactoferrin, Block Ace, and casein had IPSF activity. The maximum IPSF activity was obtained at concentrations over 100^g/ml in YLP, 10μg/ml in lactoferrin, and 25 μg/ml in Block Ace and casein. These IPSFs stimulated the IgM production of human-human and mouse-mouse hybridomas, but their effect on IgG producers was very small. This suggests that IgG production of hybridomas is regulated differently from their IgM production.     

Partial purification and characterization of immunoglobulin production stimulating factor derived from namalwa cells

Summary We screened for immunoglobulin (Ig) production stimulating factor (IPSF) which enhanced Ig production of human-to-human hybridomas in serum-free culture, and found that culture supernatant and lysate of human lymphoblastoid Namalwa cells stimulated proliferation and Ig production of human-to-human hybridoma HB4C5 cells. The IPSF in Namalwa lysate was partially purified with DEAE-Toyopearl 650M, hydroxylapatite and Superose 6HR 10/30 column chromatographies. The partially purified IPSF was a macromolecule of about 500 000 dalton containing 72 000 dalton protein as a major component. The activity was stable at pH 6 to 12, but inactivated partially by heating over 40° C (60% decrease) and completely by trypsin digestion. These results suggest that the IPSF activity is due to its protein and heat-stable components. The Namalwa IPSF stimulated proliferation of human-to-human hybridomas but not that of mouse-to-mouse hybridomas. The IPSF also stimulated Ig production of human-to-human hybridomas derived from NAT-30 cells, but not that of other human-to-human or mouse-to-mouse hybridomas. NAT-30 is a human fusion partner derived from Namalwa cells. These results suggest that the Namalwa IPSF is an autocrine factor that stimulates proliferation and Ig production of hybridomas derived from NAT-30 cells. This work was supported in part by a grant-in-aid from the Ministry of Education, Science and Culture (Japan) and by Sapporo Bioscience Foundation.     

Spermine enhances IgM productivity of human-human hybridoma HB4C5 cells and human peripheral blood lymphocytes

The polyamine spermine was assessed for enhancement of IgM production by human-human hybridoma, HB4C5 cells, under serum-free conditions. IgM production of HB4C5 cells was stimulated approximately 6-fold by the addition of 7.3 mM of spermine. The facilitating effect was observed soon after inoculation. In spite of suppression of cell growth, the IgM production rate was accelerated for at least 5 days without medium change. Moreover, laser confocal microscopic analysis revealed that the IgM content inside HB4C5 cells was increased by spermine treatment. These findings suggest that spermine enhances specific IgM productivity of the hybridoma line. Spermine also facilitated IgM production by human peripheral blood lymphocytes under serum-free conditions. This result implies that spermine enhances immunoglobulin production of not only specific hybridoma lines, but also non-specific immunoglobulin producers. Immunoglobulin production stimulating activity of spermine was accelerated 2-fold by the addition of DNA whith a chain length of about 400–7000 base pairs (bp). However, degraded short-chain DNA fragments (less than 200 bp) did not facilitate the immunoglobulin production stimulating activity of spermine. This revised version was published online in August 2006 with corrections to the Cover Date.     

Stimulation of proliferation and immunoglobulin M production by lactoferrin in human-human and mouse-mouse hybridomas cultures in serum-free conditions

The effects of growth factors, such as insulin, transferrin, lactoferrin, ethanolamine, and selenium, on proliferation and IgM production of human-human hybridomas HB4C5 cells in a serum-free enriched RDF (eRDF) medium were studied. Among them, lactoferrin markedly stimulated proliferation and IgM production of the cells. Another iron-binding protein, transferrin, stimulated proliferation of HB4C5 cells as well as lactoferrin, but its stimulatory effect on IgM production was negligible. The proliferation and IgM production of HB4C5 cells gave some detectable delays in conventional ITES-eRDF medium at low cell densities, but the delays were avoided by the addition of lactoferrin. However, eRDF medium supplemented with lactoferrin could not support proliferation and IgM production of the cells at high cell densities. For proliferation and IgM production of HB4C5 cells, eRDF medium supplemented with 25 g/ml lactoferrin, 10M ethanolamine, 35 /ml transferrin, and 2.5 nM selenium (LETS-eRDF) gave the best result. Lactoferrin stimulated proliferation of human-human and mouse-mouse hybridomas producing IgG or IgM, but stimulation of Ig production was detected only in IgM producers. These results suggest that cell proliferation, IgM production, and IgG production of hybridomas are regulated by different mechanisms.Abbreviations MoAb monoclonal antibody     

Stimulation of monoclonal antibody production by human-human hybridoma cells with an elevated concentration of potassium or sodium phosphate in serum-free medium

Potassium or sodium phosphate was found to stimulate the production of human monoclonal antibody by human-human hybridoma HB4C5. The addition of 15 mM Na-phosphate (pH 7.4) into serum-free culture medium increased the antibody production up to 4-fold, when seeded at cell density of 1×10⁵ cells/ml in dishes. At the higher cell density of 5×10⁵ cells/ml, K-phosphate was more effective than Na-phosphate, at the same concentration. In large-scale continuous culture, the addition of 10 mM Na-phosphate into serum-free culture medium stimulated antibody production by HB4C5 cells 6-fold.     

Stable transformation of Chromobacterium violaceum with a broad-host-range plasmid

Stable transformants of Chromobacterium violaceum were obtained by high-voltage electroporation with a 7-kilobase binary plasmid. The technique was reliable, reproducible, and simple, with efficiencies of 10⁵ transformants/μg of plasmid DNA. The electrical conditions that resulted in the highest efficiencies were short pulse length (4.4–4.5 ms) and high voltage (12.5 kV/cm). The numbers of transformants were almost the same during the growth exponential phase (variation at optical density) and resulted in the highest efficiencies at DNA concentration of 250 pg/ml. Saturation appeared to begin at 4 μg/ml of DNA. This method of C. violaceum transformation should enhance the genetic and biotechnological research by providing a valuable, widely used procedure of introducing DNA into this bacterium.     

Regulation of glycosphingolipid glycosyltransferase by low density lipoprotein receptors in cultured human proximal tubular cells

We have shown previously that low density lipoproteins (LDL) suppressed the synthesis of lactosylceramide in normal human proximal tubular cells, but stimulated such synthesis in proximal tubular cells from LDL receptor negative subjects (Chatterjee, S., Clarke, K., and Kwiterovich, P.O., Jr. (1986) J. Biol. Chem. 261, 13474-13479). To understand the mechanism(s) of this effect of LDL, we have studied here the effects of LDL on the activity of UDP-GalCer:beta-galactosyltransferase (GalT-2). Maximum suppression (70-80%) of the activity of GalT-2 in normal proximal tubular cells at 37 degrees C occurred at a LDL concentration of 25 micrograms/ml medium. Such suppression was not observed either when the cells were incubated with LDL at 4 degrees C, or when the cells were preincubated with leupeptin, followed by incubation with LDL at 37 degrees C. High density lipoproteins and fetuin did not suppress the activity of GalT-2 in normal proximal tubular cells. In contrast LDL modified by reductive methylation (M-LDL, 100 micrograms/ml) stimulated the activity of GalT-2, approximately 3-fold. The effects of LDL and M-LDL were not related to their glycosphingolipid content. Much less suppression and stimulation of the activity of GalT-2 in proximal tubular cells by LDL and M-LDL, respectively, was found in normal human skin fibroblasts, Chinese hamster ovary cells, and bovine smooth muscle cells, suggesting that the LDL-mediated effect may be tissue-specific. In cells grown to very high density, the activity of the LDL receptor is decreased, and there was less suppression of GalT-2 activity by LDL. In normal proximal tubular cells, LDL stimulated the activity of UDP-Gal:LacCer, alpha-galactosyltransferase activity, UDP-Gal:LcOse3Cer, beta-galactosyltransferase, and CMP-NeuAc:LacCer,alpha-sialyltransferase activity but did not alter the activity of sulfotransferase. In conclusion, LDL that entered the normal proximal tubular cells via the LDL receptor-mediated pathway decreased GalT-2 activity, an effect that was dependent upon the binding, internalization, and degradation of receptor-bound LDL. In contrast LDL that entered normal or LDL receptor-negative proximal tubular cells via an LDL receptor-independent pathway failed to suppress GalT-2 activity, and led to a stimulation of LacCer synthesis.     

Cytokinesis of Candida albicans by Diethylstilbestrol

In vitro effects of the synthetic oestrogenic hormone diethylstilbestrol (DS) and diethylstilbestrol dipropionate (DSP) on Candida albicans have been assessed. At a concentration of 5–20 μg/ml. these compounds suppressed the growth of C. albicans even though the multiplication of the organism was not influenced immediately. When C. albicans was grown for approximately 4 h in tryptic soy broth, its multiplication was rapidly retarded by these two substances. Since C. albicans must grow on a suitable culture medium in order to absorb DS and DSP, it was not surprising that respiration, the uptake, and incorporation of nutrients by C. albicans was not influenced when the cells were 'resting'. Such plasma steroids as androsterone (0·5 μg/ml), 5α-androstan-3 β-diol (0·25 μg/ml), dehydroisoandrosterone (2 μg/ml), epiandrosterone (0·1 μg/ml), oestrone (0·1 μg/ml), progesterone (0·4 μg/ml), cortisol (0·2 μg/ml), cholesterol (10 μg/ml) in combination with DSP did not antagonize the retardive action of DSP for C. albicans .     

Further investigation of the light chain shifting phenomenon: Light chain replacement through secondary rearrangement induced by lectin stimulation in the hybridoma cell line HB4C5

We found that when the hybridoma cell line HB4C5 was stimulated with wheat germ agglutinin (WGA), loss of production of the original λ light chain occurred, followed by production of new light chain, which mirrored the reaction when stimulated with concanavalin A (ConA). We previously reported that the RAG genes are expressed not only in HB4C5 and its ConA-treated variant subclones, but also in the in the parental Namalwa cells, which are known to be in the plasma state. However, the new λ light chains were expressed only in the HB4C5 cells and not in the parental Namalwa cells. Here we found that the RAG genes are expressed in HB4C5 cells after continuous stimulation with WGA. To further investigate the mechanism of this loss of original λ light chain production by stimulation with lectins in HB4C5 cells, which leads to a sIg-negative subpopulation, we analyzed the differences between HB4C5 and Namalwa cells. In this present study, we found that a 70 kDa phosphorylated protein in HB4C5 cells became undetectable after stimulation with lectins (WGA and ConA), and was not detected in Namalwa cells before or after lectin stimulation. It has been believed that the RAG genes and loss of original λ light chain production are required to induce expression of a new λ light chain in the HB4C5 cells. We suggested that the phosphorylated 70 kDa protein in HB4C5 cells play important roles in regulating the production of new λ light chains which is induced by lectins. This revised version was published online in June 2006 with corrections to the Cover Date.     

Immunostimulation effects of proteose-peptone component 3 fragment on human hybridomas and peripheral blood lymphocytes

Fat-free bovine milk fermented by 12 kinds of lactic acid bacteria and yeast enhanced monoclonal antibody production of human hybridoma HB4C5 cells 2.8-fold in serum-free medium. Immunoglobulin production of human peripheral blood lymphocytes (PBL) was also stimulated in vitro. IgM and IgG production of human PBL was accelerated up to 2.8-fold and 5.4-fold, respectively. Interferon-gamma production of human PBL was also accelerated 6.0-fold by 50 microg/ml of the fermented milk. However, interleukin-4 production of PBL was not affected, and tumor necrosis factor-alpha production was suppressed. The activity was enhanced 2.5-fold by the thermal treatment for 30 min at 65 degrees C and was completely lost by trypsin digestion. The findings suggested that the active substance in the fermented milk was heat stable protein. Gel-filtration and the SDS-PAGE analysis revealed that the molecular weight of the active substance was estimated as 19.0 kDa, which was not detected in fat-free bovine milk before fermentation. N-terminal amino acid sequence of the 19.0 kDa protein was highly homologous to proteose-peptone component 3 (PP3). Since molecular weight of PP3 is 28 kDa, it is suggested that the 19.0 kDa protein is derived from degradation of PP3 during fermentation of fat-free milk. Moreover, PP3 purified from fat-free milk also enhanced IgM production of HB4C5 cells.     

Cell culture density dependent toxicity and chromatin changes upon cadmium treatment in murine pre-B-cells

Murine pre-B-cells grown in the presence of lower (1 μM) or higher (5 μM) concentration of cadmium chloride were separated into 13 fractions by centrifugal elutriation. The rate of DNA synthesis after cadmium treatment determined in permeable cells was dependent on cell culture density during cadmium treatment. Cell cycle analysis revealed a shift in the profile of DNA synthesis from replicative to repair DNA synthesis upon cadmium treatment. The study of the relationship between cell culture density and cell diameter at lower and higher cell densities in the presence of 1 μM cadmium chloride concentration showed that a. at 5×10⁵ cell/ml or lower densities cells were shrinking indicating apoptotic changes, b. at higher cell culture densities the average cell size increased, c. the treatment of cells with low CdCl₂ concentration (1 μM) at higher cell culture density (>5×10⁵ cell/ml) did not change significantly the average cell diameter. At 5 μM cadmium concentration and higher cell culture densities (>5×10⁵ cell/ml) the average cell size decreased in each elutriated fraction. Most significant inhibition of cell growth took place in early S phase (2.0–2.5 C value). Apoptotic chromatin changes in chromatin structure after cadmium treatment were seen as large extensive disruptions, holes in the nuclear membrane and stickiness of incompletely folded chromosomes.     

Introduction and Expression of Recombinant Genes in Ascidian Embryos

In order to examine the expression of exogenous genes introduced into ascidian eggs, two recombinant plasmids pmiwZ and pHrMA4aCAT were microinjected into the cytoplasm of fertilized eggs of Ciona savignyi and Halocynthia roretzi , respectively. The plasmid pmiwZ contains the coding sequence of bacterial β-galactosidase gene ( lac-Z ) fused with animal gene promoters, while pHrMA4aCAT was constructed by fusing about 1.4-kb long 5' flanking region of H. roretzi muscle actin gene HrMA4a with bacterial chloramphenicol acetyltransferase gene ( CAT ). Injection of approximately 160 pl of 10 μg/ml pmiwZ DNA into Ciona eggs did not affect the embryogenesis, although introduction of the same volume of 30 μg/ml pmiwZ DNA resulted in abnormal development of injected eggs. When the expression of lac-Z was examined by histochemical detection of the enzyme activity, the expression was evident in the early tailbud embryos and later stage embryos, and larvae, irrespective of linear or circular form of the plasmid. The enzyme activity appeared in various cell-types including epidermis, nervous system, endoderm, mesenchyme, notochord, and muscle. In contrast, when pHrMA4aCAT was introduced into Halocynthia eggs and the appearance of CAT protein was examined later by the anti-CAT antibody, the CAT expression was restricted to muscle cells. These results indicate that the recombinant genes introduced into ascidian eggs could express during embryogenesis and that the 1.4-kb long 5' flanking region of HrMA4a contains regulatory sequences enough for the appropriate spatial and temporal expression of the gene.     

Response of murine erythroleukemia cells to cis-and trans-diamminedichloro-platinum (II)

Summary Cis-diamminedichloroplatinum II (cis-DDP), an antitumor drug and the inactive trans-isomer were studied to evaluate their effects on cell multiplication, DNA synthesis, and surface morphology of the murine erythroleukemia cells (clone 6A11A). Short-term treatment of cells (1h) with 5 and 10μg/ml of cis-DDP resulted in a significant inhibition of cell multiplication. Continuous treatment with cis-DDP (up to 144 h) significantly arrested cell growth at 1,5, and 10μg/ml. The cells exposed to 10 μg/ml trans-DDP exhibited a slight decrease in cell multiplication; however, the 25-μg/ml treatments showed a modest inhibition of cell growth. Continuous treatment with cis-DDP resulted in a concentrationdependent decrease in DNA synthesis, although low-dose treatment (0.05 and 0.1 μg/ml), with a few exceptions, had no relative inhibitory effect. Likewise, trans-DDP treatments decreased tritiated thymidine incorporation; however, this inhibitory effect was not as drastic as with corresponding concentrations of cis-DDP. Scanning electron microscope studies revealed the formation of many giant cells and blebs at all short-term treatment concentrations of cis-DDP past the 48 h interval. Continuous treatment of cis-DDP at 1 μg/ml concentration produced giant cells with minute holes, whereas the 5 and 10 μg/ml exposure resulted in the formation of blebs and large holes and reduction of microvilli past the 48-h treatment period. At higher concentrations the continuous treatment of cis-DDP completely destroyed the cells. The surface morphology of trans-isomer treated cells, in most instances, resembled the corresponding untreated control cells.     

Polybrene-mediated transfection of cultured lepidopteran cells: Induction of aDrosophila heat shock promoter

Summary We have introduced hsp-cat plasmid DNA intoSpodoptera frugiperda (Lepidoptera: Noctuidae) cells by transfection with purified DNA (1 to 48 μg/ml) mixed with the polycation polybrene (100 μg/ml) in serum-free Grace's medium. The hsp-cat construct contains a gene coding for the bacterial enzyme chloramphenicol acetyltransferase (CAT), whose expression is controlled by a promoter derived from aDrosophila heat shock protein (hsp) gene. Expression of CAT activity in transfectedSpodoptera cells was induced by a 2-h heat shock at 43°C. The temperature of the heat shock was based on conditions that maximized the expression of endogenous heat shock protein genes in these cells. CAT activity was maximal in cells that were exposed to the heat shock 2 d after transfection; by 4 d, activity was diminished, and little activity was detectable after 6 d. Transfection frequencies, which varied with DNA concentration and ranged as high as 6000 per million cells, were determined using a histochemical staining procedure. This work was supported by grant 88-37263-4020 from the United States Department of Agriculture, Washington, DC, and by the University of Minnesota Experiment Station. This is contribution 17,543 from the University of Minnesota Experiment Station, St. Paul, MN.     

Heat denaturation enhanced immunoglobulin production stimulating activity of lysozyme from hen egg white

Lysozyme from hen egg white was identified as an immunoglobulin production stimulating factor (IPSF) that enhances immunoglobulin production by hybridomas and lymphocytes. The IPSF activity of lysozyme was facilitated by heat treatment. The heat treatment of lysozyme at 83 degrees C for 30 min activated its specific IPSF effect 30.0-fold compared with that of native lysozyme. The IPSF activity of lysozyme heat-treated at 83 degrees C in 4 M urea solution was enhanced 8.4-fold than that of native lysozyme. However, lysozyme that was not heated in 4 M urea solution completely lost its IPSF activity. This means that the IPSF activity of this enzyme in 4 M urea was reactivated by thermal treatment. Moreover, coexistence of 0.5 mM 2-mercaptoethanol (2-ME) during heating in 4 M urea solution extremely enhanced the IPSF activity up to 77.8-fold. The uptake of lysozyme by hybridoma cells was enhanced by heat denaturation in 4 M urea. The hydrophobicity of lysozyme was extremely increased by heat-treatment in 2-ME containing urea solution. It is expected from these findings that the increase in the hydrophobicity caused the enhancement of incorporation of lysozyme into target cells, and resulted in the acceleration of IgM production.