Characterisation of 20-kDa lectin-spermagglutinin from Arum maculatum that prevents Chlamydia pneumoniae infection of L-929 fibroblast cells

A novel lectin from the root of Arum maculatum was isolated by saline extraction and purified by cold ethanol precipitation and subsequent fractionation on Superose 6 column. The lectin named A. maculatum agglutinin is a non-glycosylated protein with 20-kDa molecular mass agglutinating human ejaculated spermatozoa, but not human erythrocytes. The agglutination was blocked in the presence of N-acetylneuraminic acid indicating that the lectin is sialoglycoprotein specific. Chlamydia pneumoniae strain AR-39 showed considerable potential to grow in murine L-929 fibroblast cells. Pretreatment of the cell monolayers with purified lectin reduced the entry and intracellular replication of C. pneumoniae. These results suggest that the isolated lectin prevents attachment by binding to a C. pneumoniae specific sialoglycoprotein receptor expressed on the surface of L-929 fibroblast cells.     

Neutralization of Shwartzman-inducing activity by antibodies recognizing the Re core or lipid A structures of lipopolysaccharide from Salmonella minnesota R595 and Pseudomonas vesicularis JCM1477

Antibodies recognizing the Re core or lipid A structures of lipopolysaccharide (LPS) derived from Salmonella minnesota R595 and Pseudomonas vesicularis JCM1477 were tested for the ability to neutralize the preparatory activity of endotoxin using the local Shwartzman reaction. Shwartzman-inducing activity of R595 LPS (Re-form) was strongly suppressed when the LPS was incubated with the rabbit anti-R595 antiserum or the purified IgG antibody which recognizes core region of the LPS. The antiserum also suppressed the preparatory activity of LPS from S. typhimurium SL1102 (Re) and Escherichia coli F515 (Re), but not that of either S. typhimurium LT-2 (S) LPS or R595 lipid A. Moreover, it was found that the murine monoclonal antibody (MAb), SmRe100G (IgG2a) which recognizes the core region of R595 LPS, significantly suppressed the preparatory activity of R595 LPS. Both conventional antibodies specific to R595 lipid A, which contains a 1,4'-bisphosphorylated beta-D-glucosaminyl-alpha-D-glucosamine disaccharide structure, and JCM1477 lipid A, which contains a monophosphorylated 3-amino-D-glucosamine disaccharide structure, neutralized the preparatory activity of homologous and a closely related lipid A, but not that of LPS. In addition, it was observed that MAb Sm5G (IgG2b) specific to enterobacterial lipid A preparations (especially R595 lipid A) neutralized the preparatory activity of R595 lipid A, although the effect was somewhat weak as compared with that of rabbit antiserum. These results suggest that anti-Re LPS antibody binding to the core of Re LPS is involved in suppressing the endotoxic activity of Re LPS, and that the direct binding of anti-lipid A antibody to some specific epitopes of lipid A is important in neutralizing the endotoxic activity.     

Identification of a linear peptide recognized by monoclonal antibody 2D7 capable of generating CCR5-specific antibodies with human immunodeficiency virus-neutralizing activity

CCR5 is the major coreceptor for human immunodeficiency virus (HIV) infection. The murine monoclonal antibody (MAb) 2D7, which recognizes a conformation-dependent epitope in the second extracellular loop of CCR5, is one of the most potent inhibitors of R5 virus cell entry. However, attempts to humanize 2D7 for in vivo human use have been unsuccessful so far. A filamentous phage library expressing random peptides was used to identify a peptide mimitope that is recognized by MAb 2D7. A synthetic peptide containing this sequence (2D7-2SK) bound to MAb 2D7 with high affinity and reversed its HIV type 1 (HIV-1) fusion inhibitory activity. The peptide contains sequence homologies to two distal regions of the second extracellular loop of human CCR5, both of which are required for MAb 2D7 binding. Rabbit anti-2D7-mimitope antibodies competed with MAb 2D7 for binding to the 2D7-2SK peptide in Biacore biosensor testing. Importantly, the rabbit anti-2D7-2SK antibodies bound to CCR5 on cells and specifically inhibited R5 (but not X4) envelope-mediated syncytium formation. These antibodies also neutralized infection of human peripheral blood mononuclear cells with R5 HIV isolates comparably to MAb 2D7. In summary, we have identified a novel peptide that closely mimics the MAb 2D7 epitope on CCR5. This peptide could be included as a potential vaccine candidate or to isolate 2D7-like human antibodies as entry inhibitors for R5 viruses.     

Tumor necrosis factor and its induction by bacterial endotoxins

Using suitable immunomodulators (Corynebacterium parvum vaccine, Zymosan or muramyl dipeptide), lipopolysaccharides (LPS) from various members of the family Enterobacteriaceae (Escherichia, Salmonella, Serratia, Shigella) were tested on rabbits in relation to the production of tumor necrosis factor (TNF). TNF was determined by means of the serum titration of L-929 cell cultures in the presence of Actinomycin D, this with resulting titres of 3.2 x 10(3) to 5.1 x 10(4) IU TNF/ml. Analogous titres were noted after the action of denatured LPS (ie LPS subjected to alkaline hydrolysis or H2O2).     

Effect of calcium chloride on interferon production and the biosynthesis of cellular macromolecules

The influence of calcium chloride in production of interferon and biosynthesis of cell proteins, RNA and DNA in the cultures of chick embryo fibroblast cells and murine cells L-929 in response to induction of the cells by poly(I).poly(C) was studied. It was shown that calcium ions in concentrations of 10 to 30 mM markedly increased formation of interferon in the cell cultures.     

Mapping of the binding specificity for five monoclonal antibodies recognizing 3-deoxy-D-manno-octulosonic acid in bacterial lipopolysaccharides

Mouse mAb were produced against the deep rough strains Salmonella minnesota R 595, Salmonella typhimurium SL 1102, and Escherichia coli D21f2 and screened by enzyme immunoassay against LPS of several chemotypes. Five antibodies were selected for their ability to bind to chemotype deep rough (Re) LPS which has two 3-deoxy-D-manno-octulosonic acid (Kdo) residues in its nonreducing end. Structurally verified oligosaccharides isolated from rough LPS and synthetic analogues of Kdo were used in an enzyme immunoassay inhibition test to determine the binding epitopes for the antibodies. According to their specificities, the antibodies could be divided into three groups. For two of the groups, the recognized structure was the alpha-Kdo (2----4) Kdo disaccharide and for one group the alpha-Kdo (2----4) alpha-Kdo beta-D-GlcN (1----6) alpha-D-GlcN tetrasaccharide, representing a partial structure of the Re LPS. Inhibition studies with synthetic analogues of Kdo showed that the anomeric configuration and the free carboxyl group of the Kdo residue are important features for antibody binding. Changes in the C-1 to C-6 region of the Kdo molecule do influence the antibody recognition considerably whereas changes in the exocyclic C-7 to C-8 region are of secondary importance. Calculation of the conformation of the inner core region showed that the alpha-Kdo (2----4) alpha-Kdo (2---- disaccharide was free and accessible in chemotype Re LPS, but that linkage of a L-glycero-D-manno-heptose to O-5 of the subterminal Kdo both changes the conformation of the Kdo-disaccharide and covers it thereby making it less accessible.     

人白细胞介素2受体(IL-2R)cDNA在哺乳类细胞中表达的初步研究

按DNA-磷酸钙共沉淀法将人白细胞介素2受体(IL-2R)cDNA转染小鼠成纤维细胞L929,经RNA点渍杂交分析、荧光标记IL-2染色和抗Tac(人IL-2受体α链)特异性玫瑰花环试验,均证明转入的IL-2R cDNA在L929细胞中表达,其产物具有结合IL-2和抗Tac抗体的能力。本文还报道了T细胞白血病Jukat细胞和Molt-4等细胞系异常表达IL-2R的结果,并对此作了分析和讨论。     

Identification of Re lipopolysaccharide-binding protein on murine erythrocyte membrane

Our recent studies have suggested that bacterial lipopolysaccharide (LPS) attaches to Pronase-sensitive proteins on the murine erythrocyte membrane. In the present study, in order to identify the LPS-binding protein on the murine erythrocyte membrane, a unique method to detect LPS-binding protein on a nitrocellulose membrane was developed. Murine erythrocyte membrane proteins were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, then transferred electrophoretically onto a nitrocellulose membrane. The membrane was incubated with LPS of Salmonella minnesota R595 (Re LPS) in phosphate-buffered saline (PBS), after the remaining sites were blocked with gelatin in PBS. We were able to obtain a non-background stain by adding the nonionic detergent octylglucoside at the low concentration of 0.1% to the Re LPS solution. The Re LPS bound to the protein on the nitrocellulose membrane was exposed to affinity purified anti-Re LPS antibodies (IgG) and then to alkaline phosphatase-conjugated anti-IgG. The alkaline phosphatase was detected on the membrane by an enzymatic reaction. This method demonstrated that Re LPS was bound to an erythrocyte protein of 96 kDa. Treatment of erythrocytes with Pronase led to disappearance of the Re LPS-binding protein on the erythrocyte membrane. There was no difference between LPS-responder and LPS-nonresponder murine erythrocyte membranes in amount and molecular weight of the Re LPS-binding protein.     

Variation in Salmonella core lipopolysaccharide as detected by the monoclonal antibody M105

L.P. MANSFIELD, E. BILLETT, E. OLSEN AND S.J. FORSYTHE. 1996. The lipopolysaccharide antigenicity of 22 Salmonella strains (representing nine serogroups) and four non-salmonellae Enterobacteriaceae to the Salmonella genus specific monoclonal antibody M105 was analysed. The monoclonal antibody M105 reacted with all 22 Salmonella strains. Probing SDS-PAGE separated LPS molecules with MAb M105 revealed that the antibody reacted with the core region of all Salmonella serovars. However, no reaction was obtained to the long-chain LPS of serovars O ( Salm. adelaide and Salm. ealing ), C₁ ( Salm. infantis, Salm. livingstone and Salm. virchow ) or Salm. arizonae . It is plausible that the presence of a second core antigenic type results in the lack of reaction between long-chain LPS and the Salmonella genus specific monoclonal antibody M105.     

Activation of the production of cytotoxic factors by mouse spleen cells exposed to the combined action of lipopolysaccharide and muramyl dipeptide in vitro

Lipopolysaccharide (LPS) and muramyl dipeptide (MDP) stimulated murine splenocytes in vitro to produce cytotoxic factors (CF) that killed target cells L-929. This effect was synergic at LPS dose of 10 ng/ml and MDP dose of 10 micrograms/ml. CF production started 2 hours after spleen cell activation and was maximum in 6 hours. CF were produced by macrophages as well as by lymphocytes stimulated by LPS, MDP or their combination. However, synergic effect of immunomodulators was registered only if nonfractionated spleen cells were stimulated during 24 hours. Lymphocytes depleted on T cells did not lack the ability to generate CF upon activation. In addition, LPS and MDP activated synergically the production of interleukin-I by spleen cells in vitro.     

Characterization and application of a murine monoclonal antibody that reacts specifically with the serogroup D1Salmonella

A murine hybridoma cell line that produces monoclonal antibody (mAb) against the serogroup D1 Salmonella lipopolysaccharide (LPS) antigen was established. The trisaccharide tyvelose alpha 1----3 mannose alpha 1----4 rhamnose was shown to be involved in the reactive epitope of the mAb since this mAb reacted strongly with strains of serogroup D1 Salmonella but not with Salmonella strains from the O serogroups of A, B, and D2, and sodium meta-periodate was found to destroy the reactivity of the serogroup D1 O-antigen with the mAb. As such this mAb was found to be a useful serotyping reagent for the identification of serogroup D1 Salmonella, and for the differentiation of strains of serogroups D1 and D2 Salmonella which have identical flagellar H antigens.     

Stability and localization of biotin-labeled murine monoclonal antibody to human gastric cancer in normal mice and nude mice-human tumor models

We examined the tissue localization of biotin-labeled murine monoclonal antibody (MAb) S202 directed against the human scirrhous gastric carcinoma cell line MK-01 in normal and tumor-bearing mice after intravenous (IV) administration. The biotin-labeled MAb proved to be stable in vivo under normal conditions, antibody titer being 1:256 at 4 hr after IV injection. At 24 hr after injection, the tumor was stained by the avidin-biotin-peroxidase complex (ABC) method. Biotin-labeled MAb was found to be suitable for detection of the xenografted tumor of nude mice. This study provides new information concerning the dynamics of the distribution of biotin-labeled MAb in vivo.     

The Entry and Intracellular Multiplication of Francisella tularensis in Cultured Cells: Its Correlation with Virulence in Experimental Mice

Five acriflavine agglutination test-positive (acf+) colonies and five negative (acf–) colonies were isolated from each of the four strains (Ebina, CMB2, N9, and Schu) of Francisella tularensis, and the correlation between the virulence in experimental mice and the entry and intracellular multiplication in cultured mouse fibroblast cells (L-929 cells) was examined. All of the acf– colonies derived from the Ebina and CMB2 strains were highly virulent in mice, readily entering and growing well in the cells, while all of the acf- colonies from N9 and Schu strains were of low virulence and neither entered nor grew in the cells effectively. On the other hand, regardless of their parent strains, the acf+ colonies were low virulent and most of those colonies did neither enter nor grow in L-929 cells. In addition, two acf- colonies, one from the N9 and the other from the Schu strain, gained virulence through several passages in mice, and in parallel, their entry and multiplication also improved. However, two acf+ colonies from the Ebina strain and one acf+ colony from the N9 strain showed a moderate degree of the entry and multiplication although they were all low virulent. The overall results indicate that the entry and multiplication in cells are important factors regulating the virulence of F. tularensis. The results also showed, however, that they were not sole factors to elucidate the virulence of the bacterium in mice.     

The disaccharide L-alpha-D-heptose1-->7-L-alpha-D-heptose1-->of the inner core domain of Salmonella lipopolysaccharide is accessible to antibody and is the epitope of a broadly reactive monoclonal antibody.

We generated a panel of mAb containing at least one specificity against each of the known chemotypes of the Salmonella LPS core domain and used them to investigate the accessibility of core determinants in smooth LPS. Most of the mAb were reactive with at the most three chemotypes of the core as determined by enzyme immunoassay and failed to bind smooth LPS or any of the complete cores of E. coli. One mAb, MASC1-MM3 (MM3), reacted with six different Salmonella core chemotypes, the R2 core of Escherichia coli and a variety of smooth LPS. This mAb reacted equally well with live and heat-killed bacteria. It bound to 123 of 126 clinical isolates of Salmonella and 11 of 73 E. coli strains in a dot-immunoblot assay. Typical ladder-like patterns of bands were observed after immunoblotting of this mAb against electrophoretically resolved smooth LPS from the five major serogroups of Salmonella species (A, B, C1, D1, and E). MM3 had no reactivity with BSA conjugates of O-Ag polysaccharides from the above serogroups confirming specificity for a core epitope. Polysaccharides derived from or synthetic saccharides representative of the various chemotypes of Salmonella LPS core were tested as competitive inhibitors of the binding of MM3 to LPS. The results led to a conclusion that MM3 recognizes the structure, L-alpha-D-Heptose1-->7-L-alpha-D-Heptose1-->disaccharide present as a branch in the Ra, Rb1, Rb2, Rb3 and Rc but lacking in the Rd1, Rd2, and Re chemotypes of the Salmonella LPS core. This disaccharide seems free and accessible on the basis of the previously calculated conformations of the Salmonella (Ra) and E. coli complete cores (R1, R2, R3, R4, and K12). It therefore defines or contains an epitope within the inner core subdomain of Salmonella LPS that is accessible to antibody in long-chained LPS and in intact bacteria with complete LPS.     

Monoclonal antibody 667 recognizes the variable region A motif of the ecotropic retrovirus CasBrE envelope glycoprotein and inhibits Env binding to the viral receptor

Monoclonal antibody (MAb) 667 is a neutralizing mouse monoclonal antibody recognizing the envelope glycoprotein (Env) of the ecotropic neurotropic murine retrovirus CasBrE but not that of other murine retroviruses. Since 667 can be used for preclinical studies of antiviral gene therapy as well as for studying the early events of retroviral infection, we have cloned its cDNAs and molecularly characterized it in detail. Spot technique-based experiments showed that 667 recognizes a linear epitope of 12 amino acids located in the variable region A of the receptor binding domain. Alanine scanning experiments showed that six amino acids within the epitope are critical for MAb binding. One of them, D(57), is not present in any other murine retroviral Env, which suggests a critical role for this residue in the selectivity of 667. MAb 667 heavy- and light-chain cDNAs were functionally characterized by transient transfection into Cos-7 cells. Enzyme-linked immunosorbent assays and Biacore studies showed that the specificities as well as the antigen-binding thermodynamic and kinetic properties of the recombinant 667 MAb (r667) produced by Cos-7 cells and those of the parental hybridoma-produced MAb (h667) were similar. However, h667 was shown to contain contaminating retroviral and/or retrovirus-like particles which interfere with both viral binding and neutralization experiments. These contaminants could successfully be removed by a stringent purification protocol. Importantly, this purified 667 could completely prevent retrovirus binding to target cells and was as efficient as the r667 MAb produced by transfected Cos-7 cells in neutralization assays. In conclusion, this study shows that the primary mechanism of virus neutralization by MAb 667 is the blocking of the retroviral receptor binding domain of CasBrE Env. In addition, the findings of this study constitute a warning against the direct use of hybridoma cell culture supernatants for studying the initial events of retroviral cell infection as well as for carrying out in vivo neutralization experiments and suggest that either recombinant antibodies or highly purified antibodies are preferable for these purposes.     

Detection of MCT and MCTC types of human mast cells by immunohistochemistry using new monoclonal anti-tryptase and anti-chymase antibodies

We developed an improved immunohistochemical technique for distinguishing human mast cells of the MCT (tryptase-positive, chymase-negative) and MCTC (tryptase-positive, chymase-positive) types utilizing a biotinylated murine anti-chymase monoclonal antibody (MAb), termed B7, and an alkaline phosphatase-conjugated murine anti-tryptase MAb, termed G3. The B7 MAb also was used to show the selective presence of chymase in mast cells. The distribution of MCT and MCTC cells in Carnoy's fluid-fixed tissue sections of human lung, skin, small intestine, and tonsils was analyzed by the new technique and the results compared to those obtained with the older method using a rabbit polyclonal antichymase antibody and a mouse anti-tryptase MAb in indirect immunoperoxidase and indirect immunoalkaline phosphatase protocols, respectively. In tissues known to contain predominantly mature mast cells, there were no quantitative differences between the two techniques, although the staining intensity achieved with the anti-chymase MAb was greater and without development of high background, compared to results achieved with the polyclonal antibody. MCT cells were the predominant type seen in the alveoli of the lung (93%) and in the small intestinal mucosa (81%). MCTC cells predominanted in the skin (99%) and in the small intestinal submucosa (77%) and, to a lesser degree, in tonsils (60%). However, in newborn foreskin tissue which contains predominantly immature forms of mast cells, 75% of all mast cells were stained uniformly and intensely with B7, whereas only 43% were stained with the polyclonal anti-chymase antibody. Therefore, the use of MAb provides for better standardization of reagents and more accurate assessment of the distribution of human MCT and MCTC cells in tissues than previously available methods.     

Monoclonal antibodies to Salmonella lipopolysaccharide: anti-O-polysaccharide antibodies protect C3H mice against challenge with virulent Salmonella typhimurium

The present investigation reports the production of monoclonal antibodies to antigenic determinants of the O-polysaccharide of Salmonella typhimurium lipopolysaccharide (LPS), and assesses the effectiveness of these antibodies in protecting C3H mice against the lethal effects of Salmonella infection. Hybridomas were generated by fusing spleen cells from (BALB/c X A/J)F1 (CAF1) mice hyperimmunized by i.v. injection with acetone-killed S. typhimurium SR-11 with X63-Ag8.653 murine myeloma cells. Hybridomas producing antibodies reactive with S. typhimurium SR-11 whole cells were subcloned, and seven of the resulting clones as well as one previously described clone were selected for use in the studies reported here. Monoclonal antibodies from these eight clones were of the IgG1 (1), IgG3 (6), or IgM (1) isotype and were specific for the O-polysaccharide region of Salmonella LPS, reacting with LPS from smooth S. typhimurium SR-11 and LT-2, but not with LPS from rough S. minnesota R60 (Ra), R345 (Rb), or R595 (Re). The effectiveness of each monoclonal antibody in protecting C3H/HeN and C3H/HeJ mice against the lethal effects of Salmonella infection was evaluated by comparing the median length of survival of groups of mice given antibody by i.p. injection before i.p. challenge with virulent S. typhimurium SR-11 to that of animals that received no antibody. Three out of eight monoclonal anti-O-polysaccharide antibodies, ST-1 (IgM), 10-5-47 (IgG3), and 10-5-6 (IgG3), provided significant (p less than 0.01) protection to C3H/HeN mice challenged with approximately 10(4) LD100 of Salmonella. Only antibodies ST-1 and 10-5-6, however, extended the median length of survival of C3H/HeJ mice beyond that of infected controls. Mouse antiserum prepared against S. typhimurium SR-11 was equally protective in C3H/HeJ mice. In an attempt to understand the contribution of antibody specificity to the relative differences in the protective capacities of the monoclonal antibodies, their reactivities with several Salmonella reference strains of different classical serotypes were examined. Although some differences in reactivity against the different strains were apparent, this approach was not adequate for defining the fine specificity of these monoclonal antibodies. The results of this study provide evidence that monoclonal antibodies with specificity to the O-polysaccharide region of Salmonella LPS can protect C3H mice against challenge with the homologous bacterial strain.     

Pharmacodynamic and protective properties of a murine lipopolysaccharide-specific monoclonal antibody in experimental Pseudomonas aeruginosa pneumonia in mice.

We employed a Pseudomonas aeruginosa mouse pneumonia model to evaluate the ability of a murine monoclonal antibody (MAb) specific for the O-side chain of P. aeruginosa Fisher Immunotype-1 lipopolysaccharide (LPS) to achieve and sustain therapeutic levels in plasma and lung tissue, reduce bacterial populations in the lung, and prevent pneumonia-associated mortality. An IgG3 MAb (Y1-5A4) administered to mice i.v. over a dose range of 125-1,000 micrograms/mouse produced plasma and lung tissue levels at 2 hr of 61-507 micrograms/ml and 4.3-150 micrograms/g, respectively. The 1,000 micrograms MAb dose reduced bacterial counts in lung tissue (log10 cfu/g +/- S.D.) and blood (log10 cfu/ml +/- S.D.) 20 hr post-treatment (18 hr post-challenge) from 10.00 +/- 0.66 to 7.66 +/- 0.91 (P less than 0.01) and from 4.39 +/- 0.81 to less than 3.0, respectively. Administration of MAb to mice in doses of 125-500 micrograms 2 hr prior to a 3 x 50% lethal bacterial challenge produced significant protection against death, with a calculated 50% protective dose of 167 micrograms. Protection was noted following administration of 1,000 micrograms of MAb up to 6 hr after bacterial challenge (P less than 0.05, compared with untreated control). Histological examination of lung tissue from infected mice revealed less acute inflammation, necrosis, and hemorrhage in MAb-treated compared with untreated control animals and greater localization of Pseudomonas antigen within the phagocytic cells in alveolar space. These findings document the in vivo therapeutic efficacy of an LPS-specific IgG MAb in a murine model of acute P. aeruginosa pneumonia, based in part upon the achievability of effective MAb concentrations in plasma and lung tissue.     

Properties of monoclonal antibodies to the genus-specific antigen of Chlamydia and their use for antigen detection by reverse passive haemagglutination

The chlamydial genus-specific antigen was extracted with phenol/chloroform/petroleum ether (PCP) from preparations of Chlamydia trachomatis and C. psittaci, and quantities measured using an assay for lipopolysaccharide (LPS). The LPS from C. trachomatis contained 2.2% (w/w) of ketodeoxyoctanoic acid. Five IgG monoclonal antibodies reacted in an ELISA with LPS from both species, the antigen being periodate-sensitive and heat-resistant, confirming that all antibodies were against the genus-specific antigen. All the antibodies bound to the PCP extract of C. trachomatis on an immunoblot, at a position corresponding to the periodate-Schiff-stained bands of both C. trachomatis extract and Salmonella Re-LPS. When linked to trypsin-treated sheep erthrocytes and used in reverse passive haemagglutination tests, all antibodies gave indicator cells capable of detecting chlamydial LPS or crude preparations of chlamydiae grown in McCoy cells, the sensitivity varying with the antibody used. The antibodies varied in IgG subclass (either IgG2a or IgG3), and in ability to precipitate in immunodiffusion tests. Two antibodies cross-reacted with one strain of Acinetobacter in ELISA and with Salmonella Re-LPS in both ELISA and immunodiffusion tests. The other three did not react in ELISA with Acinetobacter strains or Salmonella Re-LPS, and none of the five reacted with LPS of E. coli or Pseudomonas morsprunorum.     

Actin interaction with the plasma membrane fraction of cells of murine fibroblast L sublines differing by growth type in culture

The association between murine fibroblast L plasma membranes and actin was studied by means of low-shear viscometry of membrane-actin mixtures. Membrane fractions of 3 genetically related sublines of L cells were used differing in cytoskeleton structural organization. The suspension cell subline LS membranes showed actin gelatin activity. On the contrary, the membranes of monolayer cell sublines L-929 and LSM were seen to bind actin and to cause decrease in viscosity. Possible mechanisms of such interactions are discussed.