The surface of Neisseria gonorrhoeae: isolation of the major components of the outer membrane.

Outer membranes were isolated from several strains of Neisseria gonorrhoeae by extraction of whole cells with aqueous lithium acetate. The preparations contained a limited number of components including lipopolysaccharide and two major proteins. One protein was present in all strains examined; the second, which showed anomalous behaviour on sodium dodecyl sulphate-polyacrylamide gel electrophoresis, was absent from some. Fluorescent labelling of intact N. gonorrhoeae showed that the two proteins and pili were the major surface proteins. Each of the three major outer membrane components was isolated in a homogeneous form by selective extraction followed by gel filtration.     

The identification of outer membrane proteins and flagella of Campylobacter jejuni

The outer membrane proteins of five clinical isolates of Campylobacter jejuni were identified by 125I-surface labelling and SDS-PAGE of outer membrane preparations. All isolates expressed a major outer membrane protein of variable molecular weight (43 000-46 000: 43K-46K). Several constant surface proteins were also identified including a 27K protein which was surface-exposed and acid-extractable but was not present in the outer membrane preparations. Isolated flagella comprised a major 62K protein and a minor 87K protein. Both proteins were absent in an aflagellate variant. The 62K protein was immunoblotted and immunoprecipitated by rabbit anti-flagella antisera.     

HeLa cell plasma membranes : IV. Iodination of membrane proteins in synchronized cells

Intact HeLa cells and isolated HeLa cell plasma membranes were subjected to lactoperoxidase-catalysed iodination. The ¹²⁵I-labelled proteins were separated by SDS-polyacrylamide gel electrophoresis. Six protein species with apparent molecular weights from 32 000 to 200 000 were accessible to labelling from the outer cell surface, while most of the proteins present in the plasma membrane were labelled when isolated plasma membranes were iodinated. Iodination of synchronized intact cells revealed that the labelling obtained was cell cycle dependent with maximal labelling at mitosis. No changes in the distribution of radioactivity among the labelled proteins were observed when cells from different phases were iodinated.     

Structural comparison of Neisseria gonorrhoeae outer membrane proteins.

Outer membranes from opaque colonia variants of Neisseria gonorrhoeae P9 contain a major outer membrane protein (protein I) together with one or more of a series of heat-modifiable proteins (proteins II). Proteins I. II, and IIa have been isolated by detergent extraction of outer membranes. Amino acid analysis showed proteins II and IIa to have a very similar composition. Cyanogen bromide cleavage of proteins II and IIa produced a pair of fragments with identical molecular weight and a pari which differed by an amount (0.5K) equivalent to the difference between the intact proteins. Tryptic peptide maps of 125I-labeled proteins II, IIa, and IIb showed many similarities, with only a few peptides unique to any one protein. Peptide maps of protein IIa from cells which had been surface labeled showed that the unique peptides were exposed on the surface. The heat-modifiable proteins thus appear to form a family of proteins with closely related structure probably differing in that part which is exposed on the bacterial surface.     

Cell surface proteins of E. coli

Cell surface proteins of $\text{E. coli}$ K12 have been labelled with ¹²⁵I using a lactoperoxidase method. Results suggest that most outer membrane proteins so far characterised appear to have at least part of their polypeptide chain on the cell surface. These include major outer membrane protains I and II¹, the maltose and vitamin B₁₂ binding proteins and proteins involved in iron transport. The labelling of an antibiotic sensitive mutant and its parent were compared but their labelling patterns did not appear to differ in any way which would suggest the cause of the permeability difference between these two strains.     

The organization of the major protein of the human erythrocyte membrane

The enzyme lactoperoxidase was used to catalyse the radioiodination of membrane proteins in intact human erythrocytes and in erythrocyte `ghosts'. Two major proteins of the erythrocyte membrane were isolated after iodination of these two preparations, and the peptide `maps' of each protein so labelled were compared. Peptides from both proteins are labelled in the intact cell. In addition, further mobile peptides derived from one of the proteins are labelled only in the `ghost' preparation. Various sealed `ghost' preparations were also iodinated, lactoperoxidase being present only at either the cytoplasmic or extra-cellular surface of the membrane. The peptide `maps' of protein E (the major membrane protein) labelled in each case were compared. Two discrete sets of labelled peptides were consistently found. One group is obtained when lactoperoxidase is present at the extra-cellular surface and the other group is found when the enzyme is accessible only to the cytoplasmic surface of the membrane. The results support the assumption that the organization of protein E in the membrane of the intact erythrocyte is unaltered on making erythrocyte `ghosts'. They also confirm previous suggestions that both the sialoglycoprotein and protein E extend through the human erythrocyte membrane.     

Surface antigens of Proteus mirabilis revealed by electroblotting from sodium dodecyl sulphate-polyacrylamide gels

Western Blotting of whole cell preparations of three strains of Proteus mirabilis after separation by electrophoresis on SDS-polyacrylamide gels revealed a complex pattern of antigens. Similar antigen profiles were obtained with isolated outer membranes indicating that the majority of cell surface antigens are located in the outer membrane. Major outer membrane proteins were strongly antigenic and cross-reactive. The highly immunogenic flagella were detected in whole cell preparations and visible in isolated outer membranes. Whereas the protein and flagellar antigens were cross-reactive, lipopolysaccharide (LPS) could only be detected as immunoreactive material using homologous antisera for each strain. The LPS appeared as two broad bands (high and low Mr, respectively) in immunoblots of whole cells, isolated outer membranes and purified LPS. However, isolated LPS could be resolved into multiple sharp bands when 4 M urea was included in the gel system. These discrete bands are assumed to represent differing O antigen chain lengths of the LPS as reported for other Gram-negative organisms.     

Antigenic variation of outer membrane protein II in colonial variants of Neisseria gonorrhoeae P9

Antibodies were detected by an enzyme-linked immunosorbent assay (ELISA) in sera from rabbits immunized wtih outer membranes from colonial opacity variants in Neisseria gonorrhoeae P9. ELISA-inhibition experiments with purified antigens revealed approximately equal proportions of antibodies directed against each of the three major surface antigens, lipopolysaccharide, the major outer membrane protein (protein I) and protein II, the variable protein associated with colonial opacity. Inhibition experiments with intact gonococci showed considerable antigenic diversity which could be correlated with differences between the protein II species present. Despite their considerable structural homology, different protein II species from colonial variants of the same strain showed little cross-reactivity with specific anti-protein II sera, thus demonstrating the considerable variation in that part of the antigen which is exposed on the surface of the gonococcus and is closely involved in pathogenic mechanisms.     

Diisopropylfluorophosphate-binding proteins in the outer membrane of Fusobacterium nucleatum: strain variations

Six strains of Fusobacterium nucleatum were tested for their ability to react with [3H]diisopropylfluorophosphate (DFP), a serine protease inhibitor. Several cytoplasmic proteins were labelled but the strongest labelling was regularly observed in a few outer membrane proteins. The number and the molecular mass of the proteins detected varied according to the strain tested. A 61 kDa protein was labelled in all strains tested, including the two type strains ATCC 10953 and ATCC 25586. A 65 kDa protein was particularly strongly labelled in strains Fev1 and F6.     

Plasmid-associated bacteriocin production in a JK-type coryneform bacterium

Abstract The outer membrane of Escherichia coli K-12 has a variety of proteolytic activities. We were able to label several outer membrane proteins with [³H]diisopropylfluorophosphate (DFP). This suggests that they are serine proteases. The number of labelled proteins detected varied with the E. coli K-12 strain used. Strains bearing a tolC mutation, in addition, gave better labelling and/or had more labelled proteins. A previously described [³H]DFP-labelled outer membrane protein was shown not to be the TolC protein since it has a slightly lower M _r, it is not labelled more intensely in a TolC-overproducing strain, and it is still labelled in tolC mutant strains.     

Studies on the structure of milk fat globule membrane.

Milk fat globule membrane was solubilized with sodium dodecyl sulfate and mercaptoethanol and the membrane proteins were separated by SDS-polyacrylamide gel electrophoresis. The membrane preparations contained three major size classes of polypeptide of 155,000, 62,500 and 43,500 daltons. At least five glycopeptides were separated of which two stained intensely with periodic acid-Schiff reagent, but poorly with coomassie blue. Trypsin hydrolysis of whole cream and isolated milk fat globule membrane revealed major differences in the rates of protein hydrolysis. Many of the membrane proteins of whole cream resisted proteolysis compared with the same proteins in the isolated membrane. Two glycopeptides were resistant to trypsin digestion in either preparation. Treatment of whole cream with neuraminidase led to the release of at least 70% of the protein-bound sialic acid. Whole cream and isolated membrane samples were iodinated with 125I in the presence of lactoperoxidase and hydrogen peroxide. The membrane proteins were significantly more accessible to lactoperoxidase-125I i in isolated membrane compared with the proteins of whole cream. Polypeptides of molecular weight 43,500 and approximately 48,000 daltons were predominantly labelled in whole cream and could be eluted from the fat globules with magnesium chloride (1.5m). The results strongly suggest that the proteins of milk fat globule membrane are asymmetrically arranged in the membrane and that most of the protein-bound sialic acid is present on the external surface of milk fat globules.     

Isolation, characterization and protein and polar lipid compositions of Paracoccus denitrificans outer membrane

Sucrose density gradient centrifugation of Paracoccus denitrificans strains ATCC 13543 and ATCC 17741 cell envelopes plus poly-β-hydroxybutyrate, isolated from organisms broken using a French pressure cell, revealed three bands of densities: I, 1.16 g/ml; II, 1.19 g/ml; III, 1.24 g/ml. On the basis of chemical and enzymatic assays and sodium dodecyl sulfate-polyacrylamide gel electrophoresis the bands were identified as: I, cytoplasmic membrane; II, poly-β-hydroxybutyrate; III, outer membrane plus poly-β-hydroxybutyrate. Poly-β-hydroxybutyrate was removed by increased low-speed centrifugation before deposition of cell envelopes. Density gradient centrifugation of cell envelopes gave a simple pattern of two bands, cytoplasmic and outer membranes. In both strains outer membranes showed a broad protein band at M_r 70 000–83 000 upon SDS-polyacrylamide gel electrophoresis of samples solubilized at 25°C, which was not present in samples solubilized at 100°C, where a single major band was present of M_r 32 000 in strain ATCC 13543 and 35 000 in strain ATCC 17741. The major outer membrane protein stained positively for lipid in both strains, as did an M_r 70 000 protein, which was the second major protein in strain ATCC 17741. The second major outer membrane protein of stain ATCC 13543 had an M_r of 20 000 in unheated samples but 23 000 in heated samples. This protein was not present in strain ATCC 17741. Quantitative data on the polar lipid compositions of cell envelope fractions are presented.     

Isolation and partial characterization of inner and outer membrane fractions of Nitrobacter hamburgensis

Abstract Highly purified preparations of inner, i.e. cytoplasmic and intracytoplasmic, membranes and outer membranes were isolated from Nitrobacter hamburgensis strain X14 by sucrose density-gradient centrifugation of cell-free extracts. The two membrane fractions differed markedly in morphology, density, and protein composition as determined by polyacrylamide gel electrophoresis. The inner membrane fraction was enriched in NADH oxidase and nitrite oxidase activity. It contained four major protein bands of apparent M _rs of 28 000, 32 000, 70 000, and 116000. The outer membrane fraction was characterized by the presence of 2-keto-3-deoxyoctonate and contained two major proteins of apparent M _rs of 13 000 and 50 000. There was no evidence for differences between cytoplasmic and intracytoplasmic membranes.     

Radiolabelling of Bordetella pertussis envelope proteins by the 125 I-lactoperoxidase method.

Bordetella pertussis strain number 18334 was grown in media which yielded cells with either a normal complement of surface antigens (X-model), or cells which were phenotypically altered (C-model). Neither X- nor C-mode bacteria incorporated more than traces of radioactivity when exposed to Na 125 I, lactoperoxidase and a source of H2O2 under conditions which gave substantial labelling of BSA and other soluble proteins. In contrast, envelope preparations were readily labelled. Analysis by sodium dodecyl sulphate-polyacrylamide gel electrophoresis showed that several polypeptides had incorporated 125 I but not in amounts proportional to their abundance in the envelopes. Envelopes from C-mode cells gave a labelling pattern similar to those of X-mode except in one region. Control experiments suggested that the failure of intact cells to become labelled may be due to bacterial inhibition of the reagents.     

Comparison of protein components of the plasma membrane fraction from rat liver and Morris hepatomas 5123D and 7777.

Isolated plasma membrane fractions from rat liver and Morris hepatoma 5123D and 7777 were labelled with radioiodine 125I by a chemical or enzymatic procedure and then were solubilized in 2 per cent solution of sodium dodecyl sulphate containing 1 per cent 2-mercaptoethanol. Solubilized proteins were separated into 20--22 zones staining with Coomassie Brilliant Blue R-250 after disc gel electrophoresis (7.5 per cent polyacrylamide gel). The high similarity of electrophoretic patterns of polypeptide components of all three preparations of cellular membranes was found in distinction to apparent differnces in the amount and disposition of substances stained with Schiff's reagent. Some tentative conclusions were drawn on the disposition of proteins within membrane structure studied by the method of labelling by chemical and enzymatic procedures (distinguishing between extrinsic and integral proteins).     

Caulobacter crescentus cell envelope: effect of growth conditions on murein and outer membrane protein composition

The murein and membrane protein compositions of Caulobacter crescentus strains CB13B1a and CB15 have been characterized, and the influence on cell envelope constituents of culture conditions which affect morphogenesis have been studied. Amino acid and sugar analysis of murein sacculi revealed a simple A1gamma murein configuration typical of gram-negative bacteria. The membranes of C. crescentus had low levels of 2-keto-3-deoxyoctonate relative to enteric bacteria, in addition to the absence of lipid A components (Shapiro et al., Science 173:884-892, 1971; Chow and Schmidt, J. Gen. Microbiol, 83:369-373, 1974). Nevertheless, C. crescentus membranes could be fractionated into inner and outer membrane components by sucrose density gradient centrifugation procedures developed for Escherichia coli. The proteins of the outer membrane were distributed between three major (I, II, and III) and two minor (IV and V) protein classes. Class I proteins were greater than or equal to 74,000 daltons and constituted the primary proteins of the outer membrane. Class I proteins were separated into approximately 50 polypeptides by two dimensional gel electrophoresis; the protein composition of thi s class was affected by culture conditions in both CB13B1a and CB15. Class II (47,000 to 39,000 daltons) and III (20,000 to 11,500 daltons) proteins differed in each strain in composition and response to culture conditions.     

Iron transport in Mycobacterium smegmatis: occurrence of iron-regulated envelope proteins as potential receptors for iron uptake

Cell-envelope fractions were isolated from the rapidly growing saprophyte Mycobacterium smegmatis following growth in glycerol/asparagine medium under both iron-limited (0.02 microgram Fe ml-1) and iron-sufficient (2.0 to 4.0 micrograms Fe ml-1) conditions. Examination of these preparations by SDS-PAGE demonstrated the production of at least four additional proteins when iron was limiting. These iron-regulated envelope proteins (IREPs) were ascribed apparent molecular masses of 180 kDa (protein I), 84 kDa (protein II), 29 kDa (protein III) and 25 kDa (protein IV). All four proteins were present in both cell-wall and membrane preparations but spheroplast preparations were devoid of the 29 kDa protein. Attempts at labelling the proteins with 55FeCl3 or 55Fe-exochelin, the siderophore for iron uptake, were unsuccessful, though this was attributed to the denatured state of the proteins following electrophoresis. Antibodies were raised to each of the four proteins: the one raised to protein III inhibited exochelin-mediated iron uptake into iron-deficiently grown cells by 70% but was ineffective against iron uptake into iron-sufficiently grown cells. As exochelin is taken up into both types of cells by a similar process, protein III may not be a simple receptor for iron uptake though the results imply some function connected with this process. The role of the other IREPs is less certain.     

A comparison of intact human red blood cells and resealed and leaky ghosts with respect to their interactions with surface labelling agents and proteolytic enzymes

Resealed ghosts and intact red blood cells were directly compared with respect to their interactions with surface probes and to digestion by pronase. The amount and pattern of labelling of surface proteins by 4.4′-diisothiocyano-2,2′-stilbene disulfonic acid (DIDS) and by pyridoxal phosphate-borohydride (as seen after sodium dodecylsulfate/acrylamide gel electrophoresis) was substantially the same in cells and resealed ghosts under conditions in which a relatively small change would be apparent. In each membrane system, DIDS labels a protein component of apparent molecular weight 95 000 and pyridoxal phosphate labels the same protein plus three glycoprotein components. The sensitivity of surface proteins and of DIDS and pyridoxal phosphate-labelled sites to pronase was also similar in the cells and resealed ghosts. The glycoproteins were digested, in each case, and the 95 000 (molecular weight) protein was largely split into two portions of apparent molecular weights 65 000 and 35 000, with both portions containing DIDS and pyridoxal phosphate binding sites. The pattern of labelling of “leaky” ghosts by pyridoxal phosphate in the presence of hemoglobin was similar to the labelling of intact cells, provided that the pyridoxal phosphate was present on both the outside and inside of the cells. Virtually all of the major protein components visible by staining on acrylamide gels were labelled. It is concluded that none of the probes could detect any substatial differences in reactivity of proteins of the outer surface of the membrane of the ghosts as compared to the cells and that no irreversible changes in membrane protein conformation or arrangement occur as a consequence of lysis and resealing of ghosts, that are detectable by the reported procedures.     

Isolation and characterization of Chromatium vinosum membranes

A fractionation of Chromatium vinosum into an outer layer (cell wall) and three intracellular membrane fractions by isopycnic sucrose density centrifugation of a total membrane fraction obtained by lysis of lysozyme-EDTA spheroplasts is decribed. The three intracellular fractions (I, II, and III) have apparent densities of 1.11, 1.14, and 1.16, respectively, and contain the bulk of the photosynthetic pigments. Fraction II is enriched in bacteriochlorophyll and contains about 49% of the total membrane protein and 60% of the membrane bacteriochlorophyll. The outer membrane fraction (IV, cell wall) has a density of 1.23 and contains 5% of the membrane protein and 0.8% of the bacteriochlorophyll. Fraction I is enriched in lipids and phosphorus and has only a trace of diaminopimelate (DAP). Fractions II and III both contain a significant content of DAP. Fraction IV has no DAP, but has a fatty acid composition similar to that of the envelope fraction. Electrophoresis of the fractions on sodium dodecylsulfate-containing gels yielded from 8–13 bands of protein. Fractions I, II, and III contained the same series of unique proteins, while fraction IV contained another group of unique proteins. In fraction IV the bulk of the proteins traveled in one band with a molecular weight of 41,500. Examination of the fractions and whole spheroplasts in the electron microscope showed that fractions I, II and III were composed of large membrane structures in the form of membrane reticulum with bud-like appendages, and elongated flattened tubes. Fraction IV was composed of large ovoid structures which were seen to lie on the outer surface of the whole spheroplasts. These results suggest that the normal in vivo state of the intracellular membranes is that of an interconnected series of tubules and vesicles extending throughout the cell cytoplasm.     

The outer membrane of Treponema pallidum: biological significance and biochemical properties

Rabbits infected intravenously with Treponema pallidum were not markedly febrile, and the pyrogenicity of treponeme preparations administered intravenously to rabbits was negligible. The antibiotic polymyxin B did not induce any ultrastructural changes on the treponemal surface and was not lethal (immobilizing) for T. pallidum, which was, however, highly susceptible to detergents such as SDS. Extraction of treponemes with Triton X-100 removed the outer membrane (despite the presence of Mg2+) as shown by electron microscopy, and solubilized a limited number of proteins detectable by SDS-PAGE, including a dominant antigen (47 kDal) demonstrated by immunoblotting. None of the proteins were heat-modifiable. Periodic acid-silver staining of polyacrylamide gels for carbohydrate together with protease K digestion did not demonstrate major carbohydrate components in whole treponemes, or in the Triton-soluble fraction. Surface iodination of intact treponemes revealed very little surface exposure of treponemal proteins, although a protein which co-migrated with host albumin was labelled and appeared to be associated with the treponemal surface. Many treponemal proteins were, however, labelled when iodination was done in the presence of Triton. These observations, indicate that the outer membrane of T. pallidum differs significantly from those of many Gram-negative pathogens.