Immunochemical characterization of Fraction I of Yersinia pestis strains by CAF1M gene

The role of caf1M gene in biogenesis of Yersinia pestis capsule was studied in natural strains of the agent with Fra+/- phenotypes and recombinant variants with ycaA (caf1+;caf1M;caf1A+;caf1R+) locus defect. These bacteria did not form a clearly discernible capsule stained by classical methods but synthesized Cafl, whose content in the cells was many times higher than in lysates, in external cell wall, and in the medium with reference Y. pestis EV NIIEG culture (caf1+;caf1M;caf1A+;caf1R+). However Caf1 was not detected on the surface or culture fluid of natural and mutant Y. pestis cells. Exclusive role of Caf1M in Caf1 delivery to Y. pestis cell surface, but not in F1 monomer folding, was proven. Retention of lipopolysaccharide (LPS), a typical SR-LPS configuration and epitope specificity of its components was demonstrated, ensuring similar reactivity in solid-phase enzyme immunoassay with a panel of monoclonal antibodies to Y. pestis LPS. Study of immunochemical properties of antigenic substances derived from caf1M-defective Y. pestis cells by isolation of F1 showed that these substances represent an envelope protein involved in the caf1+ strains (together with Caf1) in assembly of "mature" F1 molecule as a result of posttranslation modification of various genes products. Variants of identification of Y. pestis with Fra+ phenotype by means of monoclonal antibodies to F1, fibrinolysis/coagulase, or LPS in solid-phase enzyme immunoassay are discussed.     

Fine structures of the capsules of Klebsiella pneumoniae and Escherichia coli K1.

The fine structures of the capsules of Klebsiella pneumoniae and Escherichia coli were determined by the rapid-freezing technique. The capsular layer was seen as a densely packed accumulation of fine fibers. The thickness of the capsule was approximately 160 nm in K. pneumoniae and less than 10 nm in E. coli K1. Two layers were observed in the Klebsiella capsule in which the arrangements of the fibers were different. The inner layer of the capsule was formed by a palisade of thick and dense bundles of the fibers standing at right angles on the surface of the outer membrane. In the outer layer these thick bundles of fibers loosened into fine fibers which spread over the bacterial surface, forming a fine network structure.     

Expression of the envelope antigen F1 of Yersinia pestis is mediated by the product of caf1M gene having homology with the chaperone protein PapD of Escherichia coli.

The effective synthesis of the envelope antigen F1 of Y. pestis in E. coli HB101 is mediated by the expression of the caf1M gene. This gene was sequenced, and the protein encoded was found to have a significant homology with the chaperone protein PapD of uropathogenic E. coli. The data presented allow one to suppose Caf1M and PapD proteins perform similar functions in the biogenesis of the Y. pestis capsule and E. coli P-pili, respectively.     

Use of monoclonal antibodies to plague microbe antigens at the early stage of infection in white mice for enhancement of the late streptomycin and doxycycline treatment]

It was demonstrated that use for prophylaxy (after 5 h of infection) or for treatment (after 24 h after infection) of the monoclonal antibodies mixture to specific epitops of capsule antigen (fraction 1), lipopolysacharide, murine toxine can prevent development of plague pathogen at 100 of mice infected by approximately 1000 LD50 Yersinia pestis 231. 5-day course of prophylaxy by monoclonal antibodies provided survival of 50 per cent animals. Subsequent use of fraction 1 antigen for 5 days followed by treatment with streptomycin or doxycycline at 6-7-8-9-10 days after infection with Y. pestis 231 prevented infection manifestation at 80 per cent of animals, etiotropic therapy started at the same period was ineffective. When white mice were infected with Y. pestis 231 Fra-, with deleted ability to produce capsule antigen (fraction 1) 80% level of efficacy can be provided by subsequent administration of antibodies to fraction 1 combinated with lipopolysacharide, murine toxine and streptomycin. Use of monoclonal antibodies followed by doxycycline was ineffective.     

Modelling of steric structure of a periplasmic molecular chaperone Caf1M of Yersinia pestis, a prototype member of a subfamily with characteristic structural and functional features

Abstract Steric structure of Caf1M, a periplasmic molecular chaperone of Yersinia pestis , was reconstructed by computer modelling based on a statistically significant primary structure homology between Caf1M and PapD protein from Escherichia coli , and using the known atomic coordinates obtained by the X-ray crystallography for PapD. In the three-dimensional model of Caf1M an accessory sequence between F1 and G1 β-strands (as compared to PapD) can form a strain-specific part of the binding pocket of surface organell subunits. This accessory sequence decreases the depth of the binding pocket. The characteristic structural feature of the subfamily of periplasmic molecular chaperones with the accessory sequence (Caf1M subfamily) is the existence of exposed to a solvent Cys residues in F1 and G1 β-strands which can form disulfide bond in the putative binding pocket. The characteristic functional feature of Caf1M subfamily is the chaperoning of more simple compositions of virulence-associated surface organells (in the case of Y. pestis a capsule consists of only F1 protein). Highly conserved R₈₂ and D₉₃, located at the domain surface remote from the putative subunit binding pocket, can participate in direct contacts with the conserved portion of molecular usher proteins.     

Identification of the autoagglutination factor of Hms- cells of the plague agent

A search for cellular components responsible for autoagglutination (AA) in broth and salt solutions of Hms- cells of the plague agent Yersinia pestis was performed. The AA- mutants were obtained using vaccine strain Y. pestis EV76 derivative containing one species-specific plasmid pYP. The mutants were shown to differ from the parent strain by the decreased surface hydrophobicity, insensitivity to plague diagnostic L-413c bacteriophage and negative haemagglutination reaction with antibodies to F1 capsular substance of the plague agent. The mutants did not differ from the parent strain by electrophoretic mobility and immunochemical activity of LPS but were characterized by the absence of a 17 kDa protein on the cell surface. The AA+ cells that lost this protein after weak alkali extraction were less hydrophobic and failed to express AA in 0.5 M ammonium sulfate. After the extraction, the cells lost the ability to neutralize L-413c and to react with the anti-F1 antibodies, while both activities as well as 17 kDa protein were detected in the extracts. Thus, the 17 kDa protein is suggested to be a hydrophobic surface antigen which acts as a receptor of the L-413c bacteriophage and represents an AA factor of Hms- cells of Y. pestis.     

Macroscopic and histological investigation of guanaco footpads (Lama guanicoe,Müller 1776)

The surface of guanaco footpads is characterized by hairless skin with up to 4‐mm‐thick stratum corneum that protects from abrasion. The horny layer is pliable and elastic, and ensures firm contact with irregular ground. It is padded with a particular structure of the subcutaneous layer, the digital cushion. The flat cushions of each of the two digits are of elongated ovate shape, each about 45‐mm long, up to 20‐mm wide, and 8‐mm thick. The cushions are lined by a 1–2‐mm‐thick capsule that resembles a tunica albuginea. The capsule consists of coarse collagen fibers, with elastic fibers absent. The cushion capsule and dermis approach each other, and fuse along a line that runs parallel to the longitudinal axes of cushion and digit. Loose connective tissue rich in elastic fibers and acidic glycosaminoglycans separates dermis and cushion capsule lateral to the narrow interconnecting zone. The cushion capsule encloses cloudy yellowish, gelatinous material. Microscopy shows bundles of elastic fibers in abundant mucinous matrix. Tightly gathered elastic bundles adjoin the inner surface of the capsule. Rough cords of elastic fibers branch out from there and traverse to the opposite side. The cushion is pressed flat, and elastic fibers are stretched when bearing weight. With relief of load, elastic fibers contract and reset the cushion's shape. Contractile cells are absent. A resistant capsule and easily malleable mucinous contents establish the functioning as a gel pad. Mucinous connective tissue between elastic fiber bundles contains abundant basophilic matrix. Hyaluronan, chondroitin sulfate, and dermatan sulfate are main matrix constituents. Spindle‐shaped or stellate fibroblasts contain vimentin, S100 protein, and neuron specific enolase. Moprhology, staining characteristics and synthesis activities of these cells meet the criteria to be classified as myxoid cells. The connective tissue in guanaco digital cushions represents myxoid tissue. J. Morphol. 276:331–341, 2015. © 2014 Wiley Periodicals, Inc.     

Vulnerabilities in Yersinia pestis caf operon are unveiled by a Salmonella vector

During infection, Yersinia pestis uses its F1 capsule to enhance survival and cause virulence to mammalian host. Since F1 is produced in large quantities and secreted into the host tissues, it also serves as a major immune target. To hold this detrimental effect under proper control, Y. pestis expresses the caf operon (encoding the F1 capsule) in a temperature-dependent manner. However, additional properties of the caf operon limit its expression. By overexpressing the caf operon in wild-type Salmonella enterica serovar Typhimurium under a potent promoter, virulence of Salmonella was greatly attenuated both in vitro and in vivo. In contrast, expression of the caf operon under the regulation of its native promoter exhibited negligible impairment of Salmonellae virulence. In-depth investigation revealed all individual genes in the caf operon attenuated Salmonella when overexpressed. The deleterious effects of caf operon and the caf individual genes were further confirmed when they were overexpressed in Y. pestis KIM6+. This study suggests that by using a weak inducible promoter, the detrimental effects of the caf operon are minimally manifested in Y. pestis. Thus, through tight regulation of the caf operon, Y. pestis precisely balances its capsular anti-phagocytic properties with the detrimental effects of caf during interaction with mammalian host.     

Mu dI1(Ap lac) mutagenesis of Yersinia pestis plasmid pFra and identification of temperature-regulated loci associated with virulence

The F1 capsule of Yersinia pestis, encoded by the 100 kb plasmid pFra, is often assumed to be essential for full virulence of Y. pestis. However, virulent strains of Y. pestis that are F1- and either pFra+ or pFra- have been reported. To assess the role of pFra-encoded factors in virulence, mutants in pFra with insertions of the defective transposing bacteriophage Mu dl(Ap lac) were obtained, by using the wild type (wt) and the pLcr-cured derivative of strain C092. Mutants that exhibited temperature regulation of lactose fermentation and retarded electrophoretic mobility of pFra were selected. A total of 15 insertion mutants were isolated in the wt strain (12 of which had a single insertion in the genome, in pFra); and 24 mutants in the isogenic pLcr- derivative. Four of the pLcr+ mutants, and none of the pLcr- mutants, were F1-. All F1- mutants were decreased in virulence for mice compared to the wt parent; and five of the F1+ mutants also were significantly attenuated in mice. Fusion end-joints of insert DNA were cloned into Escherichia coli by using pMLB524, a vector for rescuing operon fusions of lacZ. Recombinants were obtained which contained pFra inserts ranging from < 2kb to approximately 36 kb, and the insertions occurred at several sites on pFra. All of the four F1- mutants tested mapped within the F1 capsule operon (caf1). The remaining five attenuated mutants sequenced were F1+ and mapped outside of but near the operon. Sequencing and complete analysis of the pFra insertions mutants could facilitate identification of new potential virulence factors.     

Antigenic profiling of yersinia pestis infection in the Wyoming coyote (Canis latrans)

Although Yersinia pestis is classified as a "high-virulence" pathogen, some host species are variably susceptible to disease. Coyotes (Canis latrans) exhibit mild, if any, symptoms during infection, but antibody production occurs postinfection. This immune response has been reported to be against the F1 capsule, although little subsequent characterization has been conducted. To further define the nature of coyote humoral immunity to plague, qualitative serology was conducted to assess the antiplague antibody repertoire. Humoral responses to six plasmid-encoded Y. pestis virulence factors were first examined. Of 20 individual immune coyotes, 90% were reactive to at least one other antigen in the panel other than F1. The frequency of reactivity to low calcium response plasmid (pLcr)-encoded Yersinia protein kinase A (YpkA) and Yersinia outer protein D (YopD) was significantly greater than that previously observed in a murine model for plague. Additionally, both V antigen and plasminogen activator were reactive with over half of the serum samples tested. Reactivity to F1 was markedly less frequent in coyotes (35%). Twenty previously tested antibody-negative samples were also examined. While the majority were negative across the panel, 15% were positive for 1-3 non-F1 antigens. In vivo-induced antigen technology employed to identify novel chromosomal genes of Y. pestis that are up-regulated during infection resulted in the identification of five proteins, including a flagellar component (FliP) that was uniquely reactive with the coyote serum compared with immune serum from two other host species. Collectively, these data suggest that humoral immunity to pLcr-encoded antigens and the pesticin plasmid (pPst)-encoded Pla antigen may be relevant to plague resistance in coyotes. The serologic profile of Y. pestis chromosomal antigens up-regulated in vivo specific to C. latrans may provide insight into the differences in the pathogen-host responses during Y. pestis infection.     

Role of histamine receptors of mouse and guinea pig peritoneal leukocytes in the pathogenetic effect of Yersinia pestis adenylate cyclase]

The effect of purified preparation of adenylate cyclase isolated from Y. pestis on peritoneal leukocytes of white mice and guinea pigs was investigated. Y. pestis adenylate cyclase was shown to accomplish its pathogenic action via histamine-specific receptors on the surface of eukaryotic cells. The involvement of H1 and H2 histamine receptors on target cells in the adenylate cyclase action leading to development of plague infection is discussed.     

Comparative evaluation of mono- and neutrophilokins inducing activity of Yersinia pestis antigens

The results of the comparative analysis of the cytokine inducing activity of Yersinia pestis EV antigens are presented. Y. pestis fraction 1A (F1A) and lipopolysaccharide (LPS) were shown to induce mono- and neutrophilokines, regulating cooperative interaction of phagocytes in the process of immunity formation to plague. Neutrophilokines and monokines exceed in their capacity for inducing F1A such acknowledged inductor as Escherichia coli LPS. As revealed by the comparative evaluation of Y. pestis EV LPS and E. coli LPS, neutrophilokines synthesized under the action of the former preparation, have greater influence on the inhibition of the macrophage migration from the infection focus as well as on digestive activity of these cells (in secondary immune response) and on the labilization of the lysosome membranes of macrophages than neutrophilokines induced by E. coli LPS. At the same time they produce a lesser modulating effect on the killer and chemotactic activity of neutrophils, as well as on the expression of FC receptors (FcR) on their surface in comparison with monokines, synthesized under the influence of E. coli LPS.     

Synthesis of lens capsule and plasma membrane glycoproteins by lens epithelial cells and fibers in the rat

The lens of the eye possesses a capsule which is a greatly hypertrophied basement membrane. To investigate the synthesis of glycoproteins destined for this capsule, 3H-fucose was injected into the vitreous body of intact rats weighing approximately 200 gm. The animals were killed from 10 min to 14.5 months later, and their lenses were processed for electron microscope radioautography. At 10 min after injection, more than 58% of the silver grains were localized to the Golgi apparatus of the lens epithelial cells. By day 1, the heaviest sites of reaction were the plasma membrane (more than 50% of total label), the basal cytoplasm, and the adjacent lens capsule, where a heavy band of reaction was seen. The remainder of the capsule exhibited a lighter diffuse reaction. In the lens fibers, the label was at first localized to clusters of vesicles but then migrated to the plasma membrane and to the region of the capsule adjacent to the basal surface of these fibers. Light microscope radioautographs of the lens capsule at later time intervals revealed that by 1 month after injection the diffuse reaction had disappeared, and only the strongly labeled band remained. By 14.5 months after injection, this band had migrated partially across the lens capsule, but the capsule itself had increased considerably in thickness. On the other hand, the distance between the labeled band and the free edge of the capsule had decreased from that seen at the time of injection.     

An extended hydrophobic interactive surface of Yersinia pestis Caf1M chaperone is essential for subunit binding and F1 capsule assembly

A single polypeptide subunit, Caf1, polymerizes to form a dense, poorly defined structure (F1 capsule) on the surface of Yersinia pestis. The caf-encoded assembly components belong to the chaperone-usher protein family involved in the assembly of composite adhesive pili, but the Caf1M chaperone itself belongs to a distinct subfamily. One unique feature of this subfamily is the possession of a long, variable sequence between the F1 beta-strand and the G1 subunit binding beta-strand (FGL; F1 beta-strand to G1 beta-strand long). Deletion and insertion mutations confirmed that the FGL sequence was not essential for folding of the protein but was absolutely essential for function. Site-specific mutagenesis of individual residues identified Val-126, in particular, together with Val-128 as critical residues for the formation of a stable subunit-chaperone complex and the promotion of surface assembly. Differential effects on periplasmic polymerization of the subunit were also observed with different mutants. Together with the G1 strand, the FGL sequence has the potential to form an interactive surface of five alternating hydrophobic residues on Caf1M chaperone as well as in seven of the 10 other members of the FGL subfamily. Mutation of the absolutely conserved Arg-20 to Ser led to drastic reduction in Caf1 binding and surface assembled polymer. Thus, although Caf1M-Caf1 subunit binding almost certainly involves the basic principle of donor strand complementation elucidated for the PapD-PapK complex, a key feature unique to the chaperones of this subfamily would appear to be capping via high-affinity binding of an extended hydrophobic surface on the respective single subunits.     

Novel plasmids and resistance phenotypes in Yersinia pestis: unique plasmid inventory of strain Java 9 mediates high levels of arsenic resistance

Growing evidence suggests that the plasmid repertoire of Yersinia pestis is not restricted to the three classical virulence plasmids. The Java 9 strain of Y. pestis is a biovar Orientalis isolate obtained from a rat in Indonesia. Although it lacks the Y. pestis-specific plasmid pMT, which encodes the F1 capsule, it retains virulence in mouse and non-human primate animal models. While comparing diverse Y. pestis strains using subtractive hybridization, we identified sequences in Java 9 that were homologous to a Y. enterocolitica strain carrying the transposon Tn2502, which is known to encode arsenic resistance. Here we demonstrate that Java 9 exhibits high levels of arsenic and arsenite resistance mediated by a novel promiscuous class II transposon, named Tn2503. Arsenic resistance was self-transmissible from Java 9 to other Y. pestis strains via conjugation. Genomic analysis of the atypical plasmid inventory of Java 9 identified pCD and pPCP plasmids of atypical size and two previously uncharacterized cryptic plasmids. Unlike the Tn2502-mediated arsenic resistance encoded on the Y. enterocolitica virulence plasmid; the resistance loci in Java 9 are found on all four indigenous plasmids, including the two novel cryptic plasmids. This unique mobilome introduces more than 105 genes into the species gene pool. The majority of these are encoded by the two entirely novel self-transmissible plasmids, which show partial homology and synteny to other enterics. In contrast to the reductive evolution in Y. pestis, this study underlines the major impact of a dynamic mobilome and lateral acquisition in the genome evolution of the plague bacterium.     

Loss of a biofilm-inhibiting glycosyl hydrolase during the emergence of Yersinia pestis

Yersinia pestis, the bacterial agent of plague, forms a biofilm in the foregut of its flea vector to produce a transmissible infection. The closely related Yersinia pseudotuberculosis, from which Y. pestis recently evolved, can colonize the flea midgut but does not form a biofilm in the foregut. Y. pestis biofilm in the flea and in vitro is dependent on an extracellular matrix synthesized by products of the hms genes; identical genes are present in Y. pseudotuberculosis. The Yersinia Hms proteins contain functional domains present in Escherichia coli and Staphylococcus proteins known to synthesize a poly-beta-1,6-N-acetyl-D-glucosamine biofilm matrix. In this study, we show that the extracellular matrices (ECM) of Y. pestis and staphylococcal biofilms are antigenically related, indicating a similar biochemical structure. We also characterized a glycosyl hydrolase (NghA) of Y. pseudotuberculosis that cleaved beta-linked N-acetylglucosamine residues and reduced biofilm formation by staphylococci and Y. pestis in vitro. The Y. pestis nghA ortholog is a pseudogene, and overexpression of functional nghA reduced ECM surface accumulation and inhibited the ability of Y. pestis to produce biofilm in the flea foregut. Mutational loss of this glycosidase activity in Y. pestis may have contributed to the recent evolution of flea-borne transmission.     

Temperature-dependent variations and intraspecies diversity of the structure of the lipopolysaccharide of Yersinia pestis

Yersinia pestis spread throughout the Americas in the early 20th century, and it occurs predominantly as a single clone within this part of the world. However, within Eurasia and parts of Africa there is significant diversity among Y. pestis strains, which can be classified into different biovars (bv.) and/or subspecies (ssp.), with bv. orientalis/ssp. pestis most closely related to the American clone. To determine one aspect of the relatedness of these different Y. pestis isolates, the structure of the lipopolysaccharide (LPS) of four wild-type and one LPS-mutant Eurasian/African strains of Y. pestis was determined, evaluating effects of growth at mammalian (37 degrees C) or flea (25 degrees C) temperatures on the structure and composition of the core oligosaccharide and lipid A. In the wild-type clones of ssp. pestis, a single major core glycoform was synthesized at 37 degrees C whereas multiple core oligosaccharide glycoforms were produced at 25 degrees C. Structural differences occurred primarily in the terminal monosaccharides. Only tetraacyl lipid A was made at 37 degrees C, whereas at 25 degrees C additional pentaacyl and hexaacyl lipid A structures were produced. 4-Amino-4-deoxyarabinose levels in lipid A increased with lower growth temperatures or when bacteria were cultured in the presence of polymyxin B. In Y. pestis ssp. caucasica, the LPS core lacked D-glycero-D-manno-heptose and the content of 4-amino-4-deoxyarabinose showed no dependence on growth temperature, whereas the degree of acylation of the lipid A and the structure of the oligosaccharide core were temperature dependent. A spontaneous deep-rough LPS mutant strain possessed only a disaccharide core and a slightly variant lipid A. The diversity and differences in the structure of the Y. pestis LPS suggest important contributions of these variations to the pathogenesis of this organism, potentially related to innate and acquired immune recognition of Y. pestis and epidemiologic means to detect, classify, control and respond to Y. pestis infections.     

Nerve growth factor receptor (NGFR) immunoreactivity in skeletal muscles of the rat.

The peroxidase-antiperoxidase (PAP) method, and a specific monoclonal antibody (192-IgG) were used to determine the localization of nerve growth factor receptor (NGFr) in the skeletal muscles of the adult rats. The rectus femoris and the gastrocnemius (medialis and lateralis) muscles were analyzed. Occurrence of NGFr immunoreactivity was observed in: 1) a subpopulation of myelinated nerve fibers within muscle nerve trunks; 2) the vascular adventitia and nerve-like profiles around the blood vessels; 3) the outer capsule and the surface of the intrafusal muscle fibers of muscle spindles. Conversely, images, suggesting the presence of NGFr on muscle fibers or in motor end-plates, were not found. Our results suggest the presence of NGF-binding sites in sensory and sympathetic nerve fibers, and/or their target tissues localized on the skeletal muscles of the rat, whereas the motor nerve fibers lack of NGFr. The dependence of sympathetic neurons, proprioceptive primary sensory neurons, and motoneurons innervating the mammalian muscles upon NGF or other neurotrophic factors is discussed.     

The significance of pesticin 1 for the virulence and immunogenicity of Yersinia pestis]

The work deals with the study of the virulent and immunogenic properties of Y. pestis strains which lost their capacity for producing pesticine 1 as the result of the insertion of a Tn-like element into the 6-MD plasmid responsible for this property. The "switching-off" of gene pst induced a decrease in the virulence of Y. pestis injected subcutaneously into white mice and guinea pigs and had no influence on its level of immunogenicity for white mice. A suggestion was made that pesticine 1 played no essential role in the expression of the virulence and immunogenicity of Y. pestis penetrating into the body by subcutaneous route.