Attachment of Mycoplasma hominis and M. orale to Human Diploid Lung Fibroblasts

The process of attachment of Mycoplasma hominis and M. orale to HAIN-55 cells, derived from normal embryonic human lung, was investigated quantitatively. The attachment reached its maximum within about 2–4 hr at 37 C and increased linearly as a function of the number of organisms present in the system. The relative attachment efficiency of M. hominis was approximately 1% under our experimental conditions. Trypsin and EDTA were effective in detaching particles of M. hominis and M. orale from the surfaces of HAIN-55 cells. Therefore it was suggested that some proteinaceous substance and salt bridges might be involved in the attachment of these mycoplasmas to HAIN-55 cells.     

Characterization of Human Matrilin-3 (MATN3)

We have isolated a cDNA clone for human matrilin-3 from a cartilage-specific cDNA library. The polypeptide predicted from the nucleotide sequence of this clone shared 83% identity with matrilin-3 from mouse and 61% with that from chicken. It was composed of 486 amino acid residues that were arranged in seven domains: a signal peptide, a von Willebrand factor A domain, four EGF repeats, and an α-helical region. The gene for human matrilin-3 (MATN3) was assigned to chromosome region 2p24–p23. The corresponding mRNA of 2.8 kb was expressed in every type of cartilage investigated thus far. It was also producedin vitroby primary chondrocytes isolated from articular cartilage. However, dedifferentiated chondrocytes of the third passage did not express it at all. Matrilin-3 might therefore serve as a marker for the differentiation state of chondrocytes.     

Newly Identified HNP‐F from Human Neutrophil Peptide‐1 Promotes Hemostasis

Active hemostatic agents can play a crucial role in saving patients’ lives during surgery. Active hemostats have several advantages including utilization of natural blood coagulation and biocompatibility. Among them, although human neutrophil peptide‐1 (HNP‐1) has been previously reported with the hemostatic mechanism, which part of HNP‐1 facilitates the hemostatic activity is not known. Here, a partial peptide (HNP‐F) promoting hemostasis, originating from HNP‐1, has been newly identified by the blood coagulation ability test. HNP‐F shows the best hemostatic effect between the anterior half and posterior half of peptides. Moreover, microscopic images show platelet aggregation and an increase in the concentration of platelet factor 4, and the scanning electron microscope image of platelets support platelet activation by HNP‐F. Thromboelastography indicates decreased clotting time and increased physical properties of blood clotting. Mouse liver experiments demonstrate improved hemostatic effect by treatment of peptide solution. Cell viability and hemolysis assays confirm the HNP‐F's biosafety. It is hypothesized that the surface charge and structure of HNP‐F could be favorable to interact with fibrinogen or thrombospondin‐1. Collectively, because HNP‐F as an active peptide hemostat has many advantages, it could be expected to become a potent hemostatic biomaterial, additive or pharmaceutical candidate for various hemostatic applications.     

Essentiality of a Newly Identified Carbohydrate-Binding Module for the Function of CelB (BH0603) from the Alkaliphilic Bacterium Bacillus halodurans

CelB (BH0603) from Bacillus halodurans is a modular glycoside hydrolase with a family 5 catalytic module, an immunoglobulin-like module, and module PfamB of unknown function. The recombinant PfamB module bound to Avicel and was essential for CelB hydrolytic function. We propose that module PfamB be designated a new carbohydrate-binding module.     

Isolation and Characterization of 3-(3-Amino-3-Carboxypropyl)Uridine from Human Urine

Abstract

A new modified nucleoside, 3-(3-amino-3-carboxypropyl)-uridine was isolated from a 24 hour collection of a normal human urine. The structure was assigned on the basis of UV, NMR and mass spectrometry data and confirmed by comparison of the spectral data and HPLC mobilities with those of an authentic sample. Origin and significance of this nucleoside in relation to tRNA is discussed. The new nucleoside is present also in the urine of cancer patients but in smaller amounts.     

Structural and enzymological characterization of the homogeneous deoxyribonucleic acid polymerase from Mycoplasma orale.

We have purified the DNA polymerase from Mycoplasma orale to homogeneity. The protein structure of the enzyme was declined by sodium dodecyl sulfate gel electrophoresis, which revealed a single band of 116 000 daltons that was coincident with the polymerase activity profile in the final step of DNA--cellulose chromatography, and by two-dimensional gel analysis, which demonstrated a single protein species at pI = 6.8 that was congruent with enzyme activity and contained the same 116 000 polypeptide. although severe enzyme aggregation occurs during nondenaturing gel electrophoresis, a monomer species can be resolved with a Mr of 140 000 by the Ferguson plot analysis. Gel filtration and velocity gradient centrifugation yield a Stokes radius of 4.8 nm and a sedimentation coefficient of 5.6 S, respectively, from which Mr values of 106 000--128 000 can be computed. The different size values suggest that the polymerase molecule is asymmetric. The purified enzyme has a specific activity of approximately 6 x 10(5) units/mg of protein and in completely devoid of exodeoxyribonuclease and endodeoxyribonuclease activities, at exclusion limits of 10(-4)--10(-6%) of the polymerase activity. The mechanism of polymerization is moderately processive, with an average of 14 +/- 4 nucleotides incorporated per binding event, and the "effective template length" on activated DNA is approximately 40 nucleotides.     

Complete Genome Sequence of a Newly Identified Porcine Astrovirus Genotype 3 Strain US-MO123

Astrovirus (AstV) infections are among the most common causes of gastroenteritis and are also associated with extraintestinal manifestations in humans and many animals. Herein, for the first time, the complete genome sequence of newly identified porcine astrovirus genotype 3 (PAstV3) strain US-MO123 was determined. Sequence comparison and phylogenetic analysis showed that PAstV3 has the closest relationship with mink AstV and the human AstV strains VA1, VA2, and SG, indicating the same ancestral origin and zoonotic potential of the virus.     

Functional Characterization of a Newly Identified Group B Streptococcus Pullulanase Eliciting Antibodies Able to Prevent Alpha-Glucans Degradation

Streptococcal pullulanases have been recently proposed as key components of the metabolic machinery involved in bacterial adaptation to host niches. By sequence analysis of the Group B Streptococcus (GBS) genome we found a novel putative surface exposed protein with pullulanase activity. We named such a protein SAP. The sap gene is highly conserved among GBS strains and homologous genes, such as PulA and SpuA, have been described in other pathogenic streptococci. The SAP protein contains two N-terminal carbohydrate-binding motifs, followed by a catalytic domain and a C-terminal LPXTG cell wall-anchoring domain. In vitro analysis revealed that the recombinant form of SAP is able to degrade α-glucan polysaccharides, such as pullulan, glycogen and starch. Moreover, NMR analysis showed that SAP acts as a type I pullulanase. Studies performed on whole bacteria indicated that the presence of α-glucan polysaccharides in culture medium up-regulated the expression of SAP on bacterial surface as confirmed by FACS analysis and confocal imaging. Deletion of the sap gene resulted in a reduced capacity of bacteria to grow in medium containing pullulan or glycogen, but not glucose or maltose, confirming the pivotal role of SAP in GBS metabolism of α-glucans. As reported for other streptococcal pullulanases, we found specific anti-SAP antibodies in human sera from healthy volunteers. Investigation of the functional role of anti-SAP antibodies revealed that incubation of GBS in the presence of sera from animals immunized with SAP reduced the capacity of the bacterium to degrade pullulan. Of interest, anti-SAP sera, although to a lower extent, also inhibited Group A Streptococcus pullulanase activity. These data open new perspectives on the possibility to use SAP as a potential vaccine component inducing functional cross-reacting antibodies interfering with streptococcal infections.     

Characterization of an IS element in Mycoplasma orale that is highly homologous to M. fermentans ISLE

In a previous study, using a primer set designed from Mycoplasma fermentans, we amplified a PCR fragment from Mycoplasma orale similar to the 206-bp DNA fragment amplified from M. fermentans insertion-sequence-like element (ISLE). The presence of this similar ISLE fragment has the potential to cause confusion in the PCR diagnosis of M. fermentans and M. orale, which have significantly different clinical scenarios. An ISLE from three different M. orale strains was amplified by using a primer set designed from sequence within the left and right terminal stem and loop (S&L) structures flanking the ISLE of M. fermentans. Sequence analysis showed that the M. orale ISLE is 93% identical to that of M. fermentans at the nucleotide level and codes for two open reading frames also found in the M. fermentans ISLE. This is the first finding that two different mycoplasma species harbor highly homologous IS elements. This finding has great significance in clinical diagnosis and suggests a possibility of horizontal transfer of an IS element between two different mycoplasma species.     

Characterization of a Mycoplasma hominis gene encoding lysyl-tRNA synthetase (LysRS)

Abstract The gene encoding lysyl-tRNA synthetase ( lysS ) in Mycoplasma hominis was cloned and sequenced. The gene was found to have an open reading frame of 1466 bp encoding a polypeptide with a predicted molecular mass of 57 kDa. The amino acid sequence showed 44.3% and 43.7% identity to the Escherichia coli lysyl-tRNA synthetases, encoded by lysS and lysU . Only one lysyl-tRNA synthetase encoding gene was found in M. hominis . The G+C content of the gene was found to be 28.6%, which is significantly lower than in other prokaryotes. The gene was located 4 kb upstream of the M. hominis PG21 rRNA B operon.     

Elimination of Mycoplasma orale from the human hepatoma cell line, PLC/PRF/5

We have tried without success to eliminate M. orale from a human hepatoma line, PLC/PRF/5, using five different methods. We report here the successful elimination of the contamination by a modification of the technique of Marcus et al. [1] using 5-bromodeoxy-uridine (BrdU) instead of 5-bromo-uracil (5-BrUra) and light. We believe that this method may prove useful when rare and valuable cell lines carry the more common mycoplasma contaminant M. orale.     

Characterization of a Newly Identified 35-Amino-Acid Component of the Vaccinia Virus Entry/Fusion Complex Conserved in All Chordopoxviruses

The original annotation of the vaccinia virus (VACV) genome was limited to open reading frames (ORFs) of at least 65 amino acids. Here, we characterized a 35-amino-acid ORF (O3L) located between ORFs O2L and I1L. ORFs similar in length to O3L were found at the same genetic locus in all vertebrate poxviruses. Although amino acid identities were low, the presence of a characteristic N-terminal hydrophobic domain strongly suggested that the other poxvirus genes were orthologs. Further studies demonstrated that the O3 protein was expressed at late times after infection and incorporated into the membrane of the mature virion. An O3L deletion mutant was barely viable, producing tiny plaques and a 3-log reduction in infectious progeny. A mutant VACV with a regulated O3L gene had a similar phenotype in the absence of inducer. There was no apparent defect in virus morphogenesis, though O3-deficient virus had low infectivity. The impairment was shown to be at the stage of virus entry, as cores were not detected in the cytoplasm after virus adsorption. Furthermore, O3-deficient virus did not induce fusion of infected cells when triggered by low pH. These characteristics are hallmarks of a group of proteins that form the entry/fusion complex (EFC). Affinity purification experiments demonstrated an association of O3 with EFC proteins. In addition, the assembly or stability of the EFC was impaired when expression of O3 was repressed. Thus, O3 is the newest recognized component of the EFC and the smallest VACV protein shown to have a function.Vaccinia virus (VACV), the best-studied member of the poxvirus family of cytoplasmic DNA viruses, encodes ∼200 genes, some of which are still uncharacterized (27). The focus of the present study is VACV O3L, a short 35-amino-acid open reading frame (ORF) that was recognized by homology to a 41-amino-acid ORF in molluscum contagiosum virus (37) but not previously investigated. Here, we show that O3L is conserved in all chordopoxviruses, expressed late in infection, and involved in cell entry.Considerable information regarding VACV entry has been obtained during the past several years (28). There are two related infectious forms of VACV: the mature virion (MV) and the enveloped virions (EV). The MV is comprised of a lipoprotein membrane enclosing a nucleoprotein core, whereas the EV has an additional outer membrane that must be disrupted before fusion can occur (24). The MV can enter cells either by fusion at the plasma membrane (7) or by a low-pH-mediated endosomal route involving macropinocytosis (20, 26, 44). Regardless of which route is used, the ability of VACV to enter cells depends on a large number of proteins in the MV membrane that form or are associated with the entry/fusion complex (EFC) (39). Using genetic and biochemical methods, 11 entry/fusion proteins have been identified: A16 (33), A21 (43), A28 (40), F9 (4), G3 (21), G9 (32), H2 (38), I2 (31), J5 (39), L1 (3), and L5 (42). Eight of these proteins (A16, A21, A28, G3, G9, H2, J5, and L5) comprise the EFC, which depends on multiple interactions for assembly or stability. Although the structure of the EFC remains to be elucidated, there is evidence for direct interactions between A28 and H2 (30) and between A16 and G9 (50). An additional role for A16 and G9 involves an interaction with the A56/K2 heterodimer, which is present on the surface of infected cells, to prevent spontaneous cell-cell fusion and superinfection by progeny virus (45, 46, 48-50). Binding of L1 to an unidentified cell receptor has been suggested (16). Roles in membrane fusion have also been considered for A17 and A27 (23).Here we provide physical and functional evidence that O3 (VACWR069.5) is an integral component of the EFC and participates in virus entry and membrane fusion. With just 35 amino acids, O3 is the smallest VACV protein with a defined function.     

Functional Characterization of Osmotically Inducible Protein C (MG_427) from Mycoplasma genitalium

Mycoplasma genitalium is the smallest self-replicating bacterium and an important human pathogen responsible for a range of urogenital infections and pathologies. Due to its limited genome size, many genes conserved in other bacteria are missing in M. genitalium. Genes encoding catalase and superoxide dismutase are absent, and how this pathogen overcomes oxidative stress remains poorly understood. In this study, we characterized MG_427, a homolog of the conserved osmC, which encodes hydroperoxide peroxidase, shown to protect bacteria against oxidative stress. We found that recombinant MG_427 protein reduced organic and inorganic peroxide substrates. Also, we showed that a deletion mutant of MG_427 was highly sensitive to killing by tert-butyl hydroperoxide and H₂O₂ compared to the sensitivity of the wild type. Further, the fully complemented mutant strain reversed its oxidative sensitivity. Examination of the expression pattern of MG_427 during osmotic shock, oxidative stress, and other stress conditions revealed its lack of induction, distinguishing MG_427 from other previously characterized osmC genes.     

Characterization of Mycoplasma Strains from Cats

Mycoplasma strains (B1, B2, CS, and S1A) were isolated from the saliva of normal cats. These were compared with a strain (CO) isolated from the eye of a cat with severe conjunctivitis. On the basis of morphology, biochemical reactions, and antigenic composition, two distinct species were recognizable. Strains CO, B1, and B2 were antigenically unrelated to the other species tested; strains CS and S1A possessed antigenic components in common with Mycoplasma arthritidis, M. salivarium, M. hominis, type 1, and M. orale, types 1 and 2. It was tentatively suggested that the two cat species be called M. felis and M. gateae, respectively.     

Peptide Ligands to Human Immunodeficiency Virus Type 1 gp120 Identified from Phage Display Libraries

We have used phage-displayed peptide libraries to identify novel ligands to the human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein gp120. Screening of libraries of random 12-mers, 7-mers, and cyclic 9-mers produced two families of gp120 binding peptides. Members of a family with the prototype sequence RINNIPWSEAMM (peptide 12p1) inhibit the interaction between gp120 and both four-domain soluble CD4 (4dCD4) and monoclonal antibody (MAb) 17b, a neutralizing antibody that covers the chemokine receptor binding surface on gp120. Peptide 12p1 inhibits the interaction of 4dCD4 with gp120 from three different HIV strains, implying that it binds to a conserved site on gp120. Members of a second family of peptides, with the prototype sequence TSPYEDWQTYLM (peptide 12p2), bind more weakly to gp120. They do not detectably affect its interaction with 4dCD4, but they enhance its binding to MAb 17b. A common sequence motif in the two peptide families and cross-competition for gp120 binding suggest that they have overlapping contacts. Their divergent effects on the affinity of gp120 for MAb 17b may indicate that their binding stabilizes distinct conformational states of gp120. The functional properties of 12p1 suggest that it might be a useful lead for the development of inhibitors of HIV entry.     

Characterization of a NO(3)-Sensitive H-ATPase from Corn Roots

When assayed in the presence of azide, NO₃⁻ was shown to be a specific inhibitor of a proton-translocating ATPase present in corn (Zea mays L. cv WF9 × M017) root microsomal membranes. The distribution of the NO₃⁻-sensitive ATPase on sucrose gradients and its general characteristics are similar to those previously reported for the anion-stimulated H⁺-ATPase of corn roots believed to be of tonoplast origin. An ATPase inhibited by 20 μm vanadate and insensitive to molybdate was also identified in corn root microsomal membranes which could be largely separated from the NO₃⁻-sensitive ATPase on sucrose gradients and is believed to be of plasma membrane origin. Inasmuch as both ATPase most likely catalyze the efflux of H⁺ from the cytoplasm, our objective was to characterize and compare the properties of both ATPases under identical experimental conditions. The vanadate-sensitive ATPase was stimulated by cations (K⁺ > NH₄⁺ > Rb⁺ > Cs⁺ > Li⁺ > Na⁺ > choline⁺) whereas the NO₃⁻-sensitive ATPase was stimulated by anions (Cl⁻ > Br⁻ > C₂H₃O₂⁻ > SO₄²⁻ > I⁻ > HCO₃⁻ > SCN⁻). Both ATPases required divalent cations. However, the order of preference for the NO₃⁻-sensitive ATPase (Mn²⁺ > Mg²⁺ > Co²⁺ > Ca²⁺ > Zn²⁺) differed from that of the vanadate-sensitive ATPase (Co²⁺ > Mg²⁺ > Mn²⁺ > Zn²⁺ > Ca²⁺). The vanadate-sensitive ATPase required higher concentrations of Mg:ATP for full activity than did the NO₃⁻-sensitive ATPase. The kinetics for Mg:ATP were complex for the vanadate-sensitive ATPase, indicating positive cooperativity, but were simple for the NO₃⁻-sensitive ATPase. Both ATPases exhibited similar temperature and pH optima (pH 6.5). The NO₃⁻-sensitive ATPase was stimulated by gramicidin and was associated with NO₃⁻-inhibitable H⁺ transport measured as quenching of quinacrine fluorescence. It was insensitive to molybdate, azide, and vanadate, but exhibited slight sensitivity to ethyl-3-(3-dimethylaminopropyl carbodiimide) and mersalyl. Overall, these results indicate several properties which distinguish these two ATPases and suggest that under defined conditions NO₃⁻-sensitive ATPase activity may be used as a quantitative marker for those membranes identified tentatively as tonoplast in mixed or nonpurified membrane fractions. We feel that NO₃⁻ sensitivity is a better criterion by which to identify this ATPase than either Cl⁻ stimulation or H⁺ transport because it is less ambiguous. It is also useful in identifying the enzyme following solubilization.     

Characterization of Recombinant Integrase of Human Immunodeficiency Virus Type 1 (Isolate Bru)

Integration of the human immunodeficiency virus type 1 (HIV-1) DNA into the human genome requires the virusencoded integrase protein. The recombinant integrase protein of HIV-1 (isolate Bru) was prepared by constructing a plasmid based on pET-15b encoding the integrase gene. Integrase of HIV-1 was purified using a bacterial expression system (Escherichia coli). The main kinetic parameters of HIV-1 integrase (K _m = (3.7 ± 0.2)·10^–10 M, k _cat = (1.2 ± 0.3)·10^–7 sec^–1) were determined using an oligonucleotide duplex constructed on the basis of the U5-terminal sequence of proviral HIV-1 DNA as the substrate. Inhibition of integrase by aurintricarbonic acid ([I]₅₀ = 6.3 ± 0.4 M) and dependence of integrase activity on Mg²⁺ and Mn²⁺ concentration were studied.     

Identification of Tenrec ecaudatus,a Wild Mammal Introduced to Mayotte Island,as a Reservoir of the Newly Identified Human Pathogenic Leptospira mayottensis

Leptospirosis is a bacterial zoonosis of major concern on tropical islands. Human populations on western Indian Ocean islands are strongly affected by the disease although each archipelago shows contrasting epidemiology. For instance, Mayotte, part of the Comoros Archipelago, differs from the other neighbouring islands by a high diversity of Leptospira species infecting humans that includes Leptospira mayottensis, a species thought to be unique to this island. Using bacterial culture, molecular detection and typing, the present study explored the wild and domestic local mammalian fauna for renal carriage of leptospires and addressed the genetic relationships of the infecting strains with local isolates obtained from acute human cases and with Leptospira strains hosted by mammal species endemic to nearby Madagascar. Tenrec (Tenrec ecaudatus, Family Tenrecidae), a terrestrial mammal introduced from Madagascar, is identified as a reservoir of L. mayottensis. All isolated L. mayottensis sequence types form a monophyletic clade that includes Leptospira strains infecting humans and tenrecs on Mayotte, as well as two other Malagasy endemic tenrecid species of the genus Microgale. The lower diversity of L. mayottensis in tenrecs from Mayotte, compared to that occurring in Madagascar, suggests that L. mayottensis has indeed a Malagasy origin. This study also showed that introduced rats (Rattus rattus) and dogs are probably the main reservoirs of Leptospira borgpetersenii and Leptospira kirschneri, both bacteria being prevalent in local clinical cases. Data emphasize the epidemiological link between the two neighbouring islands and the role of introduced small mammals in shaping the local epidemiology of leptospirosis.