Formaldehyde activation factor, tetrahydromethanopterin, a coenzyme of methanogenesis

An oxygen-labile formaldehyde activation factor (FAF) was isolated in highly purified form by use of anoxic fractionation procedures. The molecular weight of FAF was determined to be 776 and that of methanopterin (MPT) 772 by fast-atom-bombardment mass spectrometry (FABMS). High-resolution FABMS measurements on MPT and FAF indicated molecular formulas of C(30)H(41)N(6)O(16)P and C(30)H(45)N(6)O(16)P, respectively. The presence of phosphorus was confirmed by 100-MHz (31)P NMR. The 360-MHz (1)H NMR spectrum of FAF in deuterium oxide was similar to that of MPT. A functional relationship between MPT and FAF was documented; both compounds stimulated the reductive demethylation of 2-(methylthio)ethanesulfonic acid (CH(3)-S-CoM) to CH(4) when formaldehyde oxidation provided a source of electrons, and FAF replaced MPT in the CH(3)-S-CoM-stimulated conversion of CO(2) to CH(4) under H(2) (the RPG effect). MPT was enzymically converted to FAF during the reduction of CH(3)-S-CoM, and HCHO to CH(4) under H(2). Evidence indicates that FAF is tetrahydromethanopterin.

In the absence of Lgt, lipoproteins are shed from Streptococcus uberis independently of Lsp

The role of lipoprotein diacylglyceryl transferase (Lgt) and lipoprotein signal peptidase (Lsp) responsible for processing lipoproteins was investigated in Streptococcus uberis, a common cause of bovine mastitis. In the absence of Lgt, three lipoproteins [MtuA (SUB0473), Hap (SUB1625) and an extracellular solute-binding protein (SUB0365)] were detected in extracellular locations. All were shown by Edman degradation analysis to be cleaved on the carboxy side of the LXXC lipobox. Detection of MtuA, a lipoprotein shown previously to be essential for infectivity and virulence, was used as a surrogate lipoprotein marker to locate and assess processing of lipoproteins. The absence of Lgt did not prevent location of MtuA to the cell membrane, its location in the wild-type strain but, in contrast to the situation with wild-type, did result in a widespread location of this protein. In the absence of both Lgt and Lsp, MtuA was similarly released from the bacterial cell. In such strains, however, the cell-associated MtuA represented the full-length gene product, indicating that Lsp was able to cleave non-lipidated (lipo)proteins but was not responsible for their release from this bacterium.

Field observations on the variation of Streptococcus uberis populations in a pasture-based dairy farm

Microbiological and molecular tools were used to monitor Streptococcus uberis populations on farm tracks and paddocks on a dairy farm during different seasons of a year to identify and profile potential environmental niches of Strep. uberis in a pasture-based dairying system. Farm tracks of high or low cow traffic were sampled every 2 wk for an entire year and Strep. uberis numbers were enumerated from a selective medium. During each season of the year, paddocks were sampled for the presence of Strep. uberis before and after grazing by dairy cows. Farm tracks of high cow traffic generally had greater concentrations of Strep. uberis isolated compared with tracks with less cow traffic, but there was also significant variation in the concentrations of Strep. uberis contamination among seasons, being highest in winter and lowest in summer. The bacterium was detected in paddocks only after cow grazing had occurred, but the bacteria could still be detected in soil for up to 2 wk following grazing in winter. Multilocus sequence typing showed great heterogeneity, with some commonality between farm track and milk isolates, which may help explain cow-to-environment or environment-to-cow transmission of the bacterium in the dairy setting.

Complete genome sequence of the genetically tractable hydrogenotrophic methanogen Methanococcus maripaludis

The genome sequence of the genetically tractable, mesophilic, hydrogenotrophic methanogen Methanococcus maripaludis contains 1,722 protein-coding genes in a single circular chromosome of 1,661,137 bp. Of the protein-coding genes (open reading frames [ORFs]), 44% were assigned a function, 48% were conserved but had unknown or uncertain functions, and 7.5% (129 ORFs) were unique to M. maripaludis. Of the unique ORFs, 27 were confirmed to encode proteins by the mass spectrometric identification of unique peptides. Genes for most known functions and pathways were identified. For example, a full complement of hydrogenases and methanogenesis enzymes was identified, including eight selenocysteine-containing proteins, with each being paralogous to a cysteine-containing counterpart. At least 59 proteins were predicted to contain iron-sulfur centers, including ferredoxins, polyferredoxins, and subunits of enzymes with various redox functions. Unusual features included the absence of a Cdc6 homolog, implying a variation in replication initiation, and the presence of a bacterial-like RNase HI as well as an RNase HII typical of the Archaea. The presence of alanine dehydrogenase and alanine racemase, which are uniquely present among the Archaea, explained the ability of the organism to use L- and D-alanine as nitrogen sources. Features that contrasted with the related organism Methanocaldococcus jannaschii included the absence of inteins, even though close homologs of most intein-containing proteins were encoded. Although two-thirds of the ORFs had their highest Blastp hits in Methanocaldococcus jannaschii, lateral gene transfer or gene loss has apparently resulted in genes, which are often clustered, with top Blastp hits in more distantly related groups.

Localization of MtuA, an LraI homologue in Streptococcus uberis

AIMS

To determine the localization of MtuA, an LraI lipoprotein within Streptococcus uberis and assess whether the protein was able to induce an antibody response capable of growth inhibition.

METHODS AND RESULTS

Immunoblots and ELISAs were performed on S. uberis cell fractions to localize the protein. The strongest reactivity was within the membrane-enriched fraction. Electron micrographs also showed labelling consistent with a location within the membrane. Specific antibodies from both rabbits and calves were unable to inhibit the growth of S. uberis in milk. In addition, MtuA was not detectable in a whole-cell ELISA and whole bacterial cells were unable to adsorb specific antibodies from antiserum raised against MtuA.

CONCLUSIONS

The MtuA protein appears to be located within the cell membrane and is not on the bacterial surface and thus not available for interaction with potentially growth-inhibiting antibodies.

SIGNIFICANCE AND IMPACT OF THE STUDY

Unlike PsaA of S. pneumoniae and MtsA of S. pyogenes, MtuA of S. uberis does not appear to be located at the cell surface. Therefore, in contrast to studies with other similar proteins, MtuA is unlikely to be a good vaccine candidate.

Identification of a differentially expressed oligopeptide binding protein (OppA2) in Streptococcus uberis by representational difference analysis of cDNA

Streptococcus uberis is an increasingly significant cause of intramammary infection in the dairy cow, presently responsible for approximately 33% of all cases of bovine mastitis in the United Kingdom. Following experimentally induced infection of the lactating mammary gland, S. uberis is found predominantly in the luminal areas of secretory alveoli and ductular tissue, indicating that much of the bacterial growth occurs in residual and newly synthesized milk. With the objective of identifying potential virulence determinants in a clinical isolate of S. uberis, we have used representational difference analysis of cDNA to identify genes that show modified expression in milk. We have identified a number of differentially expressed genes that may contribute to the overall pathogenicity of the organism. Of these, a transcript encoding a putative oligopeptide binding protein (OppA) was further characterized. We have found that S. uberis possesses two oppA-like open reading frames, oppA1 and oppA2, which are up-regulated to different degrees following growth in milk. Mutants lacking either oppA1 or oppA2 are viable and have an increased resistance to the toxic peptide derivative aminopterin; however, only mutants lacking oppA1 display a lower rate of growth in milk. In addition, expression of the oppA genes appears to be coordinated by different mechanisms. We conclude that the oppA genes encode oligopeptide binding proteins, possibly displaying different specificities, required for the efficient growth of S. uberis in milk.

Isolation and characterization of a mutant strain of Streptococcus uberis, which fails to utilize a plasmin derived beta-casein peptide for the acquisition of methionine

AIMS

To isolate and characterize a mutant of Streptococcus uberis strain 0140J which fails to utilize a plasmin derived beta-casein peptide for the acquisition of methionine.

METHODS AND RESULTS

Random insertional mutagenesis was used to isolate a mutant strain of Strep. uberis 0140J which was unable to utilize methionine from within a casein-derived peptide. The altered gene in the mutant strain showed homology to an oligopeptide permease gene of Streptococcus pyogenes (oppF). The mutant was unable to obtain specific amino acids from defined peptides of various lengths and its growth yield in skimmed milk was between 1 and 10% that of the wild-type strain, but was restored following the inclusion of these amino acids.

CONCLUSIONS

The oligopeptide permease homologue of Strep. uberis 0140J is necessary for the utilization of amino acids from within specific peptides. Efficient acquisition of essential amino acids by Strep. uberis 0140J is required for the bacterium to achieve an optimum yield in milk.

SIGNIFICANCE AND IMPACT OF THE STUDY

Streptococcus uberis is a major agent of bovine mastitis with a corresponding high economic loss. By targeting metabolic pathways essential to the growth of Strep. uberis it may be possible to prevent the establishment of growth of the bacterium in milk. This study has identified the acquisition of essential amino acids as playing a role in the growth of Strep. uberis in milk.

Vaccines against bovine mastitis due to Streptococcus uberis current status and future prospects

The prevalence of bovine mastitis in the UK has been reduced over the past twenty five years due to the implementation of a five-point control plan aimed at reducing exposure, duration and transmission of intramammary infections by bacteria. This has markedly reduced the incidence of bovine mastitis caused by bacteria which show a contagious route of transmission but has had little effect on the incidence of mastitis due to bacteria which infect the gland from an environmental reservoir. Streptococcus uberis is one such bacterium which is responsible for a significant proportion of clinical mastitis worldwide. The inadequacies of the current methods of mastitis control have led to the search for additional measures to prevent intramammary infection by this bacterium. A live vaccine in combination with an intramammary administration of a soluble cell surface extract was shown to induce protection of the mammary gland from experimental challenge with S. uberis. Protection was strain specific, but was achieved in the absence of opsonic activity and without a large influx of neutrophils. One hypothesis is that protection was achieved by reducing the rate of bacterial growth in vivo. This view has led to the identification and exploitation of a novel plasminogen activator as a vaccine antigen. Vaccines containing this antigen conferred cross strain protection.

Ammonia switch-off of nitrogen fixation in the methanogenic archaeon Methanococcus maripaludis: mechanistic features and requirement for the novel GlnB homologues, NifI(1) and NifI(2)

Ammonia switch-off is the immediate inactivation of nitrogen fixation that occurs when a superior nitrogen source is encountered. In certain bacteria switch-off occurs by reversible covalent ADP-ribosylation of the dinitrogenase reductase protein, NifH. Ammonia switch-off occurs in diazotrophic species of the methanogenic Archaea as well. We showed previously that in Methanococcus maripaludis switch-off requires at least one of two novel homologues of glnB, a family of genes whose products play a central role in nitrogen sensing and regulation in bacteria. The novel glnB homologues have recently been named nifI(1) and nifI(2). Here we use in-frame deletions and genetic complementation analysis in M. maripaludis to show that the nifI(1) and nifI(2) genes are both required for switch-off. We could not detect ADP-ribosylation or any other covalent modification of dinitrogenase reductase during switch-off, suggesting that the mechanism differs from the well-studied bacterial system. Furthermore, switch-off did not affect nif gene transcription, nifH mRNA stability, or NifH protein stability. Nitrogenase activity resumed within a short time after ammonia was removed from a switched-off culture, suggesting that whatever the mechanism, it is reversible. We demonstrate the physiological importance of switch-off by showing that it allows growth to accelerate substantially when a diazotrophic culture is switched to ammonia.

Identification and disruption of two discrete loci encoding hyaluronic acid capsule biosynthesis genes hasA, hasB, and hasC in Streptococcus uberis

The hyaluronic acid capsule of Streptococcus uberis has been implicated in conferring resistance to phagocytosis by bovine neutrophils. Construction of a bank of random insertion mutants of S. uberis (strain 0140J) was achieved using the pGh9::ISS1 mutagenesis system (22). Phenotypic screening of approximately 5,000 clones enabled the isolation of 11 acapsular mutants. Southern hybridization indicated that two mutants carried a lesion within a group of genes similar to those involved in the assembly of the hyaluronic acid capsule found in the group A Streptococcus (GAS) has operon. The DNA sequence flanking the points of insertion confirmed the presence of homologues of GAS hasA and hasB in S. uberis. The DNA sequence flanking the ISS1 insertion in another mutant identified a homologue of hasC in S. uberis. The GAS hasABC operon structure was not conserved in S. uberis, and two discrete loci comprising homologues of either hasAB or hasC were identified. Disruption of S. uberis hasA or hasC resulted in the complete cessation of hyaluronic acid capsule production. Correspondingly, these mutants were found to have lost their resistance to phagocytosis by bovine neutrophils. The bactericidal action of bovine neutrophils on S. uberis 0140J was shown unequivocally to depend upon the capsule status of the bacterium.

Nitrogen fixation in methanogens: the archaeal perspective

The methanogenic Archaea bring a broadened perspective to the field of nitrogen fixation. Biochemical and genetic studies show that nitrogen fixation in Archaea is evolutionarily related to nitrogen fixation in Bacteria and operates by the same fundamental mechanism. At least six nif genes present in Bacteria (nif H, D, K, E, N and X) are also found in the diazotrophic methanogens. Most nitrogenases in methanogens are probably of the molybdenum type. However, differences exist in gene organization and regulation. All six known nif genes of methanogens, plus two homologues of the bacterial nitrogen sensor-regulator glnB, occur in a single operon in Methanococcus maripaludis. nif gene transcription in methanogens is regulated by what appears to be a classical prokaryotic repression mechanism. At least one aspect of regulation, post-transcriptional ammonia switch-off, involves novel members of the glnB family. Phylogenetic analysis suggests that nitrogen fixation may have originated in a common ancestor of the Bacteria and the Archaea.

Epithelial invasion and cell lysis by virulent strains of Streptococcus suis is enhanced by the presence of suilysin

Streptococcus suis is an important pathogen of pigs causing arthritis, pneumonia and meningitis and is an occupational disease of farmers and those in the meat industry. As with other streptococci, both virulent and avirulent strains of S. suis are frequently carried asymptomatically in the tonsillar crypts and nasal cavities. Little is known about the process by which virulent strains cross the mucosal epithelia to generate systemic disease and whether this process requires expression of specific bacterial virulence factors. Although putative virulence factors have been postulated, no specific role in the disease process has yet been demonstrated for these factors. This study is the first demonstration that virulent strains of S. suis both invade and lyse HEp-2 cells, a continuous laryngeal epithelial cell line, and that at least one bacterial virulence factor, suilysin, is involved in this process.

PauA: a novel plasminogen activator from Streptococcus uberis

Chromosomal DNA from two geographically distinct isolates of Streptococcus uberis was used to clone the plasminogen activator in an active form in Escherichia coli. The cloned fragments from each strain contained four potential open reading frames (ORFs). That for the plasminogen activator encoded a protein of 286 amino acids (33.4 kDa) which is cleaved between residues 25 and 26 during secretion by S. uberis. The amino acid sequence of the mature protein showed only weak homology (23.5-28%) to streptokinase. The plasminogen activator gene, pauA, in S. uberis was located between two ORFs with high homology to the DNA mismatch repair genes, hexA and hexB, and not on a DNA fragment between the genes encoding an ATP binding cassette transporter protein (abc) and a protein involved in the formation and degradation of guanosine polyphosphates (rel) as is the case for streptokinase in other streptococci.

Genetics of nitrogen regulation in Methanococcus maripaludis

We have used genetic methods in Methanococcus maripaludis to study nitrogen metabolism and its regulation. We present evidence for a "nitrogen regulon" in Methanococcus and Methanobacterium species containing genes of nitrogen metabolism that are regulated coordinately at the transcriptional level via a common repressor binding site sequence, or operator. The implied mechanism for regulation resembles the general bacterial paradigm for repression, but contrasts with well-known mechanisms of nitrogen regulation in bacteria, which occur by activation. Genes in the nitrogen regulons include those for nitrogen fixation, glutamine synthetase, (methyl)ammonia transport, the regulatory protein GlnB, and ammonia-dependent NAD synthetase, as well as a gene of unknown function. We also studied the function of two novel GlnB homologues that are encoded within the nif gene cluster of diazotrophic methanogens. The phenotype resulting from a glnB null mutation in M. maripaludis provides direct evidence that glnB-like genes are involved in "ammonia switch-off," the post-transcriptional inhibition of nitrogen fixation upon addition of ammonia. Finally, we show that the gene nifX is not required for nitrogen fixation, in agreement with findings in several bacteria. These studies illustrate the utility of genetic methods in M. maripaludis and show the enhanced perspective that studies in the Archaea can bring to known biological systems.

Streptococcus uberis: a permanent barrier to the control of bovine mastitis?

The prevalence of bovine mastitis has been reduced over the past 25 years due to the implementation of a five-point control plan aimed at reducing exposure, duration and transmission of intramammary infections by bacteria. This has markedly reduced the incidence of bovine mastitis caused by bacteria which show a contagious route of transmission, but has had little effect on the incidence of mastitis due to bacteria which infect the gland from an environmental reservoir. Streptococcus uberis is one such bacterium which is responsible for a significant proportion of clinical mastitis worldwide. The inadequacies of the current methods of mastitis control have led to the search for additional measures, particularly vaccines to prevent intramammary infection by this bacterium. Such an approach requires detailed knowledge of the pathogenesis of intramammary infection. Our understanding of this area has grown in recent years but a lack of information still hampers disease control. Both live vaccines and, recently, crude sub-unit vaccines have shown promise against bovine mastitis due to S. uberis. Vaccines against mastitis must, however, be able to control infection without the participation of a marked inflammatory response. This review provides an overview of the recent advances which have been made in our understanding of host-pathogen interactions which promote infection and disease and highlights areas for strategic research aimed at controlling this bacterial infection.

Functional conservation between the argininosuccinate lyase of the archaeon Methanococcus maripaludis and the corresponding bacterial and eukaryal genes

The argH gene encoding argininosuccinate lyase (ASL) of Methanococcus maripaludis was cloned on a 4.7-kb HindIII genomic fragment. The gene is preceded by a short open reading frame (ORF149), which encodes a polypeptide with an unknown function. The two genes are co-transcribed. The ASL of M. maripaludis shares a high amino acid identity with ASLs from both bacterial and eukaryal origins and was able to complement both an argH Escherichia coli mutant and an arg4 yeast mutant, showing its extraordinary evolutionary conservation. Attempts to create an argH auxotroph of M. maripaludis by disrupting the genomic allele were unsuccessful: although a knockout allele of argH was integrated into the M. maripaludis chromosome by homologous recombination, the intact copy was not excluded, suggesting that the argH gene is essential.

Transcriptional regulation in Archaea

Information regarding transcriptional regulation in Archaea has begun to emerge from in vivo genetic studies. Evidence to date suggests a varied repertoire of regulatory mechanisms in Archaea that invokes both bacterial and eukaryal paradigms, as well as some novel features. Overall simplicity of mechanisms may reflect the prokaryotic lifestyle. Sequencing projects suggest the existence of certain classes of regulators, but experimental verification is needed.

Vaccination with the plasminogen activator from Streptococcus uberis induces an inhibitory response and protects against experimental infection in the dairy cow

Two antigens comprising either concentrated culture filtrate containing the plasminogen activator, PauA (total antigen) or the same preparation from which PauA had been selectively removed by incubation with a PauA-specific monoclonal antibody and immobilisation on Protein-G agarose (depleted antigen) were combined with either Freund's incomplete adjuvant (FIA) or a commercially used adjuvant (SB62) and used to vaccinate dairy cows by a subcutaneous route. Immunisation of four animals with depleted antigen combined with FIA conferred no protection to mastitis following intramammary challenge with S. uberis 0140J. However, immunisation of two groups of four animals with the total antigen combined with either FIA or SB62 induced protection in 3 out of 8 and 5 out of 8 similarly challenged quarters, respectively. Protection corresponded to the production of an inhibitory antibody response to PauA.

Function and regulation of glnA in the methanogenic archaeon Methanococcus maripaludis

The glnA gene in the domains Bacteria and Archaea encodes glutamine synthetase, a universally distributed enzyme that functions in ammonia assimilation and glutamine synthesis. We investigated the regulation and function of glnA in the methanogenic archaeon Methanococcus maripaludis. The deduced amino acid sequence of the gene demonstrated its membership in class GSI-alpha of glutamine synthetases. The gene appeared to be expressed as a monocistronic operon. glnA mRNA levels and specific activities of glutamine synthetase were regulated similarly by nitrogen. Three transcription start sites were identified, corresponding to two overlapping nitrogen-regulated promoters and one weaker constitutive promoter. An inverted repeat immediately upstream of the regulated transcription start sites mediated repression under noninducing conditions. Thus, mutations that altered the sequence of the inverted repeat resulted in derepression. The inverted repeat had sequence similarity with a repeat that we previously identified as the nif operator of M. maripaludis, suggesting a common mechanism of nitrogen regulation. Efforts to produce a glnA null mutant failed, suggesting that glnA is an essential gene in M. maripaludis.

Characterization of the interaction of bovine plasmin with Streptococcus uberis

The binding of plasmin to Streptococcus uberis strain 0140 J was optimal in the pH range 5.0-5.5. Plasmin binding decreased exponentially with increasing NaCl concentration (0-0.8 mol l-1), reaching a minimum at NaCl concentrations exceeding 0.55 mol l-1. Neither K+, Mg2+ nor the metal chelator EDTA had any effect on the interaction. Plasmin binding was prevented, in a concentration-dependent manner, by the amino acids lysine, arginine and epsilon-aminocaproic acid. Bound plasmin was also eluted from the bacterial cell using the same amino acids. Bound plasmin was lost from the bacterium in a time- and temperature-dependent fashion, the rate of plasmin loss increased with increasing temperature over the range 4-55 degrees C, and the elution of plasmin from live and heat-killed bacteria was similar. Cell-bound plasmin was only partially inhibited by the physiological inhibitor alpha 2-antiplasmin whereas the serine protease inhibitor aprotinin, and the active site titrant p-nitrophenyl-p-guanidiniobenzoate, inhibited the activity of the cell-bound plasmin by more than 95%.

The interaction of Streptococcus dysgalactiae with plasmin and plasminogen

The activation of plasminogen and the binding of plasmin by bacteria may have many effects which promote infection. The occurrence of such activities in streptococci is well documented; however, these are yet to be demonstrated for S. dysgalactiae. Consequently, the ability of this bacterium to activate mammalian plasminogen and bind either plasmin or its zymogen was investigated. Activation of bovine plasminogen was dependent on both the strain and the growth medium used for cultivation. Eighteen strain were able to activate bovine and ovine plasminogen and some of these also activated plasminogen from the horse, rabbit and pig. None activated human plasminogen and one strain (CE127) did not activate plasminogen from any source. Tricine-SDS PAGE and zymographic analysis of culture supernatants showed that bovine plasminogen was activated by four out of six strains at two locations corresponding to 16 kDa and 10 kDa. Following the growth of five strains in the presence of bovine plasminogen, all but strain CE127 bound high levels of plasmin activity. In contrast, following growth in human plasminogen none of the strains exhibited bound plasmin activity although all could bind human plasmin directly. All strains were also able to bind bovine and human plasminogen in such a way as to allow its activation by urokinase. We conclude that S. dysgalactiae is capable of activating mammalian plasminogen in a species-specific fashion and that the bacterium is also capable of binding plasmin and plasminogen with an apparent preference for bovine plasmin over human plasmin and/or plasminogen from either species.

The nif gene operon of the methanogenic archaeon Methanococcus maripaludis

Nitrogen fixation occurs in two domains, Archaea and Bacteria. We have characterized a nif (nitrogen fixation) gene cluster in the methanogenic archaeon Methanococcus maripaludis. Sequence analysis revealed eight genes, six with sequence similarity to known nif genes and two with sequence similarity to glnB. The gene order, nifH, ORF105 (similar to glnB), ORF121 (similar to glnB), nifD, nifK, nifE, nifN, and nifX, was the same as that found in part in other diazotrophic methanogens and except for the presence of the glnB-like genes, also resembled the order found in many members of the Bacteria. Using transposon insertion mutagenesis, we determined that an 8-kb region required for nitrogen fixation corresponded to the nif gene cluster. Northern analysis revealed the presence of either a single 7.6-kb nif mRNA transcript or 10 smaller mRNA species containing portions of the large transcript. Polar effects of transposon insertions demonstrated that all of these mRNAs arose from a single promoter region, where transcription initiated 80 bp 5' to nifH. Distinctive features of the nif gene cluster include the presence of the six primary nif genes in a single operon, the placement of the two glnB-like genes within the cluster, the apparent physical separation of the cluster from any other nif genes that might be in the genome, the fragmentation pattern of the mRNA, and the regulation of expression by a repression mechanism described previously. Our study and others with methanogenic archaea reporting multiple mRNAs arising from gene clusters with only a single putative promoter sequence suggest that mRNA processing following transcription may be a common occurrence in methanogens.

Streptococcus uberis acquires plasmin activity following growth in the presence of bovine plasminogen through the action of its specific plasminogen activator

Three (0140J, C197C and EF20) out of four strains of Streptococcus uberis exhibited high levels of bound plasmin activity following growth in the presence of bovine plasminogen. The remaining strain (C197) bound considerably less plasmin following growth in the same medium. In contrast to the others, this strain was unable to activate bovine plasminogen. Following growth of strain C197 in the presence of bovine plasminogen and a source of plasminogen activator (urokinase or culture filtrate from strain 0140J) high levels of bacterially associated plasmin were detected. None of the strains was able to activate human plasminogen and only trace levels of plasmin activity were detected in association with the S. uberis following growth in the presence of human plasminogen. All strains were able to bind plasmin activity following incubation in the presence of either bovine or human plasmin. However, in each case the level of activity detected following incubation in human plasmin was approximately five-fold less than that observed following incubation with bovine plasmin. None of the strains bound detectable levels of either human or bovine plasminogen. It is concluded that activation of plasminogen is required prior to binding of plasmin by S. uberis.

Further studies on the efficacy of a live vaccine against mastitis caused by Streptococcus uberis

Three groups of dairy cows were immunized by subcutaneous (s.c.) administration of a preparation of live Streptococcus uberis (strain 0140J) and an intramammary infusion of a soluble surface extract derived from same the bacteria. Animals in Groups 1 and 2 received two s.c. vaccinations plus an intramammary inoculation. Animals in Group 3 received two s.c. vaccinations but did not receive the intramammary infusion. In addition to the vaccinated animals, each group also contained two non-vaccinated (control) animals. All animals were challenged experimentally by intramammary infusion (in two quarters per animal) of ca 100 c.f.u. of S. uberis (strain 0140J or C221) and monitored for clinical signs of disease, bacterial numbers in milk, somatic cell count in milk, and daily milk yield for the following 10 days. Animals in Group I were challenged with strain 0140J. Only one out of six challenged quarters of three vaccinated cows developed clinical disease compared to all (four out of four) quarters of non-vaccinated cows. Animals in Group 2 were challenged with strain C221. All challenged quarters of three vaccinated (six out of six) and two non-vaccinated (four out of four) cows developed clinical mastitis. Animals in Group 3 were challenged with strain 0140J. Five out of eight quarters on four vaccinated cows developed clinical mastitis but the onset was delayed in comparison with that in both non-vaccinated cows in which four out of four challenged quarters developed clinical mastitis. These results indicated that vaccination with live S. uberis protects against challenge with the homologous strain but was less effective against a heterologous strain. Reduced protection was also seen when the intramammary booster was omitted.

Transcriptional regulation in Archaea: in vivo demonstration of a repressor binding site in a methanogen

The status of the Archaea as one of the three primary Domains emphasizes the importance of understanding their molecular fundamentals. Basic transcription in the Archaea resembles eucaryal transcription. However, little is known about transcriptional regulation. We have taken an in vivo approach, using genetics to address transcriptional regulation in the methanogenic Archaeon Methanococcus maripaludis. We identified a repressor binding site that regulates nif (nitrogen fixation) gene expression. The repressor binding site was palindromic (an inverted repeat) and was located just after the transcription start site of nifH. Mutations that changed the sequence of the palindrome resulted in marked decreases in repression by ammonia, even when the palindromic nature of the site was retained. The same mutations greatly decreased binding to the site by components of cell extract. These results provide the first partial description of a transcriptional regulatory mechanism in the methanogenic Archaea. This work also illustrates the utility of genetic approaches in Methanococcus that have not been widely used in the methanogens: directed mutagenesis and reporter gene fusions with lacZ.

Nitrogenase phylogeny and the molybdenum dependence of nitrogen fixation in Methanococcus maripaludis

We studied the effects of molybdenum, vanadium, and tungsten on the diazotrophic growth of Methanococcus maripaludis. Mo stimulated growth, with a maximal response at 4.0 microM, while V had no effect at any concentration tested. W specifically inhibited diazotrophic growth in the presence of Mo. Coupling the results of our analysis and other known metal requirements with phylogenies derived from nifD and nifK genes revealed distinct clusters for Mo-, V-, and Fe-dinitrogenases and suggested that most methanogens also have molybdenum-type nitrogenases.

Neomycin resistance as a selectable marker in Methanococcus maripaludis

We cloned the aminoglycoside phosphotransferase genes APH3'I and APH3'II between the Methanococcus voltae methyl reductase promoter and terminator in a plasmid containing a fragment of Methanococcus maripaludis chromosomal DNA. The resulting plasmids encoding neomycin resistance transformed M. maripaludis at frequencies similar to those observed for pKAS102 encoding puromycin resistance. The antibiotic geneticin was not inhibitory to M. maripaludis.

mucS, a gene involved in activation of galactoglucan (EPS II) synthesis gene expression in Rhizobium meliloti

In addition to the exopolysaccharide succinoglycan, Rhizobium meliloti can produce a galactoglucan exopolysaccharide, EPS II. The production of EPS II occurs in certain mutant strains, in strains containing extra copies of EPS II synthesis genes, or in the wild-type strain under phosphate-limiting conditions. We have identified a gene, mucS, that is in a locus required for EPS II induction by extra gene copies and by phosphate limitation, and that activates the expression of at least one other EPS II synthesis gene. mucS lies within a cluster of EPS II synthesis genes and contains an open reading frame of 190 amino acids. MucS does not show any significant similarity to known genes and may represent a new type of regulatory protein.

Adhesion of Streptococcus uberis to monolayers of cultured epithelial cells derived from the bovine mammary gland

Monolayers of epithelial cells obtained by culture of isolated secretory alveoli from the bovine mammary gland were used as target cells in bacterial adhesion assays. The ability of two strains of Streptococcus uberis (EF20 and 0140J) to adhere to these cells was examined using scanning electron microscopy (SEM). The cultured monolayers consisted of two types of epithelial cell one of which possessed many microvilli and another which exhibited only sparse or no microvilli. Strain EF20 adhered more readily and in greater numbers to the cells without microvilli (MV-) than to cells possessing microvilli (MV+). Strain 0140J also interacted with a greater proportion of MV- cells but adhered to both MV- and MV+ cell types in similar numbers.

Genetics in methanogens: transposon insertion mutagenesis of a Methanococcus maripaludis nifH gene

We designed a transposon insertion mutagenesis system for Methanococcus species and used it to make mutations in and around a nifH gene in Methanococcus maripaludis. The transposon Mudpur was constructed with a gene for puromycin resistance that is expressed and selectable in Methanococcus species. A 15.6-kb nifH region from M. maripaludis cloned in a lambda vector was used as a target for mutagenesis. A series of 19 independent Mudpur insertions spanning the cloned region were produced. Four mutagenized clones in and around nifH were introduced by transformation into M. maripaludis, where each was found to replace wild-type genomic DNA with the corresponding transposon-mutagenized DNA. Wild-type M. maripaludis and a transformant containing a Mudpur insertion upstream of nifH grew on N2 as a nitrogen source. Two transformants with insertions in nifH and one transformant with an insertion downstream of nifH did not grow on N2. The transposon insertion-gene replacement technique should be generally applicable in the methanococci for studying the effects of genetic manipulations in vivo.

Determination of 16S ribosomal RNA gene copy number in Streptococcus uberis, S. agalactiae, S. dysgalactiae and S. parauberis

Species-specific oligonucleotide probes and a universal oligonucleotide probe derived from sequences of 16S rRNA were hybridised to chromosomal DNA from Streptococcus agalactiae, S. dysgalactiae, S. parauberis and S. uberis following digestion with EcoRI. Due to the presence of a unique EcoRI site in each 16S rRNA gene, the number of hybridised fragments was indicative of the number of 16S rRNA genes. Southern hybridisation indicated six 16S rRNA genes in ten isolates of S. agalactiae, five genes in ten isolates of S. uberis, five genes in six isolates and six in another isolate of S. dysgalactiae, and six genes in four isolates of S. parauberis. For a fifth isolate of S. parauberis, six 16S rRNA genes were indicated by the universal probe but only five when hybridised to the species-specific probe, indicating sequence variation (microheterogeneity) within the probe target region.

The amino acid requirements of Staphylococcus aureus isolated from cases of bovine mastitis

The amino acid requirements of seven strains of Staphylococcus aureus isolated from cases of bovine mastitis were determined. Arginine, cystine, glycine, leucine, proline and valine were essential for the growth of all isolates. In addition, all isolates required one or more of the following: glutamic acid, histidine, isoleucine, lysine, methionine, phenylalanine, tryptophan and tyrosine.

Development of PCR-based hybridization protocol for identification of streptococcal species

16S rRNA of Streptococcus agalactiae, S. uberis, and S. parauberis was bound to streptavidin-coated magnetic beads by using a biotinylated oligonucleotide probe complementary to a highly conserved region of the molecule. In-solution hybridization of radiolabelled oligonucleotide probes to immobilized 16S rRNA allowed the specific identification of S. agalactiae and S. parauberis but not S. uberis. PCR was used to amplify a species-specific region of the 16S rRNA gene from these species. One of the PCR primers was biotinylated at the 5' end to allow purification of the amplified product on streptavidin-coated magnetic beads and subsequent denaturation to yield immobilized single-stranded DNA. Radiolabelled oligonucleotide probes were hybridized in solution to the single-stranded target molecule and enabled species-specific identification of the target organism. This protocol overcame problems associated with hybridization of the S. uberis-specific probe to 16S rRNA in solution. A similar procedure may enable the specific detection of other streptococci which exhibit a species-specific sequence in this region of the gene.

Local vaccination with killed Streptococcus uberis protects the bovine mammary gland against experimental intramammary challenge with the homologous strain

The ability of killed streptococcus uberis to induce protection against mastitis when administered either into the cistern of the dry mammary gland (intramammary vaccination) without adjuvant or subcutaneously with adjuvant was investigated. Bacteria were never reisolated from vaccinated quarters following challenge with the same strain during the subsequent lactation, and no inflammatory response was detected. In contrast, following subcutaneous vaccination, milk from challenged quarters contained very small numbers of bacteria, but these quarters did exhibit clinical disease, whereas quarters on nonvaccinated control animals produced discolored, clotted secretion with large numbers of bacteria and somatic cells and required antibiotic therapy by 60 h postchallenge. There was a significant increase in the levels of S. uberis-specific immunoglobulin G1 (IgG1), IgG2, and IgM in milk following intramammary vaccination and in the levels of specific IgG1 and IgG2 in milk following subcutaneous vaccination. Levels of specific antibody in serum were also elevated following vaccination by either route. However, despite this, there was no increase in the opsonic activity of serum or milk. Both peripheral blood lymphocytes and dry-period mammary gland lymphocytes showed strong proliferative responses to S. uberis in vitro following subcutaneous vaccination, but only mammary gland lymphocytes responded following intramammary vaccination. It was concluded that the protection seen in vaccinated quarters did not appear to be related to levels of specific antibody or neutrophil function and was possibly brought about by the inhibition of bacterial growth.

Purification of a plasminogen activator from Streptococcus uberis

A protein capable of activating bovine, equine and ovine plasminogen, but not that from human or porcine plasma, was purified from culture filtrates of Streptococcus uberis (strain 0140J). Purification was achieved by ammonium sulphate precipitation followed by molecular exclusion chromatography. The elution position of the native molecule was equivalent to a molecular mass of approximately 57 kDa. However, the molecular mass, as determined by SDS-PAGE, was 29 kDa, suggesting the existence of a dimeric structure. Purified immunoglobulin from three out of five monoclonal antibodies raised to this protein inhibited the conversion of bovine plasminogen to plasmin by the purified protein.

Streptococcus uberis resists the bactericidal action of bovine neutrophils despite the presence of bound immunoglobulin

Streptococcus uberis 0140J was more resistant to the bactericidal action of bovine neutrophils after growth in chemically defined medium (CDM) supplemented with casein hydrolysate than when grown in CDM alone. Neither adult bovine serum obtained prior to vaccination nor hyperimmune serum raised against this bacterium was capable of acting as an effective opsonin towards S. uberis grown in the presence of casein hydrolysate. There was no detectable difference in the ability of bacteria grown in either CDM or CDM supplemented with casein hydrolysate to bind immunoglobulin G1 (IgG1), IgG2, or IgM from either hyperimmune serum or preparations of immunoglobulin from the same serum. Bacteria of both the phagocytosis-resistant and phagocytosis-sensitive phenotypes presented the same amount of IgG2 Fc terminus on their surfaces. It is concluded that the inducible resistance of S. uberis to bactericidal action of bovine neutrophils is not mediated by inhibition of antibody binding.

Immune modification of the pathogenesis of Streptococcus uberis mastitis in the dairy cow

Two groups of 4 cows were vaccinated subcutaneously with live Streptococcus uberis strain 0140J or a surface extract derived from the same strain, at 14 days prior to the cessation of lactation (drying off) and at calving. Both groups also received an intramammary administration of the surface extract 7 days after drying off. A third group of unvaccinated animals acted as controls. Following intramammary challenge of two quarters per cow with the vaccine strain, all quarters on control cows and those vaccinated only with surface extract developed clinical mastitis. However, only 12.5% of challenged quarters on cows which were vaccinated with live bacteria developed clinical mastitis. In addition, the numbers of bacteria in the milk following challenge were 10(5) times higher from the control and extract vaccinated cows than those which received live vaccine. Serum levels of S. uberis specific IgG2 were elevated in the animals vaccinated with the live organism when compared to that of either extract-vaccinates or controls, whilst S. uberis specific levels of IgG1 and IgM were similar in all groups throughout the experiment. Specific antibody levels in milk were unaffected by vaccination. Despite increased levels of IgG2, no increase in opsonic activity was detected in any serum or milk samples. Peripheral blood lymphocytes from animals vaccinated with live organisms showed a considerable increase in proliferative response to S. uberis antigen in vitro when compared with lymphocytes from control and extract-vaccinated animals. These results suggest that neutrophils and specific opsonising antibody may not form the major defence against infection with S. uberis.

Exopolysaccharides of Rhizobium: synthesis, regulation and symbiotic function

Exopolysaccharides of Rhizobium have long been suspected, and are now known, to function in the Rhizobium-legume root nodule symbiosis. Recent studies have enhanced our knowledge of these extracellular polymers as symbiotic signals and have elucidated their biosynthesis and regulation.

Genetic characterization of a Rhizobium meliloti lactose utilization locus

We identified several linked genes of a lactose regulon in Rhizobium meliloti. These were lacZ, the structural gene for beta-galactosidase; lacR, the lactose repressor gene; and two genes encoding proteins of unknown function, lacW and lacX. Insertion mutants in lacW and lacZ belonged to a single genetic complementation group, and lacW appeared to lie upstream of lacZ in an operon. Expression of lacZ, lacW and lacX was repressed by lacR, and expression of lacZ and lacW was derepressed by lactose. lacZ was not required for induction of lacW by lactose, suggesting that lactose itself, rather than a processed form of lactose, may be the actual inducer molecule. Expression of all three genes was repressed by succinate, and the lacR independence of this repression showed that inducer exclusion could not be the sole mechanism. This pattern of lac gene organization and regulation differs in several ways from that observed in enteric bacteria.

Activation of bovine plasminogen by Streptococcus uberis

Culture filtrate from Streptococcus uberis was found to activate bovine and equine plasminogen but not that from rabbit, human or porcine plasma. In contrast, streptokinase from a Lancefield group C Streptococcus activated human plasminogen but not that from bovine, porcine and rabbit plasma. Very slight activity was observed against equine plasminogen. Plasmin was detected by hydrolysis of skimmed milk protein in agarose. The activation of bovine plasminogen by S. uberis culture filtrate resulted in the formation of three polypeptides with molecular masses of 56, 26 and 21 kDa. This is the first report of a streptokinase activity from this species.

An investigation of the suitability of three support matrices for the culture of cells derived from the secretory alveoli of the bovine mammary gland

The suitability of three support matrices, (thick collagen gels, aluminium oxide and cellulose ester membranes, the latter two both thinly coated with collagen) for the production of primary cultures of bovine mammary epithelial cells was investigated. Single secretory alveoli were isolated from mammary tissue of animals in early lactation by enzymatic digestion and differential filtration. Cell growth was monitored by light and scanning electron microscopy. The cellulose ester membrane was found to give the best results, allowing growth of monolayers with a morphology closely resembling that of the natural epithelium of the gland. There were low levels of fibroblast contamination, and the membranes could be easily manipulated for further studies.

Development of gene probes for the specific identification of Streptococcus uberis and Streptococcus parauberis based upon large subunit rRNA gene sequences

23S ribosomal RNa (rRNA) gene sequences of Streptococcus uberis and Strep. parauberis were determined by direct polymerase chain reaction (PCR) sequencing. Oligonucleotide probes specific for Strep. uberis and Strep. parauberis were designed from variable regions of the 23S rRNA gene sequence data. Molecular hybridizations with PCR-amplified rRNA gene targets provided a precise and reliable means of differentiating Strep. uberis and Strep. parauberis from each other and from other streptococcal species.

A Staphylococcus aureus-specific oligonucleotide probe derived from 16S rRNA gene sequences

Genes encoding 16S rRNA were sequenced from 16 species of Staphylococcus. Sequence analysis highlighted a potential Staph. aureus-specific region and a complementary oligonucleotide probe was synthesized and its specificity tested. Northern blotting indicated molecular specificity, and dot blots to RNA from Staph. aureus, Staph. capitis, Staph. caprae, Staph. carnosus, Staph. caseolyticus, Staph. cohnii, Staph. epidermidis, Staph. gallinarum, Staph. haemolyticus, Staph. hominis, Staph. hyicus, Staph. saprophyticus, Staph. sciuri, Staph. simulans, Staph. warneri and Staph. xylosus indicated species-specificity.