Leslie D. Cope

A Novel Staphylococcus aureus Vaccine: Iron Surface Determinant B Induces Rapid Antibody Responses in Rhesus Macaques and Specific Increased Survival in a Murine S. aureus Sepsis Model

ABSTRACT Staphylococcus aureus is a major cause of nosocomial infections worldwide, and the rate of resistance to clinically relevant antibiotics, such as methicillin, is increasing; furthermore, there has been an increase in the number of methicillin-resistant S. aureus community-acquired infections. Effective treatment and prevention strategies are urgently needed. We investigated the potential of the S. aureus surface protein iron surface determinant B (IsdB) as a prophylactic vaccine against S. aureus infection. IsdB is an iron-sequestering protein that is conserved in diverse S. aureus clinical isolates, both methicillin resistant and methicillin sensitive, and it is expressed on the surface of all isolates tested. The vaccine was highly immunogenic in mice when it was formulated with amorphous aluminum hydroxyphosphate sulfate adjuvant, and the resulting antibody responses were associated with reproducible and significant protection in animal models of infection. The specificity of the protective immune responses in mice was demonstrated by using an S. aureus strain deficient for IsdB and HarA, a protein with a high level of identity to IsdB. We also demonstrated that IsdB is highly immunogenic in rhesus macaques, inducing a more-than-fivefold increase in antibody titers after a single immunization. Based on the data presented here, IsdB has excellent prospects for use as a vaccine against S. aureus disease in humans.

The 100 kDa haem:haemopexin‐binding protein of Haemophilus Influenzae: structure and localization

All Haemophilus influenzae strains have an absolute requirement for exogenously supplied haem for aerobic growth. A majority of strains of H. influenzae type b (Hib) produce a 100 kDa protein which binds haem: haemopexin complexes. This 100 kDa haem:haemopexin binding protein, designated HxuA, was originally detected on the Hib cell surface. Monoclonal antibody (mAb)‐based analyses revealed that the HxuA protein was also present in soluble form in Hib culture supernatants. This soluble HxuA protein exhibited haem:haemopexin‐binding activity in a direct binding assay. Nucleotide sequence analysis of the hxuA gene from Hib strain DL42, together with N‐terminal amino acid analysis of HxuA protein purified from Hib culture supernatant, revealed that this protein was synthesized as a 101 kDa precursor with a leader peptide that was removed to yield a 99kDa protein. Southern blot analysis of chromosomal DNA from four Hib and four non‐typeable H. influenzae (NTHI) strains detected the presence of a single band in each strain that hybridized a Hib hxuA gene probe. Subsequent analysis of these NTHI strains showed that all four strains released into culture supernatant a haem:haemopexin‐binding protein that migrated in SDS‐PAGE at a rate similar or identical to that of the Hib HxuA protein. A Hib hxuA mutant was used to screen an NTHI genomic DNA library and an NTHI gene was cloned that complemented the mutation in this Hib strain. Nucleotide sequence analysis of this NTHI gene revealed that it encoded a protein with 87% identity to the Hib HxuA protein. The expression of HxuA by both Hib and NTHI strains indicates that this particular haem acquisition system is conserved among H. influenzae strains.

The Hemophilus influenzae Hap autotransporter is a chymotrypsin clan serine protease and undergoes autoproteolysis via an intermolecular mechanism.

The Hemophilus influenzae Hap adhesin is an autotransporter protein that undergoes an autoproteolytic cleavage event resulting in extracellular release of the adhesin domain (Haps) from the membrane-associated translocator domain (Hapβ). Hap autoproteolysis is mediated by Ser243 and occurs at LN1036-7 and to a lesser extent at more COOH-terminal alternate sites. In the present study, we sought to further define the mechanism of Hap autoproteolysis. Site-directed mutagenesis of residues His98 and Asp140identified a catalytic triad conserved among a subfamily of autotransporters and reminiscent of the SA (chymotrypsin) clan of serine proteases. Amino-terminal amino acid sequencing of histidine-tagged Hapβ species and site-directed mutagenesis established that autoproteolysis occurs at LT1046-7, FA1077-8, and FS1067-8, revealing a consensus target sequence for cleavage that consists of ((Q/R)(A/S)X(L/F)) at the P4 through P1 positions. Examination of a recombinant strain co-expressing a Hap derivative lacking all cleavage sites (HapΔ1036-99) and a Hap derivative lacking proteolytic activity (HapS243A) demonstrated that autoproteolysis occurs by an intermolecular mechanism. Kinetic analysis of Hap autoproteolysis in bacteria expressing Hap under control of an inducible promoter demonstrated that autoproteolysis increases as the density of Hap precursor in the outer membrane increases, confirming intermolecular cleavage and suggesting a novel mechanism for regulation of bacterial adherence and microcolony formation.

Haemophilus ducreyi Requires the flp Gene Cluster for Microcolony Formation In Vitro

ABSTRACT Haemophilus ducreyi, the etiologic agent of chancroid, has been shown to form microcolonies when cultured in the presence of human foreskin fibroblasts. We identified a 15-gene cluster in H. ducreyi that encoded predicted protein products with significant homology to those encoded by the tad (for tight adhesion) locus in Actinobacillus actinomycetemcomitans that is involved in the production of fimbriae by this periodontal pathogen. The first three open reading frames in this H. ducreyi gene cluster encoded predicted proteins with a high degree of identity to the Flp (fimbria-like protein) encoded by the first open reading frame of the tad locus; this 15-gene cluster in H. ducreyi was designated flp. RT-PCR analysis indicated that the H. ducreyi flp gene cluster was likely to be a polycistronic operon. Mutations within the flp gene cluster resulted in an inability to form microcolonies in the presence of human foreskin fibroblasts. In addition, the same mutants were defective in the ability to attach to both plastic and human foreskin fibroblasts in vitro. An H. ducreyi mutant with an inactivated tadA gene exhibited a small decrease in virulence in the temperature-dependent rabbit model for experimental chancroid, whereas another H. ducreyi mutant with inactivated flp-1 and flp-2 genes was as virulent as the wild-type parent strain. These results indicate that the flp gene cluster is essential for microcolony formation by H. ducreyi, whereas this phenotypic trait is not linked to the virulence potential of the pathogen, at least in this animal model of infection.

Molecular cloning of a gene involved in lipooligosaccharide biosynthesis and virulence expression by Haemophilus influenzae type B

A wild‐type Haemophilus influenzae type b (Hib) genomic DNA library was constructed in the plasmid shuttle vector pGJB103. A virulence‐deficient lipooligosaccharide (LOS) mutant of Hib was used as a recipient for genetic transformation to screen this Hib genomic DNA library for genes involved in LOS expression. A recombinant plasmid containing a 7.8 kb Pstl fragment of Hib DNA was shown to transform this LOS mutant to reactivity with a monoclonal antibody (mAb) specific for a wild‐type LOS epitope. Transformation of two different virulence‐deficient LOS mutants with a 4.4kb BglII fragment of this recombinant plasmid yielded transformants which expressed LOS that bound the wild‐type LOS‐specific mAb and yielded profiles in sodium dodecyl sulphate/polyacrylamide gradient gel electrophoresis different from those of the original LOS mutants. These transformants with structurally altered LOS molecules also exhibited increased virulence in an animal model for invasive Hib disease. The virulence‐transforming ability was further localized to a 1.8kb BglII‐AlwNI fragment of the Hib DNA insert. Nucleotide sequence analysis indicated the presence of a single large open reading frame within this fragment. This open reading frame contained 19 consecutive repeats of the tetramer CAAT near the 5’end. Linker insertion mutagenesis was used to demonstrate directly the involvement of this open reading frame in both LOS biosynthesis and virulence expression by Hib.

Selection and Characterization of Murine Monoclonal Antibodies to Staphylococcus aureus Iron-Regulated Surface Determinant B with Functional Activity In Vitro and In Vivo

ABSTRACT In an effort to characterize important epitopes of Staphylococcus aureus iron-regulated surface determinant B (IsdB), murine IsdB-specific monoclonal antibodies (MAbs) were isolated and characterized. A panel of 12 MAbs was isolated. All 12 MAbs recognized IsdB in enzyme-linked immunosorbent assays and Western blots; 10 recognized native IsdB expressed by S. aureus. The antigen epitope binding of eight of the MAbs was examined further. Three methods were used to assess binding diversity: MAb binding to IsdB muteins, pairwise binding to recombinant IsdB, and pairwise binding to IsdB-expressing bacteria. Data from these analyses indicated that MAbs could be grouped based on distinct or nonoverlapping epitope recognition. Also, MAb binding to recombinant IsdB required a significant portion of intact antigen, implying conformational epitope recognition. Four MAbs with nonoverlapping epitopes were evaluated for in vitro opsonophagocytic killing (OPK) activity and efficacy in murine challenge models. These were isotype switched from immunoglobulin G1 (IgG1) to IgG2b to potentially enhance activity; however, this isotype switch did not appear to enhance functional activity. MAb 2H2 exhibited OPK activity (≥50% killing in the in vitro OPK assay) and was protective in two lethal challenge models and a sublethal indwelling catheter model. MAb 13C7 did not exhibit OPK (<50% killing in the in vitro assay) and was protective in one lethal challenge model. Neither MAb 13G11 nor MAb 1G3 exhibited OPK activity in vitro or was active in a lethal challenge model. The data suggest that several nonoverlapping epitopes are recognized by the IsdB-specific MAbs, but not all of these epitopes induce protective antibodies.

Involvement of hxuc outer membrane protein in utilization of hemoglobin by Haemophilus influenzae

ABSTRACT Haemophilus influenzae can utilize different protein-bound forms of heme for growth in vitro. A previous study from this laboratory indicated that nontypeable Haemophilus influenzae (NTHI) strain N182 expressed three outer membrane proteins, designated HgbA, HgbB, and HgbC, that bound hemoglobin or hemoglobin-haptoglobin and were encoded by open reading frames (ORFs) that contained a CCAA nucleotide repeat. Testing of mutants expressing the HgbA, HgbB, and HgbC proteins individually revealed that expression of any one of these proteins was sufficient to allow wild-type growth with hemoglobin. In contrast, mutants that expressed only HgbA or HgbC grew significantly better with hemoglobin-haptoglobin than did a mutant expressing only HgbB. Construction of an isogenic hgbA hgbB hgbC mutant revealed that the absence of these three gene products did not affect the ability of NTHI N182 to utilize hemoglobin as a source of heme, although this mutant was severely impaired in its ability to utilize hemoglobin-haptoglobin. The introduction of atonB mutation into this triple mutant eliminated its ability to utilize hemoglobin, indicating that the pathway for hemoglobin utilization in the absence of HgbA, HgbB, and HgbC involved a TonB-dependent process. Inactivation in this triple mutant of thehxuC gene, which encodes a predicted TonB-dependent outer membrane protein previously shown to be involved in the utilization of free heme, resulted in loss of the ability to utilize hemoglobin. The results of this study reinforce the redundant nature of the heme acquisition systems expressed by H. influenzae.

Staphylococcus aureus capsule type 8 antibodies provide inconsistent efficacy in murine Models of staphylococcal infection

Staphylococcus aureus is a clinically important capsule-forming bacterium. The capsule polysaccharide (CPs) occurs as different chemical structures depending on the serotype of the organism, but one form, capsular polysaccharide type 8 (CPs8) found in clinical isolates, is largely unstudied. The potential of CPs8 as a vaccine target was evaluated using two approaches. The first approach used a conjugate vaccine, made by chemically linking purified CPs8 to the outer membrane protein complex of N. meningitidis serotype B (OMPC). In efficacy studies, the CPs8-OMPC conjugate vaccine was immunogenic in Balb/c mice, however the immune response gave no protection from death after a lethal intravenous (iv) challenge with S. aureus Becker. In the second approach, two monoclonal antibodies were produced against CPs8 (MAbs 8E8 and 1C10). These were found to have functional activity in an opsonophagocytic killing assay (OPA), and provided protection from a lethal challenge when bacteria were pre-opsonized ex vivo before intra-peritoneal (ip) challenge. However, MAb 8E8 was not efficacious in the lethal challenge model, in which antibodies were passively transferred to the peritoneum and the animals were infected via the tail vein 18-24 h later. Additionally, the monoclonal antibodies did not opsonize capsule-expressing S. aureus Becker obtained from in vivo growth conditions. These results indicated that functional capsule antibodies may not be sufficient for protection from S. aureus under all in vivo conditions.

Detection of Phase Variation in Expression of Proteins Involved in Hemoglobin and Hemoglobin-Haptoglobin Binding by Nontypeable Haemophilus influenzae

ABSTRACT Haemophilus influenzae can utilize different protein-bound forms of heme for growth in vitro. A previous study (I. Maciver, J. L. Latimer, H. H. Liem, U. Muller-Eberhard, Z. Hrkal, and E. J. Hansen. Infect. Immun. 64:3703–3712, 1996) indicated that nontypeable H. influenzae (NTHI) strain TN106 expressed a protein that bound hemoglobin-haptoglobin and was encoded by an open reading frame (ORF) that contained a CCAA nucleotide repeat. Southern blot analysis revealed that several NTHI strains contained between three and five chromosomal DNA fragments that bound an oligonucleotide probe for CCAA repeats. Three ORFs containing CCAA repeats were identified in NTHI strain N182; two of these ORFs were arranged in tandem. The use of translational fusions involving these three ORFs and the β-lactamase gene from pBR322 revealed that these three ORFs, designated hgbA, hgbB, andhgbC, encoded proteins that could bind hemoglobin, hemoglobin-haptoglobin, or both compounds. Monoclonal antibodies (MAbs) specific for the HgbA, HgbB, and HgbC proteins were produced by immunizing mice with synthetic peptides unique to each protein. Both HgbA and HgbB were readily detected by Western blot analysis in N182 cells grown in the presence of hemoglobin as the sole source of heme, whereas expression of HgbC was found to be much less abundant than that of HgbA and HgbB. The use of these MAbs in a colony blot radioimmunoassay analysis revealed that expression of both HgbA and HgbB was subject to phase variation. PCR and nucleotide sequence analysis were used in conjunction with Western blot analyses to demonstrate that this phase variation involved the CCAA repeats in thehgbA and hgbB ORFs.

Development of a rat central venous catheter model for evaluation of vaccines to prevent Staphylococcus epidermidis and Staphylococcus aureus early biofilms

Indwelling central venous catheters are a common and important source of nosocomial Staphylococcus epidermidis and S. aureus infections, causing increased morbidity and mortality during hospitalization. A model was developed to reflect the clinical situation of catheter colonization by transient hematogeneously spread staphylococci, in order to investigate potential vaccine candidates. Rats were cannulated in the right jugular vein, followed by challenge through the tail vein with either S. epidermidis RP62a, or S. aureus Becker. At 24 hr post challenge, colonizing bacteria were found to be present on the catheter in an early biofilm, as evidenced by the presence of polysaccharide intercellular adhesin (PIA). For vaccination studies, rats were first immunized, surgically cannulated, and then challenged via the tail vein. At 24 hr post challenge, the catheters were harvested and cultured on mannitol salt agar plates. The catheters were scored as positive if there was outgrowth of bacterial colonies, and negative if no colonies were observed. A S. epidermidis antigen (SERP0630, MenD), and a S. aureus antigen (SACOL1138, iron regulated surface determinant B, IsdB) were found to have significant protective activity in this model, compared to mock immunized controls. Using SERP0630 as the test immunogen, it was also determined that a single vaccination of rats after cannulation was sufficient for significant catheter protection. This model may be used to evaluate antigens for protective activity against transient hematogenous spread of staphylococci resulting in catheter colonization and early biofilm formation.