J. D. Sanders scite author profile

Haemophilus influenzae is nearly unique among facultatively anaerobic bacteria in its absolute requirement for exogenously supplied heme for aerobic growth. In this study, a mutant analysis strategy was used to facilitate identification of H. influenzae cell envelope components involved in the uptake of heme. Chemical mutagenesis was employed to produce a mutant of a nontypeable H. influenzae strain unable to utilize either protein-bound forms of heme or low levels of free heme. This mutant was transformed with a plasmid shuttle vector-based genomic library constructed from the same wild-type nontypeable H. influenzae strain, and a growth selection technique was used to obtain a recombinant clone that could utilize heme. Analysis of the DNA insert in the recombinant plasmid revealed the presence of several open reading frames, one of which encoded a 28-kDa protein with significant similarity to the TonB protein of Escherichia coli. This H. influenzae gene product was able to complement a tonB mutation in E. coli, allowing the E. coli tonB mutant to form single colonies on minimal medium containing vitamin B12. When this H. influenzae gene was inactivated by insertional mutagenesis techniques and introduced into the chromosome of wild-type strains of H. influenzae type b, the resultant transformants lost their abilities to utilize heme and produce invasive disease in an animal model. Genetic restoration of the ability to express this TonB homolog resulted in the simultaneous acquisition of both heme utilization ability and virulence. These results indicate that the H. influenzae TonB protein is required not only for heme utilization by this pathogen in vitro, but also for virulence of H. influenzae type b in an animal model.

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Identification of a locus involved in the utilization of iron by Haemophilus influenzae

Sanders

Cope

Hansen³

1994

Infect Immun

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Haemophilus influenzae has an absolute requirement for heme for aerobic growth. This organism can satisfy this requirement by synthesizing heme from iron and protoporphyrin IX (PPIX). H. influenzae type b (Hib) strain DL42 was found to be unable to form single colonies when grown on a medium containing free iron and PPIX in place of heme. In contrast, the nontypeable H. influenzae (NTHI) strain TN106 grew readily on the same medium. A genomic library from NTHI strain TN106 was used to transform Hib strain DL42, and recombinants were selected on a medium containing iron and PPIX in place of heme. A recombinant plasmid with an 11.5-kb NTHI DNA insert was shown to confer on Hib strain DLA2 the ability to grow on iron and PPIX. Nucleotide sequence analysis revealed that this NTHI DNA insert contained three genes, designated hitA, hitB, and hitC, which encoded products similar to the SfuABC proteins of Serratia marcescens, which have been shown to constitute a periplasmic binding protein-dependent iron transport system in this enteric organism. The NTHI HitA protein also was 69%o identical to the ferric-binding protein ofNeisseria gonorrhoeae. Inactivation of the cloned NTHI hitC gene by insertion of an antibiotic resistance cartridge eliminated the ability of the recombinant plasmid to complement the growth deficiency of Hib DL42. Construction of an isogenic NTHI TN106 mutant lacking a functional hitC gene revealed that this mutation prevented this strain from growing on a medium containing iron and PPIX in place of heme. This NTHI hitC mutant was also unable to utilize either iron bound to transferrin or iron chelates. These results suggest that the products encoded by the hitABC genes are essential for the utilization of iron by NTHI.

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Genetic and functional analysis of Haemophilus somnus high molecular weight-immunoglobulin binding proteins

Tagawa

Sanders

Uchida

et al. 2005

Microbial Pathogenesis

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Genetic manipulation of immunoglobulin binding proteins of Haemophilus somnus

Sanders

Bastida

Arnold

et al. 2003

Microbial Pathogenesis

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Reconstitution of a porin-deficient mutant of Haemophilus influenzae type b with a porin gene from nontypeable H. influenzae

et al. 1993

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The major outer membrane protein (OmpP2) of nontypeable Haemophilus influenzae (NTHI) has been shown to vary markedly with respect to both size and the presence of specific surface-exposed epitopes among strains of this unencapsulated pathogen. In contrast, the OmpP2 proteins of H. influenzae type b (Hib) strains are well conserved at the level of primary protein structure and have in common several surface-exposed antigenic determinants that have not been detected in NTHI strains. The availability of an isogenic, avirulent Hib ompP2 mutant made it possible to investigate whether an NTHI OmpP2 protein could function properly in the Hib outer membrane. A plasmid shuttle vector (pGJB103) was used to clone the ompP2 gene from NTHI TN106 into a recombination-deficient H. influenzae strain in which expression of the NTHI OmpP2 protein was detected by means of an NTHI TN106 OmpP2-specific monoclonal antibody. The amino acid sequence of this NTHI OmpP2 protein, as deduced from the nucleotide sequence of the NTHI TN106 ompP2 gene, was determined to be 83% identical to that of the Hib OmpP2 protein. Transformation of this cloned NTHI ompP2 gene into the Hib ompP2 mutant yielded a Hib transformant strain that expressed the NTHI OmpP2 protein. Expression of this NTHI OmpP2 protein allowed the Hib ompP2 mutant, which normally grows poorly in vitro, to grow in a manner indistinguishable from that of the wild-type Hib strain. More importantly, the introduction of this functional NTHI ompP2 gene into the avirulent Hib ompP2 mutant restored the virulence of this strain to wild-type levels. These results indicate that an NTIHI OmpP2 protein can be expressed and function properly in the Hib outer membrane.

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J. D. Sanders

A functional tonB gene is required for both utilization of heme and virulence expression by Haemophilus influenzae type b

Identification of a locus involved in the utilization of iron by Haemophilus influenzae

Genetic and functional analysis of Haemophilus somnus high molecular weight-immunoglobulin binding proteins

Genetic manipulation of immunoglobulin binding proteins of Haemophilus somnus

Reconstitution of a porin-deficient mutant of Haemophilus influenzae type b with a porin gene from nontypeable H. influenzae

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