Francis E. Nano scite author profile

Francisella tularensis is a gram-negative, facultative intracellular pathogen that causes the highly infectious zoonotic disease tularemia. We have discovered a ca. 30-kb pathogenicity island of F. tularensis (FPI) that includes four large open reading frames (ORFs) of 2.5 to 3.9 kb and 13 ORFs of 1.5 kb or smaller. Previously, two small genes located near the center of the FPI were shown to be needed for intramacrophage growth. In this work we show that two of the large ORFs, located toward the ends of the FPI, are needed for virulence. Although most genes in the FPI encode proteins with amino acid sequences that are highly conserved between high-and low-virulence strains, one of the FPI genes is present in highly virulent type A F. tularensis, absent in moderately virulent type B F. tularensis, and altered in F. tularensis subsp. novicida, which is highly virulent for mice but avirulent for humans. The G؉C content of a 17.7-kb stretch of the FPI is 26.6%, which is 6.6% below the average G؉C content of the F. tularensis genome. This extremely low G؉C content suggests that the DNA was imported from a microbe with a very low G؉C-containing chromosome.

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MglA regulates transcription of virulence factors necessary for Francisella tularensis intraamoebae and intramacrophage survival

Lauriano

Barker

Yoon

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

256

335

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Francisella tularensis is able to survive and grow within macrophages, a trait that contributes to pathogenesis. Several genes have been identified that are important for intramacrophage survival, including mglA and iglC. F. tularensis is also able to survive within amoebae. It is shown here that F. tularensis mglA and iglC mutant strains are not only defective for survival and replication within the macrophage-like cell line J774, but also within Acanthamoebae castellanii. Moreover, these strains are highly attenuated for virulence in mice, suggesting that a common mechanism underlies intramacrophage and intraamoebae survival and virulence. A 2D gel analysis of cell extracts of wild-type and mglA mutant strains revealed that at least seven prominent proteins were at low levels in the mglA mutant, and one MglA-regulated protein was identified as the IglC protein. RT-PCR analysis demonstrated reduced transcription of iglC and several other known and suspected virulence genes in the mglA mutant. Thus, MglA regulates the transcription of virulence factors of F. tularensis that contribute to intramacrophage and intraamoebae survival.

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Mapping antigenic domains expressed by Chlamydia trachomatis major outer membrane protein genes.

Baehr

Zhang

Joseph

et al. 1988

Proc. Natl. Acad. Sci. U.S.A.

295

247

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Chlamydia trachomatis is an obligate prokaryotic intracellular pathogen of humans that infects mucosal epithelial cells. Exposed domains of its major outer membrane protein (MOMP) are both serotyping and protective antigenic determinants. To identify these domains, we have cloned and epitope-mapped the genes of serovars A, C (C serogroup) and L2, B (B serogroup) with a panel of monoclonal antibodies (mAbs). Predominantly conserved regions of the genes of both serogroups are interspersed with four short variable domains (I-IV). Recombinant phage clones expressing specific MOMP antigenic determinants revealed that protective serotypespecific mAbs recognized epitopes in variable domains I and fl. Protective subspecies and serogroup-specific mAbs recognized overlapping determinants in variable domain IV near the C terminus. A nonprotective species-specific mAb mapped to an invariant peptide of nine residues contained within variable domain IV. In the intact chlamydial organism of serovar B, variable domains HI and IV were susceptible to proteolytic digestion, whereas both N and C termini were protected. These results suggest an arrangement of MOMP in the outer membrane in which three of the four variable domains are exposed to the outside and in which both N and C termini are presumably oriented toward the periplasmic space. This molecular analysis of MOMP antigenic determinants and their surface topology on intact chlamydiae will be useful toward the development of a recombinant subunit or synthetic chlamydial vaccine.

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Construction and Characterization of a Highly Efficient Francisella Shuttle Plasmid

Maier

Havig

Casey

et al. 2004

Appl Environ Microbiol

145

216

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Francisella tularensis is a facultative intracellular pathogen that infects a wide variety of mammals and causes tularemia in humans. It is recognized as a potential agent of bioterrorism due to its low infectious dose and multiple routes of transmission. To date, genetic manipulation in Francisella spp. has been limited due to the inefficiency of DNA transformation, the relative lack of useful selective markers, and the lack of stably replicating plasmids. Therefore, the goal of this study was to develop an enhanced shuttle plasmid that could be utilized for a variety of genetic procedures in both Francisella and Escherichia coli. A hybrid plasmid, pFNLTP1, was isolated that was transformed by electroporation at frequencies of >1 ؋ 10 7 CFU g of DNA ؊1in F. tularensis LVS, Francisella novicida U112, and E. coli DH5␣. Furthermore, this plasmid was stably maintained in F. tularensis LVS after passage in the absence of antibiotic selection in vitro and after 3 days of growth in J774A.1 macrophages. Importantly, F. tularensis LVS derivatives carrying pFNLTP1 were unaltered in their growth characteristics in laboratory medium and macrophages compared to wild-type LVS. We also constructed derivatives of pFNLTP1 containing expanded multiple cloning sites or temperature-sensitive mutations that failed to allow plasmid replication in F. tularensis LVS at the nonpermissive temperature. In addition, the utility of pFNLTP1 as a vehicle for gene expression, as well as complementation, was demonstrated. In summary, we describe construction of a Francisella shuttle plasmid that is transformed at high efficiency, is stably maintained, and does not alter the growth of Francisella in macrophages. This new tool should significantly enhance genetic manipulation and characterization of F. tularensis and other Francisella biotypes.

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Francis E. Nano

A Francisella tularensis Pathogenicity Island Required for Intramacrophage Growth

MglA regulates transcription of virulence factors necessary for Francisella tularensis intraamoebae and intramacrophage survival

Mapping antigenic domains expressed by Chlamydia trachomatis major outer membrane protein genes.

Construction and Characterization of a Highly Efficient Francisella Shuttle Plasmid

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