Pasteurellaceae

Pasteurellaceae

Taxobox
color = lightgrey
name = Pasteurellaceae
regnum = Bacteria
phylum = Proteobacteria
classis = Gamma Proteobacteria
ordo = Pasteurellales
familia = Pasteurellaceae
familia_authority = Castellani & Chalmers, 1919
subdivision_ranks = Genera
subdivision = "Actinobacillus"
"Haemophilus"
"Lonepinella"
"Pasteurella"
"Mannheimia"
"Phocoenobacter"

"Pasteurellaceae" comprise a large and diverse family of Gram-negative Proteobacteria with members ranging from important pathogens such as "Haemophilus influenzae" to commensals of the animal and human mucosa.cite book | author = Kuhnert P; Christensen H (editors). | title = Pasteurellaceae: Biology, Genomics and Molecular Aspects | publisher = Caister Academic Press | year = 2008 | id = ISBN 978-1-904455-34-9 ] Most members live as commensals on mucosal surfaces of birds and mammals, especially in the upper respiratory tract. The family includes several pathogens of vertebrates, most notably "H. influenzae". This species causes several diseases in humans (though not flu, as was originally thought). Other "Pasteurellaceae" cause gingivitis and chancroid in humans and many others are important veterinary pathogens.

"Pasteurellaceae" are typically rod-shaped, and are a notable group of facultative anaerobes. They can be distinguished from the related Enterobacteriaceae by the presence of oxidase, and from most other similar bacteria by the absence of flagella.

Bacteria in the family Pasteurellaceae have been classified into a number of genera based on metabolic properties, but these classifications are not generally accurate reflections of the evolutionary relationships between different species. "H. influenzae" was the first organism to have its genome sequenced and has been studied intensively by genetic and molecular methodologies. Since 1995, the family has been expanded from three genera to the current thirteen through the use of new genetic-based classification and identification technologies. Many members of the "Pasteurellaceae" family make excellent natural models for the study of bacterial pathogenesis and host-pathogen-interactions thus giving valuable insights into related human diseases.cite book | author = Kuhnert P; Christensen H (editors). | title = Pasteurellaceae: Biology, Genomics and Molecular Aspects | publisher = Caister Academic Press | year = 2008 | id = ISBN 978-1-904455-34-9 ]

Taxonomy and biodiversity

The family "Pasteurellaceae" includes 38 properly classified species in addition to 24 misclassified species. The majority of taxa have been isolated from disease conditions in warm blooded animals and in particular in farm animals. These bacteria are obligate parasites or commensals of vertebrates, colonizing mainly the mucosal surfaces of the upper respiratory tract, oropharynx, and reproductive tracts and possibly also parts of the intestinal tract. Most taxa represent potential pathogens. Both systemic and local infections have been reported for most taxa involved in diseases. However, pneumonia has been reported most frequently. Fossil remnants of members of "Pasteurellaceae" have never been reported and information on the diversification of taxa within the family can only be obtained by phylogenetic reconstruction. Most likely the current members of "Pasteurellaceae" might have been present as common ancestors of birds and dinosaurs. For marsupials, monotremes and reptiles information is very limited and further insight from these groups is needed to test the hypothesis of co-evolution of host and parasite.cite book |author= Christensen H; Bisgaard M|year=2008|chapter=Taxonomy and biodiversity of members of Pasteurellaceae|title=Pasteurellaceae: Biology, Genomics and Molecular Aspects|publisher=Caister Academic Press|id= ISBN 978-1-904455-34-9]

RTX Toxin

RTX toxins are bacterial pore forming toxins that are particularly abundant among pathogenic species of "Pasteurellaceae" where they play a major role in virulence. RTX toxins of several primary pathogens of the family of "Pasteurellaceae" are directly involved in causing necrotic lesions of the target organs. Many RTX toxins are mainly known as haemolysins due to their capacity to lyse erythrocytes (red blood cells) "in vitro", an effect that seems to be non-specific. It is now known for many RTX toxins that their specific targets are leukocytes, where RTX toxins bind to the corresponding β subunit (CD18) of β2 integrons and then cause a cytotoxic effect. For several RTX toxins the binding to CD18 was shown to be host specific and seems to be the basis determining the host range of a given RTX toxin. Observations on very closely related species of the "Pasteurellaceae" family with different RTX toxins indicate that these latter contribute to a significant part to the host specificity of the pathogen itself. RTX toxins induce a strong immunologic response generating neutralizing antibodies. They therefore constitute important antigens in modern subunit vaccines.cite book |author= Frey J|year=2008|chapter=RTX Toxin Determined Virulence of Pasteurellaceae|title=Pasteurellaceae: Biology, Genomics and Molecular Aspects|publisher=Caister Academic Press|id= ISBN 978-1-904455-34-9]

Iron Uptake

Outer membrane (OM) proteins for iron acquisition have roles in infection and pathogenesis and have growing appeal as novel targets for anti-infectives and therapeutics. Characterization of cell surface proteins of members of the "Pasteurellaceae" family including "Haemophilus", "Actinobacillus", "Pasteurella", and the "Mannheimia" genera of organisms has highlighted several redundant iron acquisition receptors for transferrin, siderophores, and heme/heme-containing proteins. In addition, the identification of several immunogenic lipoproteins and OM proteins has driven research for an effective cross-protective vaccine for these organisms.cite book |author= Chung et al|year=2008|chapter=Outer Membrane Proteins and Iron Uptake of Actinobacillus pleuropneumoniae|title=Pasteurellaceae: Biology, Genomics and Molecular Aspects|publisher=Caister Academic Press|id= ISBN 978-1-904455-34-9]

DNA sequence

DNA sequence data are available for the following "Pasteurellaceae" members: "Aggregatibacter actinomycetemcomitans" strain HK1651, "Actinobacillus pleuropneumoniae" strains L20 and sv1 4074, ["Haemophilus"] "ducreyi" strain 35000HP, "Haemophilus influenzae" strains 86-028NP, R2846, R2866, and Rd, "Histophilus somni "strains 129Pt and 2336, "Mannheimia haemolytica" A1 strain ATCC BAA-410, "Mannheimia succiniciproducens" strain MBEL55E, and "Pasteurella multocida "strain Pm70.cite book |author= Challacombe JF; Inzana TJ|year=2008|chapter=Comparative Genomics of Pasteurellaceae|title=Pasteurellaceae: Biology, Genomics and Molecular Aspects|publisher=Caister Academic Press|id= ISBN 978-1-904455-34-9]

ee also

* "Haemophilus influenzae"
* Chancroid ("H. ducreyi")
* Microbiology

References


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