Proliferative enteropathy: a global enteric disease of pigs caused by<i>Lawsonia intracellularis</i>

Kroll, Jeremy; Roof, Michael B.; Hoffman, Lorraine J.; Dickson, James S.; Harris, D. L.

doi:10.1079/ahr2005109

Cited by 64 publications

(104 citation statements)

References 109 publications

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“…Proliferative enteropathy is characterized by a progressive proliferation of immature intestinal epithelial cells (enterocytes) following infection with L. intracellularis. The disease, which can persist for several weeks, leads to anorexia, diarrhea, reduced growth of infected animals, and decreased reproductive performance (27,34,46). Although proliferative enteropathy is considered one of the most economically important diseases in the swine industry worldwide, causing hundreds of millions of U.S. dollars in extra costs annually (27,29,36), data on the molecular mechanisms important for the pathogenicity and interaction of L. intracellularis with its host cells are surprisingly scarce.…”

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“…L. intracellularis enters the host cell via induced phagocytosis; the phagosome is quickly degraded, and Lawsonia resides directly in the cytoplasm (27). L. intracellularis is an important veterinary pathogen causing proliferative enteropathy (ileitis) in many mammals but mostly in pigs (27,37,46). Proliferative enteropathy is characterized by a progressive proliferation of immature intestinal epithelial cells (enterocytes) following infection with L. intracellularis.…”

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“…L. intracellularis is a gram-negative, microaerophilic, obligate intracellular bacterium belonging to the Deltaproteobacteria. L. intracellularis enters the host cell via induced phagocytosis; the phagosome is quickly degraded, and Lawsonia resides directly in the cytoplasm (27). L. intracellularis is an important veterinary pathogen causing proliferative enteropathy (ileitis) in many mammals but mostly in pigs (27,37,46).…”

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Lawsonia intracellularisContains a Gene Encoding a Functional Rickettsia-Like ATP/ADP Translocase for Host Exploitation

et al. 2008

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Some of the most important bacterial pathogens of humans can only replicate within eukaryotic cells. These obligate intracellular bacteria have developed sophisticated mechanisms to interact with and exploit their hosts. Prime examples of obligate intracellular bacterial pathogens are members of the orders Chlamydiales and Rickettsiales (hereafter referred to as chlamydiae and rickettsiae, respectively). These phylogenetically largely unrelated groups of microorganisms employ nucleotide transport (NTT) proteins, which import nucleotides or allow parasitization of their hosts' energy pool by exchanging bacterial ADP for host ATP (6,10,16,17,26,30,45,51). Among bacteria, NTT proteins are unique to chlamydiae and rickettsiae and were, in addition, only found in plastids of plants and algae (30,39,50,57).NTT proteins have been classified into the ATP/ADP antiporter family AAA by Saier and coworkers (TC number 2.A.12 in the Transport Classification Database [44]). Yet, recent studies showed that NTT proteins comprise transporters with highly dissimilar transport modes and substrate affinities. An alternative classification of NTT proteins according to transport mode was therefore proposed, subdividing the NTT protein family into three classes; class I contains nucleotide antiporters, class II contains proton-driven nucleotide symporters, and class III contains NAD ϩ /ADP antiporters (17). Bacterial and plastidic NTT proteins are fundamentally different from the analogous ADP/ATP carriers of the mitochondrial carrier family with respect to structure and transport characteristics (25,(41)(42)(43)57). In contrast to ATP/ADP translocases of NTT protein family class I, which enable bacterial energy parasitism, mitochondrial ADP/ ATP carriers function in the reverse direction, exporting newly synthesized ATP from the mitochondrial matrix to the host cytosol in exchange for ADP.Using BlastP (2) against the nonredundant protein sequences at GenBank/EMBL/DDBJ in order to find as-yetunrecognized NTT proteins, we recently identified a gene coding for an NTT protein most similar to known chlamydial and rickettsial ATP/ADP translocases in the genome sequence of Lawsonia intracellularis PHE/MN1-00. L. intracellularis is a gram-negative, microaerophilic, obligate intracellular bacterium belonging to the Deltaproteobacteria. L. intracellularis enters the host cell via induced phagocytosis; the phagosome is quickly degraded, and Lawsonia resides directly in the cytoplasm (27). L. intracellularis is an important veterinary pathogen causing proliferative enteropathy (ileitis) in many mammals but mostly in pigs (27,37,46). Proliferative enteropathy is characterized by a progressive proliferation of immature intestinal epithelial cells (enterocytes) following infection with L. intracellularis. The disease, which can persist for several weeks, leads to anorexia, diarrhea, reduced growth of infected animals, and decreased reproductive performance (27,34,46).

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confidence: 99%

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confidence: 99%

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confidence: 99%

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Lawsonia intracellularisContains a Gene Encoding a Functional Rickettsia-Like ATP/ADP Translocase for Host Exploitation

et al. 2008

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“…Current diagnostic tools are not without their drawbacks: PCR amplification of bacterial DNA from the feces of infected animals is routinely employed, but detection is limited to when bacteria are excreted (19,39), and in situ detection of the bacterium within the intestines of infected animals can only be achieved postmortem (28). Serodiagnosis is considered to be a reliable and convenient indicator of exposure to the bacterium, particularly when evaluating the immune status of herds, (7,21).…”

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A Novel Lawsonia intracellularis Autotransporter Protein Is a Prominent Antigen

Watson

Clark

Alberdi

et al. 2011

Clin. Vaccine Immunol.

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Investigation of antigenic determinants of the microaerophilic obligate intracellular bacterium Lawsonia intracellularis using a mass spectrometry approach identified a novel bacterial protein present in an extract of cell culture medium aspirated from heavily infected in vitro cell cultures. Western immunoblotting analysis of SDS-PAGE-resolved proteins using immune sera pooled from L. intracellularis-infected pigs revealed the presence of a strongly immunoreactive band of ϳ72 kDa. Liquid chromatography-electrospray ionizationtandem mass spectrometry analysis of this component and database mining using a fully annotated L. intracellularis genome sequence and the comprehensive GenBank prokaryotic genomic database highlighted the presence of a protein that shares little sequence similarity with other prokaryotic proteins and appears to be highly species specific. Detailed bioinformatic analyses identified the protein as member of the autotransporter protein family of surface-exposed proteins, and the designation LatA (Lawsonia autotransporter protein A) is suggested. Recognition of recombinant LatA on Western blots by a panel of sera from infected and control pigs corresponded 100% with a commercial serodiagnostic that relies on in vitro culture of this fastidious organism. LatA therefore represents a potential candidate for the development of a rapid and species-specific serodiagnostic reagent.

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Lawsonia Intracellularis

and

Guedes

2010

Pathogenesis of Bacterial Infections in Animals

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Proliferative enteropathy: a global enteric disease of pigs caused byLawsonia intracellularis

Cited by 64 publications

References 109 publications

Lawsonia intracellularisContains a Gene Encoding a Functional Rickettsia-Like ATP/ADP Translocase for Host Exploitation

Lawsonia intracellularisContains a Gene Encoding a Functional Rickettsia-Like ATP/ADP Translocase for Host Exploitation

A Novel Lawsonia intracellularis Autotransporter Protein Is a Prominent Antigen

Lawsonia Intracellularis

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