Project description:Lyme borreliosis (LB) is a tick-borne infection caused by Borrelia burgdorferi. Dogs are at high risk of exposure to ticks and tick-borne pathogens, including B. burgdorferi. Immunodiagnostic assays are usually based on whole-cell preparations of B. burgdorferi as substrate and, consequently, interpretation of results is confounded by antibody cross-reactivity between borrelial antigens and other bacterial species, as well as the anti-LB vaccination status of the dog. For this study, we examined sera from 33 dogs that were experimentally infected with B. burgdorferi through tick bite. These sera were compared with sera from uninfected dogs in their reactivities to 72 different recombinant B. burgdorferi polypeptides on a protein microarray. Amongst antigens frequently recognized by infected dogs were several known to be immunogens for humans, such as Decorin-binding protein A (BBA25), BBA64, fibronectin-binding protein (BBK32), VlsE, Erp and Bdr, CRASP proteins, OspC proteins and some flagellar antigens. Of special interest were the novel antigens BBB14 and BB0844, both hypothetical lipoproteins about which very little is currently known, and that were frequently and strongly recognized by infected dog sera. The antibody response of B. burgdorferi-infected dogs presents both similarities and differences from human counterparts, and both can be important for improvement of canine LB diagnosis and vaccine development. Antibody profiling was performed on sera from dogs experimentally-infected with B. burgdorferi and unexposed controls against antigens of B. burgdorferi. Thirty-three serum samples from experimental infections, and 6 unexposed controls were probed on a protein microarray displaying 72 unique proteins of B. burgdorferi .
Project description:Lyme borreliosis (LB) is a tick-borne infection caused by Borrelia burgdorferi. Dogs are at high risk of exposure to ticks and tick-borne pathogens, including B. burgdorferi. Immunodiagnostic assays are usually based on whole-cell preparations of B. burgdorferi as substrate and, consequently, interpretation of results is confounded by antibody cross-reactivity between borrelial antigens and other bacterial species, as well as the anti-LB vaccination status of the dog. For this study, we examined sera from 33 dogs that were experimentally infected with B. burgdorferi through tick bite. These sera were compared with sera from uninfected dogs in their reactivities to 72 different recombinant B. burgdorferi antigens and 24 OspC protein types on a protein microarray. Amongst antigens frequently recognized by infected dogs were several known to be immunogens for humans, such as Decorin-binding protein A (BBA25), BBA64, fibronectin-binding protein (BBK32), VlsE, Erp and Bdr, CRASP proteins, OspC proteins and some flagellar antigens. Of special interest were the novel antigens BBB14 and BB0844, both hypothetical lipoproteins about which very little is currently known, and that were frequently and strongly recognized by infected dog sera. The antibody response of B. burgdorferi-infected dogs presents both similarities and differences from human counterparts, and both can be important for improvement of canine LB diagnosis and vaccine development. Antibody profiling was performed on sera from dogs experimentally-infected with B. burgdorferi and unexposed controls against antigens of B. burgdorferi. Thirty-three serum samples from experimental infections, and 5 unexposed controls were probed on a protein microarray displaying 24 OspC proteins of B. burgdorferi .
Project description:Lyme borreliosis (LB) is a common infection of domestic dogs in areas where there is enzootic transmission of the agent Borrelia burgdorferi. Immunodiagnostic assays for canine antibodies to B. burgdorferi are usually based on whole-cell preparations as substrate and, consequently, interpretation of results is confounded by antibody cross-reactivity between borrelial antigens and those of other bacterial species. To more broadly characterize the antibody responses to B. burgdorferi infection and to assess the diversity in those responses between individual dogs, we examined sera from 32 adult, colony-bred beagle dogs that were experimentally infected with B. burgdorferi through tick bites and compared those on a protein microarray with sera from uninfected dogs in their antibody reactivities to various recombinant chromosome- and plasmid-encoded B. burgdorferi proteins, including 24 of the serotype-defining OspC proteins of North America. The profiles of immunogenic proteins for the dogs were largely similar to those for humans and natural reservoir rodents. These included the decorin-binding protein DbpB, BBA36, BBA57, BBA64, fibronectin-binding protein BBK32, VlsE, FlaB and other flagellar structural proteins, Erp proteins, Bdr proteins, and all of the OspC proteins. In addition, the canine sera bound to the presumptive lipoproteins BBB14 and BB0844, which infrequently elicited antibodies in humans or rodents. Although the beagle, like most other domestic dog breeds, has a small effective population size and features extensive linkage disequilibrium, the group of animals here demonstrated diversity in antibody responses by measures of antibody levels and specificities for conserved proteins, like DbpB, and polymorphic ones, like OspC.
Project description:Lyme borreliosis (LB) is a common infection of domestic dogs in areas where there is enzootic transmission of the agent Borrelia burgdorferi. Immunodiagnostic assays for canine antibodies to B. burgdorferi are usually based on whole-cell preparations as substrate and, consequently, interpretation of results is confounded by antibody cross-reactivity between borrelial antigens and those of other bacterial species. To more broadly characterize the antibody responses to B. burgdorferi infection and to assess the diversity in those responses between individual dogs, we examined sera from 32 adult, colony-bred beagle dogs that were experimentally infected with B. burgdorferi through tick bites and compared those on a protein microarray with sera from uninfected dogs in their antibody reactivities to various recombinant chromosome- and plasmid-encoded B. burgdorferi proteins, including 24 of the serotype-defining OspC proteins of North America. The profiles of immunogenic proteins for the dogs were largely similar to those for humans and natural reservoir rodents. These included the decorin-binding protein DbpB, BBA36, BBA57, BBA64, fibronectin-binding protein BBK32, VlsE, FlaB and other flagellar structural proteins, Erp proteins, Bdr proteins, and all of the OspC proteins. In addition, the canine sera bound to the presumptive lipoproteins BBB14 and BB0844, which infrequently elicited antibodies in humans or rodents. Although the beagle, like most other domestic dog breeds, has a small effective population size and features extensive linkage disequilibrium, the group of animals here demonstrated diversity in antibody responses by measures of antibody levels and specificities for conserved proteins, like DbpB, and polymorphic ones, like OspC.
Project description:Transcriptional profiling of dog muscle tissue comparing control dogs. tested, genomewide, for genes differentially expressed in muscle between the escapers and the affected dogs. Using Agilent mRNA SurePrint Canine arrays, we compared muscle gene expression of the two escapers, four affected, and four normal dogs at age 2 years.
Project description:Previously, we found that the exclusion of adult worm occurred early stage of reinfection in dog repeatedly infected with E. multilocularis. In this study, we compared gene expression profile in small intestinal mucosa between control (normal dogs), first-infection group (dogs infected with E. multilocularis for the first time) and repeated-infection group (dogs repeatedly infected with this parasite 4 times). A total of 1916 genes for first-infection group and a total of 2950 genes for repeated-infection group were found to be up-regulated >2 fold when compared to control group. The data analysis revealed that genes related to tissue repair were largely upregulated in repeated-infection group compared to controls and first-infection group which indicated that hyperfunction of mucosal response occurred in repeatedly infected dogs. Expression of eight genes was quantified in the same RNA samples by real-time PCR. These microarray results may present new horizons for development of mucosal vaccine for the final hosts.
Project description:<p>Toxocariasis, mainly caused by <em>Toxocara canis</em>, and to a lesser extent, <em>Toxocara cati</em>, is a neglected parasitic zoonosis. The mechanisms that underlie the changes in lipid metabolism of <em>T. canis</em> infection in Beagle dogs' lungs remain unclear. Lipidomics is a rapidly emerging approach that enables the global profiling of lipid composition by mass spectrometry. In this study, we performed a non-targeted lipidomic analysis of the lungs of Beagle dogs infected with the roundworm <em>T. canis</em> using liquid chromatography-tandem mass spectrometry (LC-MS/MS). A total of 1197 lipid species were identified, of which 63, 88 and 157 lipid species were significantly altered at 24 h post-infection (hpi), 96 hpi and 36 days post-infection (dpi), respectively. This global lipidomic profiling identified infection-specific lipid signatures for lung toxocariasis, and represented a comprehensive comparison between the lipid composition of dogs' lungs in the presence and absence of <em>T. canis</em> infection. The potential roles of the identified lipid species in the pathogenesis of <em>T. canis</em> are discussed, which has important implications for better understanding the interaction mechanism between <em>T. canis</em> and the host lung.</p>
Project description:Transcriptional profiling of dog muscle tissue comparing control dogs. tested, genomewide, for genes differentially expressed in muscle between the escapers and the affected dogs. Using Agilent mRNA SurePrint Canine arrays, we compared muscle gene expression of the two escapers, four affected, and four normal dogs at age 2 years. normal, affected DMD, and escapers
Project description:We demonstrated canine influenza virus (H3N2) pathogenicity to dogs using microarray analysis. Many genes related to innate immunity, such as toll-like receptors, immune cells of natural killer cells, macrophages, neutrophils, nitric oxide and reactive oxygen species, and interferon, were induced. RNA was extracted from canine influenza virus H3N2-infected dogs. The lung RNA of uninfected dogs was used as a negative control. We compared gene expression levels between infected and uninfected dogs using microarray analysis.
Project description:Serum proteomes of healthy and Leishmania-infected dogs were analyzed by DDA-MS approach to generate sample-specific spectral library for subsequent SWATH-MS analysis, namely pooled, mixed control, mixed case (Leishmania-infected), ProteoMiner enriched, and 3 SCX fractions; all containing iRT peptides for retention time normalization.