scholarly journals Campylobacter jejuni persistently colonizes gnotobiotic altered Schaedler flora C3H/HeN mice and induces mild colitis

2020 ◽  
Vol 367 (20) ◽  
Author(s):  
Meghan Wymore Brand ◽  
Orhan Sahin ◽  
Jesse M Hostetter ◽  
Julian Trachsel ◽  
Qijing Zhang ◽  
...  
Keyword(s):  
Animal Models ◽  
Campylobacter Jejuni ◽  
Gastrointestinal Disease ◽  
Proximal Colon ◽  
Rodent Model ◽  
Mucosal Inflammation ◽  
Colonization Resistance ◽  
Food Borne ◽  
Bacterial Gastroenteritis

ABSTRACT Campylobacter jejuni is a major cause of food-borne human bacterial gastroenteritis but animal models for C. jejuni mediated disease remain limited because C. jejuni poorly colonizes immunocompetent, conventionally-reared (Conv-R) mice. Thus, a reliable rodent model (i.e. persistent colonization) is desirable in order to evaluate C. jejuni-mediated gastrointestinal disease and mechanisms of pathogenicity. As the nature and complexity of the microbiota likely impacts colonization resistance for C. jejuni, Conv-R and gnotobiotic C3H/HeN mice were used to evaluate the persistence of C. jejuni colonization and development of disease. A total of four C. jejuni isolates readily and persistently colonized ASF mice and induced mild mucosal inflammation in the proximal colon, but C. jejuni did not stably colonize nor induce lesions in Conv-R mice. This suggests that the pathogenesis of C. jejuni is influenced by the microbiota, and that ASF mice offer a reproducible model to study the influence of the microbiota on the ability of C. jejuni to colonize the gut and to mediate gastroenteritis.

scholarly journals Biofilm Formation by Campylobacter jejuni Is Increased under Aerobic Conditions

2010 ◽  
Vol 76 (7) ◽  
pp. 2122-2128 ◽  
Author(s):  
Mark Reuter ◽  
Arthur Mallett ◽  
Bruce M. Pearson ◽  
Arnoud H. M. van Vliet
Keyword(s):  
Campylobacter Jejuni ◽  
Food Chain ◽  
Biofilm Formation ◽  
Planktonic Cells ◽  
Aerobic Conditions ◽  
Food Borne ◽  
Passive Release ◽  
Bacterial Gastroenteritis ◽  
Microaerobic Conditions ◽  
Developed World

ABSTRACT The microaerophilic human pathogen Campylobacter jejuni is the leading cause of food-borne bacterial gastroenteritis in the developed world. During transmission through the food chain and the environment, the organism must survive stressful environmental conditions, particularly high oxygen levels. Biofilm formation has been suggested to play a role in the environmental survival of this organism. In this work we show that C. jejuni NCTC 11168 biofilms developed more rapidly under environmental and food-chain-relevant aerobic conditions (20% O2) than under microaerobic conditions (5% O2, 10% CO2), although final levels of biofilms were comparable after 3 days. Staining of biofilms with Congo red gave results similar to those obtained with the commonly used crystal violet staining. The level of biofilm formation by nonmotile aflagellate strains was lower than that observed for the motile flagellated strain but nonetheless increased under aerobic conditions, suggesting the presence of flagellum-dependent and flagellum-independent mechanisms of biofilm formation in C. jejuni. Moreover, preformed biofilms shed high numbers of viable C. jejuni cells into the culture supernatant independently of the oxygen concentration, suggesting a continuous passive release of cells into the medium rather than a condition-specific active mechanism of dispersal. We conclude that under aerobic or stressful conditions, C. jejuni adapts to a biofilm lifestyle, allowing survival under detrimental conditions, and that such a biofilm can function as a reservoir of viable planktonic cells. The increased level of biofilm formation under aerobic conditions is likely to be an adaptation contributing to the zoonotic lifestyle of C. jejuni.

scholarly journals The HtrA Protease of Campylobacter jejuni Is Required for Heat and Oxygen Tolerance and for Optimal Interaction with Human Epithelial Cells

2005 ◽  
Vol 71 (6) ◽  
pp. 3205-3212 ◽  
Author(s):  
Lone Brøndsted ◽  
Marianne Thorup Andersen ◽  
Mary Parker ◽  
Kirsten Jørgensen ◽  
Hanne Ingmer
Keyword(s):  
Epithelial Cells ◽  
Campylobacter Jejuni ◽  
Wild Type Strain ◽  
Cumene Hydroperoxide ◽  
Misfolded Protein ◽  
Oxygen Tolerance ◽  
Human Epithelial Cells ◽  
Food Borne ◽  
Bacterial Gastroenteritis ◽  
Developed World

ABSTRACT Campylobacter jejuni is a predominant cause of food-borne bacterial gastroenteritis in the developed world. We have investigated the importance of a homologue of the periplasmic HtrA protease in C. jejuni stress tolerance. A C. jejuni htrA mutant was constructed and compared to the parental strain, and we found that growth of the mutant was severely impaired both at 44°C and in the presence of the tRNA analogue puromycin. Under both conditions, the level of misfolded protein is known to increase, and we propose that the heat-sensitive phenotype of the htrA mutant is caused by an accumulation of misfolded protein in the periplasm. Interestingly, we observed that the level of the molecular chaperones DnaK and ClpB was increased in the htrA mutant, suggesting that accumulation of nonnative proteins in the periplasm induces the expression of cytoplasmic chaperones. While lack of HtrA reduces the oxygen tolerance of C. jejuni, the htrA mutant was not sensitive to compounds that increase the formation of oxygen radicals, such as paraquat, cumene hydroperoxide, and H2O2. Using tissue cultures of human epithelial cells (INT407), we found that the htrA mutant adhered to and invaded human epithelial cells with a decreased frequency compared to the wild-type strain. This defect may be a consequence of the observed altered morphology of the htrA mutant. Thus, our results suggest that in C. jejuni, HtrA is important for growth during stressful conditions and has an impact on virulence.

scholarly journals Genes Linking Copper Trafficking and Homeostasis to the Biogenesis and Activity of the cbb3-Type Cytochrome c Oxidase in the Enteric Pathogen Campylobacter jejuni

2021 ◽  
Vol 12 ◽  
Author(s):  
Nitanshu Garg ◽  
Aidan J. Taylor ◽  
Federica Pastorelli ◽  
Sarah E. Flannery ◽  
Phillip J. Jackson ◽  
...  
Keyword(s):  
Campylobacter Jejuni ◽  
Polyacrylamide Gel Electrophoresis ◽  
Structural Similarity ◽  
Copper Chaperone ◽  
Oxygen Binding ◽  
Gene Deletions ◽  
Copper Trafficking ◽  
Food Borne ◽  
Native Polyacrylamide Gel Electrophoresis ◽  
Bacterial Gastroenteritis

Bacterial C-type haem-copper oxidases in the cbb3 family are widespread in microaerophiles, which exploit their high oxygen-binding affinity for growth in microoxic niches. In microaerophilic pathogens, C-type oxidases can be essential for infection, yet little is known about their biogenesis compared to model bacteria. Here, we have identified genes involved in cbb3-oxidase (Cco) assembly and activity in the Gram-negative pathogen Campylobacter jejuni, the commonest cause of human food-borne bacterial gastroenteritis. Several genes of unknown function downstream of the oxidase structural genes ccoNOQP were shown to be essential (cj1483c and cj1486c) or important (cj1484c and cj1485c) for Cco activity; Cj1483 is a CcoH homologue, but Cj1484 (designated CcoZ) has structural similarity to MSMEG_4692, involved in Qcr-oxidase supercomplex formation in Mycobacterium smegmatis. Blue-native polyacrylamide gel electrophoresis of detergent solubilised membranes revealed three major bands, one of which contained CcoZ along with Qcr and oxidase subunits. Deletion of putative copper trafficking genes ccoI (cj1155c) and ccoS (cj1154c) abolished Cco activity, which was partially restored by addition of copper during growth, while inactivation of cj0369c encoding a CcoG homologue led to a partial reduction in Cco activity. Deletion of an operon encoding PCuAC (Cj0909) and Sco (Cj0911) periplasmic copper chaperone homologues reduced Cco activity, which was partially restored in the cj0911 mutant by exogenous copper. Phenotypic analyses of gene deletions in the cj1161c–1166c cluster, encoding several genes involved in intracellular metal homeostasis, showed that inactivation of copA (cj1161c), or copZ (cj1162c) led to both elevated intracellular Cu and reduced Cco activity, effects exacerbated at high external Cu. Our work has therefore identified (i) additional Cco subunits, (ii) a previously uncharacterized set of genes linking copper trafficking and Cco activity, and (iii) connections with Cu homeostasis in this important pathogen.

scholarly journals Multi-Omics Characterization of Inflammatory Bowel Disease-Induced Hyperplasia/Dysplasia in the Rag2−/−/Il10−/− Mouse Model

2020 ◽  
Vol 22 (1) ◽  
pp. 364
Author(s):  
Qiyuan Han ◽  
Thomas J. Y. Kono ◽  
Charles G. Knutson ◽  
Nicola M. Parry ◽  
Christopher L. Seiler ◽  
...  
Keyword(s):  
Inflammatory Bowel Disease ◽  
Bowel Disease ◽  
Gastrointestinal Disease ◽  
Tumor Development ◽  
Proximal Colon ◽  
Helicobacter Hepaticus ◽  
Reduced Representation ◽  
Reduced Representation Bisulfite Sequencing ◽  
Inflammatory Bowel

Epigenetic dysregulation is hypothesized to play a role in the observed association between inflammatory bowel disease (IBD) and colon tumor development. In the present work, DNA methylome, hydroxymethylome, and transcriptome analyses were conducted in proximal colon tissues harvested from the Helicobacter hepaticus (H. hepaticus)-infected murine model of IBD. Reduced representation bisulfite sequencing (RRBS) and oxidative RRBS (oxRRBS) analyses identified 1606 differentially methylated regions (DMR) and 3011 differentially hydroxymethylated regions (DhMR). These DMR/DhMR overlapped with genes that are associated with gastrointestinal disease, inflammatory disease, and cancer. RNA-seq revealed pronounced expression changes of a number of genes associated with inflammation and cancer. Several genes including Duox2, Tgm2, Cdhr5, and Hk2 exhibited changes in both DNA methylation/hydroxymethylation and gene expression levels. Overall, our results suggest that chronic inflammation triggers changes in methylation and hydroxymethylation patterns in the genome, altering the expression of key tumorigenesis genes and potentially contributing to the initiation of colorectal cancer.

scholarly journals Cognitive impairments induced by necrotizing enterocolitis can be prevented by inhibiting microglial activation in mouse brain

2018 ◽  
Vol 10 (471) ◽  
pp. eaan0237 ◽  
Author(s):  
Diego F. Niño ◽  
Qinjie Zhou ◽  
Yukihiro Yamaguchi ◽  
Laura Y. Martin ◽  
Sanxia Wang ◽  
...  
Keyword(s):  
Necrotizing Enterocolitis ◽  
Microglial Activation ◽  
Gastrointestinal Disease ◽  
Cognitive Impairments ◽  
High Mobility ◽  
Neurological Dysfunction ◽  
Mucosal Inflammation ◽  
Signaling Axis ◽  
The Brain

Necrotizing enterocolitis (NEC) is a severe gastrointestinal disease of the premature infant. One of the most important long-term complications observed in children who survive NEC early in life is the development of profound neurological impairments. However, the pathways leading to NEC-associated neurological impairments remain unknown, thus limiting the development of prevention strategies. We have recently shown that NEC development is dependent on the expression of the lipopolysaccharide receptor Toll-like receptor 4 (TLR4) on the intestinal epithelium, whose activation by bacteria in the newborn gut leads to mucosal inflammation. Here, we hypothesized that damage-induced production of TLR4 endogenous ligands in the intestine might lead to activation of microglial cells in the brain and promote cognitive impairments. We identified a gut-brain signaling axis in an NEC mouse model in which activation of intestinal TLR4 signaling led to release of high-mobility group box 1 in the intestine that, in turn, promoted microglial activation in the brain and neurological dysfunction. We further demonstrated that an orally administered dendrimer-based nanotherapeutic approach to targeting activated microglia could prevent NEC-associated neurological dysfunction in neonatal mice. These findings shed light on the molecular pathways leading to the development of NEC-associated brain injury, provide a rationale for early removal of diseased intestine in NEC, and indicate the potential of targeted therapies that protect the developing brain in the treatment of NEC in early childhood.

scholarly journals From animal models to patients: the role of placental microRNAs, miR-210, miR-126, and miR-148a/152 in preeclampsia

2020 ◽  
Vol 134 (8) ◽  
pp. 1001-1025 ◽  
Author(s):  
Sonya Frazier ◽  
Martin W. McBride ◽  
Helen Mulvana ◽  
Delyth Graham
Keyword(s):  
Animal Models ◽  
Cell Types ◽  
Rodent Model ◽  
Hypertensive Disorder ◽  
Model Studies ◽  
Genetic Components ◽  
Immune Mediated ◽  
Hypertensive Disorder Of Pregnancy

Abstract Placental microRNAs (miRNAs) regulate the placental transcriptome and play a pathological role in preeclampsia (PE), a hypertensive disorder of pregnancy. Three PE rodent model studies explored the role of placental miRNAs, miR-210, miR-126, and miR-148/152 respectively, by examining expression of the miRNAs, their inducers, and potential gene targets. This review evaluates the role of miR-210, miR-126, and miR-148/152 in PE by comparing findings from the three rodent model studies with in vitro studies, other animal models, and preeclamptic patients to provide comprehensive insight into genetic components and pathological processes in the placenta contributing to PE. The majority of studies demonstrate miR-210 is upregulated in PE in part driven by HIF-1α and NF-κBp50, stimulated by hypoxia and/or immune-mediated processes. Elevated miR-210 may contribute to PE via inhibiting anti-inflammatory Th2-cytokines. Studies report an up- and downregulation of miR-126, arguably reflecting differences in expression between cell types and its multifunctional capacity. MiR-126 may play a pro-angiogenic role by mediating the PI3K-Akt pathway. Most studies report miR-148/152 family members are upregulated in PE. Evidence suggests they may inhibit DNA methylation of genes involved in metabolic and inflammatory pathways. Given the genetic heterogeneity of PE, it is unlikely that a single placental miRNA is a suitable therapeutic target for all patients. Investigating miRNAs in PE subtypes in patients and animal models may represent a more appropriate approach going forward. Developing methods for targeting placental miRNAs and specific placental cell types remains crucial for research seeking to target placental miRNAs as a novel treatment for PE.

scholarly journals Physiological importance of NGLY1, as revealed by rodent model analyses

2021 ◽  
Author(s):  
Haruhiko Fujihira ◽  
Makoto Asahina ◽  
Tadashi Suzuki
Keyword(s):  
Quality Control ◽  
Endoplasmic Reticulum ◽  
Control System ◽  
Animal Models ◽  
Rodent Model ◽  
Rodent Models ◽  
Future Perspectives ◽  
Physiological Functions ◽  
Physiological Importance ◽  
Glycan Degradation

Summary Cytosolic peptide:N-glycanase (NGLY1) is an enzyme that cleaves N-glycans from glycoproteins that has been retrotranslocated from the endoplasmic reticulum (ER) lumen into the cytosol. It is known that NGLY1 is involved in the degradation of cytosolic glycans (non-lysosomal glycan degradation) as well as ER-associated degradation (ERAD), a quality control system for newly synthesized glycoproteins. The discovery of NGLY1 deficiency, which is caused by mutations in the human NGLY1 gene and results in multisystemic symptoms, has attracted interest in the physiological functions of NGLY1 in mammals. Studies using various animal models led to the identification of possible factors that contribute to the pathogenesis of NGLY1 deficiency. In this review, we summarize phenotypic consequences that have been reported for various Ngly1-deficient rodent models, and discuss future perspectives to provide more insights into the physiological functions of NGLY1.

scholarly journals Role of Campylobacter jejuni Respiratory Oxidases and Reductases in Host Colonization

2008 ◽  
Vol 74 (5) ◽  
pp. 1367-1375 ◽  
Author(s):  
Rebecca A. Weingarten ◽  
Jesse L. Grimes ◽  
Jonathan W. Olson
Keyword(s):  
Campylobacter Jejuni ◽  
Anaerobic Respiration ◽  
Wild Type ◽  
Respiratory Enzymes ◽  
Host Colonization ◽  
Enzymatic Function ◽  
Food Borne ◽  
Transport Chain ◽  
Respiratory Oxidases

ABSTRACT Campylobacter jejuni is the leading cause of human food-borne bacterial gastroenteritis. The C. jejuni genome sequence predicts a branched electron transport chain capable of utilizing multiple electron acceptors. Mutants were constructed by disrupting the coding regions of the respiratory enzymes nitrate reductase (napA::Cm), nitrite reductase (nrfA::Cm), dimethyl sulfoxide, and trimethylamine N-oxide reductase (termed Cj0264::Cm) and the two terminal oxidases, a cyanide-insensitive oxidase (cydA::Cm) and cbb3-type oxidase (ccoN::Cm). Each strain was characterized for the loss of the associated enzymatic function in vitro. The strains were then inoculated into 1-week-old chicks, and the cecal contents were assayed for the presence of C. jejuni 2 weeks postinoculation. cydA::Cm and Cj0264c::Cm strains colonized as well as the wild type; napA::Cm and nrfA::Cm strains colonized at levels significantly lower than the wild type. The ccoN::Cm strain was unable to colonize the chicken; no colonies were recovered at the end of the experiment. While there appears to be a role for anaerobic respiration in host colonization, oxygen is the most important respiratory acceptor for C. jejuni in the chicken cecum.

scholarly journals Draft Genome Sequence of the Enteropathogenic Bacterium Campylobacter jejuni Strain cj255

2015 ◽  
Vol 3 (5) ◽  
Author(s):  
Fariha Masood Siddiqui ◽  
Muhammad Ibrahim ◽  
Nighat Noureen ◽  
Zobia Noreen ◽  
Richard W. Titball ◽  
...  
Keyword(s):  
Global Health ◽  
Host Range ◽  
Campylobacter Jejuni ◽  
Genome Sequence ◽  
Draft Genome ◽  
Epidemiological Studies ◽  
Draft Genome Sequence ◽  
Broad Host Range ◽  
Bacterial Gastroenteritis

The enteropathogen Campylobacter jejuni is a global health disaster, being one of the leading causes of bacterial gastroenteritis. Here, we present the draft genome sequence of C. jejuni strain cj255, isolated from a chicken source in Islamabad, Pakistan. The draft genome sequence will aid in epidemiological studies and quarantine of this broad-host-range pathogen.

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