Shilu Xu

Bacterial cytolethal distending toxin promotes the development of dysplasia in a model of microbially induced hepatocarcinogenesis

Bacterial cytolethal distending toxins (CDTs) containing DNase I‐like activity can induce limited host DNA damage that leads to activation of the DNA‐damage repair responses in cultured cell lines. However, in vivo experimental evidence linking CDTs to carcinogenesis is lacking. In this study, infection of A/JCr mice with an isogenic mutant of Helicobacter hepaticus lacking CDT activity (CDT mutant) induced chronic hepatitis comparable to wild‐type H. hepaticus (Hh) infection at both 4 and 10 months post inoculation (MPI); however, the CDT mutant‐infected mice did not develop hepatic dysplasic nodules at 10 MPI, whereas those infected with Hh did. There was no significant difference in hepatic colonization levels between the CDT mutant and Hh at both time points (P > 0.05). At 4 MPI, mice infected with Hh had significantly enhanced hepatic transcription of proinflammatory TNF‐α, IFN‐γ and Cox‐2, growth mediators IL‐6 and TGF‐α, anti‐apoptotic Bcl‐2 and Bcl‐XL, and increased hepatocyte proliferation (P < 0.05) compared with the control or the CDT mutant‐infected mice. In addition, Hh infected male mice had upregulated hepatic mRNA levels of RelA (p65), p50, GADD45β and c‐IAP1, components of the NF‐κB pathway compared with the CDT mutant‐infected mice. At 10 MPI, Hh infection was associated with significant upregulation of IL‐6 mRNA. Activation of the inflammatory NF‐κB pathway and upregulation of proinflammatory cytokines plus IL‐6 in the Hh but not in the CDT mutant‐infected mice suggest that Hh CDT plays a key role in promoting the dysplastic changes in Hh‐infected mouse livers.

Enterohepatic Helicobacter Species Are Prevalent in Mice from Commercial and Academic Institutions in Asia, Europe, and North America

ABSTRACT The discovery of Helicobacter hepaticus and its role in hepatitis, hepatocellular carcinoma, typhlocolitis, and lower-bowel carcinoma in murine colonies was followed by the isolation and characterization of other Helicobacter spp. involved in enterohepatic disease. Colonization of mouse colonies with members of the family Helicobacteriaceae has become an increasing concern for the research community. From 2001 to 2005, shipments of selected gift mice from other institutions and mice received from specified commercial vendors were screened for Helicobacter spp. by culture of cecal tissue. The identities of the isolates were confirmed by genus-specific PCR, followed by species-specific PCR and restriction fragment length polymorphism analysis. Sequencing of the 16S rRNA gene was performed if the species identity was not apparent. The survey included 79 mice from 34 sources: 2 commercial sources and 16 research sources from the United States and 1 commercial source and 15 research sources from Canada, Europe, or Asia. Helicobacter spp. were cultured from the ceca of 62 of 79 mice. No Helicobacter spp. were found in mice from advertised Helicobacter-free production areas from two U.S. vendors. Multiple Helicobacter spp. were found in mice from one vendors acknowledged Helicobacter-infected production area. The European commercial vendor had mice infected with novel Helicobacter sp. strain MIT 96-1001. Of the U.S. academic institutions, 6 of 16 (37%) had mice infected with Helicobacter hepaticus; but monoinfection with H. bilis, H. mastomyrinus, H. rodentium, and MIT 96-1001 was also encountered, as were mice infected simultaneously with two Helicobacter spp. Non-U.S. academic institutions had mice that were either monoinfected with H. hepaticus, monoinfected with seven other Helicobacter spp., or infected with a combination of Helicobacter spp. This survey indicates that 30 of 34 (88%) commercial and academic institutions in Canada, Europe, Asia, Australia, and the United States have mouse colonies infected with Helicobacter spp. Mice from 20 of the 34 institutions (59%) were most commonly colonized with H. hepaticus alone or in combination with other Helicobacter spp. These results indicate that a broad range of Helicobacter spp. infect mouse research colonies. The potential impact of these organisms on in vivo experiments continues to be an important issue for mice being used for biomedical research.

Isolation of Helicobacter cinaedi from the Colon, Liver, and Mesenteric Lymph Node of a Rhesus Monkey with Chronic Colitis and Hepatitis

ABSTRACT On the basis of biochemical, phenotypic, and 16S rRNA analyses,Helicobacter cinaedi was isolated from the colon, liver, and mesenteric lymph nodes of a 2-year-old rhesus monkey with chronic diarrhea. Histologically, the liver had mild to moderate biliary hyperplasia and hypertrophy with periportal inflammation and fibrosis. Colonic and cecal lesions consisted of diffuse chronic inflammation and glandular hyperplasia extending the length of the crypts. This is the first observation of H. cinaedi associated with active hepatitis and colitis in a nonhuman primate.

Cytolethal Distending Toxin Is Essential for Helicobacter hepaticus Colonization in Outbred Swiss Webster Mice

ABSTRACT Helicobacter hepaticus, which induces chronic hepatitis and typhlocolitis in susceptible mouse strains, produces a cytolethal distending toxin (CDT) consisting of CdtA, CdtB, and CdtC. A cdtB-deficient H. hepaticus isogenic mutant (HhcdtBm7) was generated and characterized for colonization parameters in four intestinal regions (jejunum, ileum, cecum, and colon) of outbred Swiss Webster (SW) mice. Inactivation of the cdtB gene abolished the ability of HhcdtBm7 to colonize female mice at both 8 and 16 weeks postinfection (wpi), whereas HhcdtBm7 colonized all of four intestinal regions of three of five males at 8 wpi and then was eliminated by 16 wpi. Wild-type (WT) H. hepaticus was detected in the corresponding intestinal regions of both male and female mice at 8 and 16 wpi; however, colonization levels of WT H. hepaticus in the cecum and colon of male mice were approximately 1,000-fold higher than in females (P < 0.0079) at 16 wpi. Infection with WT H. hepaticus, but not HhcdtBm7, at 8 wpi was associated with significantly increased mRNA level of ileal and cecal gamma interferon (IFN-γ) in females (P < 0.016 and 0.031 between WT H. hepaticus-infected and sham-dosed females, respectively). In contrast, the mRNA levels of IFN-γ were significantly higher in the colon (P < 0.0079) and trended to be higher in the cecum (P < 0.15) in the HhcdtBm7-colonized male mice versus the sham-dosed controls at 8 wpi. In addition, mRNA levels of ileal IFN-γ were significantly higher in the control females than males at 8 wpi (P < 0.016). There were significantly higher Th1-associated immunoglobulin G2a (IgG2a), Th2-associated IgG1 and mucosal IgA (P < 0.002, 0.002, 0.002, respectively) responses in the mice infected with WT H. hepaticus when compared to HhcdtBm7 at 16 wpi. Colonic interleukin-10 (IL-10) expressions at 16 wpi were significantly lower in both female and male mice colonized by WT H. hepaticus or in males transiently colonized through 8 wpi by HhcdtBm7 versus control mice (P < 0.0159). These lines of evidence indicate that (i) H. hepaticus CDT plays a crucial role in the persistent colonization of H. hepaticus in SW mice; (ii) SW female mice are more resistant to H. hepaticus colonization than male mice; (iii) there was persistent colonization of WT H. hepaticus in cecum, colon, and jejunum but only transient colonization of H. hepaticus in the ileum of female mice; (iv) H. hepaticus colonization was associated with down-regulation of colonic IL-10 production.

Helicobacter cetorum sp. nov., a Urease-Positive Helicobacter Species Isolated from Dolphins and Whales

ABSTRACT A novel helicobacter with the proposed name Helicobacter cetorum, sp. nov. (type strain MIT 99-5656; GenBank accession number AF 292378 ), was cultured from the main stomach of two wild, stranded Atlantic white-sided dolphins (Lagenorhynchus acutus) and from the feces of three captive cetaceans (a Pacific white-sided dolphin [Lagenorhynchus obliquidens]; an Atlantic bottlenose dolphin [Tursiops truncatus]; and a beluga whale [Delphinapterus leucas]). The infected captive cetaceans were either subclinical, or clinical signs included intermittent regurgitation, inappetance, weight loss, and lethargy. Ulcers were observed in the esophagus and forestomach during endoscopic examination in two of the three captive animals. In the third animal, esophageal linear erosions were visualized endoscopically, and histopathological evaluation of the main stomach revealed multifocal lymphoplasmacytic gastritis with silver-stained spiral-shaped bacteria. Helicobacter cetorum is a fusiform gram-negative bacterium with a single bipolar flagellum. The isolates grow under microaerobic conditions at 37 and 42°C but not at 25°C. H. cetorum is urease, catalase, and oxidase positive, and it is sensitive to cephalothin. The isolates from the wild, stranded dolphins were sensitive to nalidixic acid, whereas the isolates from the collection animals were resistant. By 16S rRNA sequencing it was determined that H. cetorum represented a distinct taxon that clusters most closely with H. pylori. Further studies are necessary to determine the role of H. cetorum in the development of gastric ulcers and gastritis of cetaceans. This is the first description and formal naming of a novel Helicobacter species from a marine mammal.

Novel Helicobacter species isolated from rhesus monkeys with chronic idiopathic colitis.

Chronic, idiopathic diffuse colitis is a well recognised clinical and pathological entity in captive rhesus monkeys. Six rhesus monkeys were diagnosed with clinically debilitating, chronic diarrhoea. Histologically, colonic tissues were characterised as chronic, moderate to severe colitis and typhlitis, with diffuse mononuclear inflammation of lamina propria, reactive lymphoid hyperplasia and multifocal micro-abscesses. Colonic tissues were cultured for Salmonella spp. and Shigella spp.; all results were negative. Samples were negative for Clostridium difficile A and B toxins, and special stains of colonic tissue for acid-fast bacteria were also negative. The six diarrhoeic monkeys tested gave negative results for serum IgG antibodies to herpes B virus, STLV, SRV and SIV. Colonic tissue from the six diarrhoeic and two clinically normal monkeys with histologically confirmed colitis from the same colony were also subjected to micro-aerobic culture. Micro-aerobic cultures from all eight monkeys incubated at 37 degrees C and 42 degrees C revealed pinpoint or spreading colonies on antibiotic-containing media. Bacteria were identified as gram-negative, oxidase positive and urease negative. Of the nine strains characterised biochemically, two separate biotypes (corresponding to different species by 16S rRNA analysis) were identified. One biotype (type 1), from non-diarrhoeic monkeys and the second biotype (type 2) from diarrhoeic animals with subclinical chronic colonic inflammation, differed by catalase activity, ability to reduce nitrate to nitrite and sensitivity to cephalothin. Complete 16S rRNA analysis of five of the nine strains characterised biochemically indicated that the organisms isolated were two novel Helicobacter spp. By electron microscopy, these novel helicobacters had spiral morphology with bipolar sheathed flagella. This is the first report describing the isolation of novel Helicobacter spp. from inflamed colons of rhesus monkeys. Studies are needed to determine whether these novel Helicobacter spp. play a causal role in the initiation and progression of chronic colitis in macaques. Further microbiological and histological analysis of this chronic idiopathic colitis syndrome in macaques may prove useful in understanding the aetiology and pathogenesis of inflammatory bowel disease in man.

Cytolethal Distending Toxin Promotes Helicobacter cinaedi-Associated Typhlocolitis in Interleukin-10-Deficient Mice

ABSTRACT Helicobacter cinaedi colonizes a wide host range, including rodents, and may be an emerging zoonotic agent. Colonization parameters, pathology, serology, and inflammatory responses to wild-type H. cinaedi (WTHc) were evaluated in B6.129P2-IL-10tm1Cgn (IL-10−/−) mice for 36 weeks postinfection (WPI) and in C57BL/6 (B6) mice for 12 WPI. Because cytolethal distending toxin (CDT) may be a virulence factor, IL-10−/− mice were also infected with the cdtBHc and cdtB-NHc isogenic mutants and evaluated for 12 WPI. Consistent with other murine enterohepatic helicobacters, WTHc did not cause typhlocolitis in B6 mice, but mild to severe lesions developed at the cecocolic junction in IL-10−/− mice, despite similar colonization levels of WTHc in the cecum and colon of both B6 and IL-10−/− mice. WTHc and cdtB mutants also colonized IL-10−/− mice to a similar extent, but infection with either cdtB mutant resulted in attenuated typhlocolitis and hyperplasia compared to infection with WTHc (P < 0.03), and only WTHc infection caused dysplasia and intramucosal carcinoma. WTHc and cdtBHc mutant infection of IL-10−/− mice elevated mRNA expression of tumor necrosis factor alpha, inducible nitric oxide synthase, and gamma interferon in the cecum, as well as elevated Th1-associated serum immunoglobulin G2ab compared to infection of B6 mice (P < 0.05). Although no hepatitis was noted, liver samples were PCR positive at various time points for WTHc or the cdtBHc mutant in approximately 33% of IL-10−/− mice and in 10 to 20% of WTHc-infected B6 mice. These results indicate that WTHc can be used to model inflammatory bowel disease in IL-10−/− mice and that CDT contributes to the virulence of H. cinaedi.

A Novel Enterohepatic Helicobacter Species ‘Helicobacter mastomyrinus’ Isolated from the Liver and Intestine of Rodents

Background.  A number of novel Helicobacter species have been isolated from both animals and humans. Many of these helicobacters colonize the lower gastrointestinal tract and hepatobiliary tract and are associated with diseases.

Isolation and Characterization of a Helicobacter sp. from the Gastric Mucosa of Dolphins, Lagenorhynchus acutus and Delphinus delphis

ABSTRACT Gastric ulcerations in dolphins have been reported for decades. Some of these lesions were associated with parasitic infections. However, cases of nonparasitic gastric ulcers with no clearly defined etiology also have been reported in wild and captive dolphins. Considerable speculation exists as to whether dolphins haveHelicobacter-associated gastritis and peptic ulcer disease. The stomachs of seven stranded Atlantic white-sided dolphins,Lagenorhynchus acutus, and 1 common dolphin,Delphinus delphis, were assessed for the presence ofHelicobacter species. Novel Helicobacterspecies were identified by culture in the gastric mucosa of two of the eight dolphins studied and by PCR in seven of the eight dolphins. The gram-negative organisms were urease, catalase, and oxidase positive. Spiral to fusiform bacteria were detected in gastric mucosa by Warthin Starry staining. Histopathology revealed mild to moderate diffuse lymphoplasmacytic gastritis within the superficial mucosa of the main stomach. The pyloric stomach was less inflamed, and bacteria did not extend deep into the glands. The lesions parallel those observed inHelicobacter pylori-infected humans. Bacteria from two dolphins classified by 16S rRNA analysis clustered with gastric helicobacters and represent a novel Helicobacter sp. most closely related to H. pylori. These findings suggest that a novel Helicobacter sp. may play a role in the etiopathogenesis of gastritis and gastric ulcers in dolphins. To our knowledge this represents the first isolation and characterization of a novel Helicobacter sp. from a marine mammal and emphasizes the wide host distribution and pathogenic potential of this increasingly important genus.

Helicobacter pylori gastritis in cats with long-term natural infection as a model of human disease.

A natural infection with Helicobacter pylori (H. pylori) in domestic cats (Felis cattus) less than 2 years of age has been well described in a closed colony of animals. Six cats from this colony that were serially evaluated by culture, polymerase chain reaction, and light and electron microscopy for a period of 3 years demonstrated persistent gastric colonization with a single cag(-) vac(+) strain of H. pylori. In these cats, as well as five other 5- to 6-year-old cats that were examined, a long-term infection resulted in chronic diffuse lymphofollicular atrophic gastritis with areas of mucosal dysplasia in the antrum and predominantly midsuperficial gastritis in the body and cardia. Topographically, the distribution of lesions was similar in both young and older cats and closely resembled that found in humans, with the most severe changes occurring in the gastric antrum. Few granulocytes and no significant elevation in mast cells were seen in older H. pylori-infected cats compared with uninfected controls; however, marked increases in interepithelial globule leukocytes and numerous active mucosal lymphoid follicles were present in infected animals. Indices of gastritis were significantly greater in older infected cats when compared with uninfected controls and younger cats (P < 0.05). The antral cell proliferation index of infected older cats was significantly (P = 0.021) greater than that of uninfected controls. Apoptotic indices of the gastric antrum and body of infected cats were significantly (P = 0.01) increased versus controls. Chronic infection with H. pylori in cats shares many features of long-term H. pylori infection in humans, including the development of preneoplastic processes. This similarity provides useful, comparative insights into host-pathogen interactions.